                         SEQUENCE LISTING



<110>  Rosetta Green Ltd.

       Maor, Rudy

       Nesher, Iris

       Noivirt, Orly

 

<120>  ISOLATED POLYNUCLEOTIDES EXPRESSING OR MODULATING dsRNAs, 

       TRANSGENIC PLANTS COMPRISING SAME AND USES THEREOF IN IMPROVING 

       NITROGEN USE EFFICIENCY, ABIOTIC STRESS TOLERANCE, BIOMASS, VIGOR

        OR YIELD OF A PLANT



<130>  54442

<150>  US 61/523,370
<151>  2011-08-14



<160>  2793  



<170>  PatentIn version 3.5



<210>  1

<211>  22

<212>  DNA

<213>  Zea mays



<400>  1

ccaagtcgag ggcagaccag gc                                                22





<210>  2

<211>  21

<212>  DNA

<213>  Zea mays



<400>  2

aggatgctga cgcaatggga t                                                 21





<210>  3

<211>  24

<212>  DNA

<213>  Zea mays



<400>  3

gtcaagtgac taagagcatg tggt                                              24





<210>  4

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  4

tggtgagcct tcctggctaa g                                                 21





<210>  5

<211>  24

<212>  DNA

<213>  Oryza sativa



<400>  5

tcacggaaaa cgagggagca gcca                                              24





<210>  6

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  6

cctgagggga aatcggcggg a                                                 21





<210>  7

<211>  22

<212>  DNA

<213>  Zea mays



<400>  7

gggcaacttc tcctttggca ga                                                22





<210>  8

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  8

aactaaaacg aaacggaagg agta                                              24





<210>  9

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  9

aaggtgcttt taggagtagg acgg                                              24





<210>  10

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  10

acaaaggaat tagaacggaa tggc                                              24





<210>  11

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  11

agaatcagga atggaacggc tccg                                              24





<210>  12

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  12

agaatcaggg atggaacggc tcta                                              24





<210>  13

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  13

agagtcacgg gcgagaagag gacg                                              24





<210>  14

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  14

aggacctaga tgagcgggcg gttt                                              24





<210>  15

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  15

aggacgctgc tggagacgga gaat                                              24





<210>  16

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  16

agggcttgtt cggtttgaag gggt                                              24





<210>  17

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  17

atctttcaac ggctgcgaag aagg                                              24





<210>  18

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  18

ctagaattag ggatggaacg gctc                                              24





<210>  19

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  19

gagggataac tggggacaac acgg                                              24





<210>  20

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  20

gcggagtggg atggggagtg ttgc                                              24





<210>  21

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  21

ggagacggat gcggagactg ctgg                                              24





<210>  22

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  22

ggttaggagt ggattgaggg ggat                                              24





<210>  23

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  23

gtcaagtgac taagagcatg tggt                                              24





<210>  24

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  24

gtggaatgga ggagattgag ggga                                              24





<210>  25

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  25

tggctgaagg cagaaccagg ggag                                              24





<210>  26

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  26

tgtggtagag aggaagaaca ggac                                              24





<210>  27

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  27

agggactctc tttatttccg acgg                                              24





<210>  28

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  28

agggttcgtt tcctgggagc gcgg                                              24





<210>  29

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  29

tcctagaatc agggatggaa cggc                                              24





<210>  30

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long



<400>  30

tgggagctct ctgttcgatg gcgc                                              24





<210>  31

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  31

aacgtcgtgt cgtgcttggg ct                                                22





<210>  32

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  32

acctggacca atacatgaga tt                                                22





<210>  33

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  33

agaagcgaca atgggacgga gt                                                22





<210>  34

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  34

aggaaggaac aaacgaggat aag                                               23





<210>  35

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  35

ccaagagatg gaagggcaga gc                                                22





<210>  36

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  36

cgacaacggg acggagttca a                                                 21





<210>  37

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  37

gaggatggag aggtacgtca ga                                                22





<210>  38

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  38

gatgggtagg agagcgtcgt gtg                                               23





<210>  39

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  39

gatggttcat aggtgacggt ag                                                22





<210>  40

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  40

gggagccgag acatagagat gt                                                22





<210>  41

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  41

gtgaggagtg ataatgagac gg                                                22





<210>  42

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  42

gtttggggct ttagcaggtt tat                                               23





<210>  43

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  43

tccatagctg ggcggaagag at                                                22





<210>  44

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  44

tcggcatgtg taggataggt g                                                 21





<210>  45

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  45

tgataggctg ggtgtggaag cg                                                22





<210>  46

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  46

tgcaaacaga ctggggaggc ga                                                22





<210>  47

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  47

tttggctgac aggataaggg ag                                                22





<210>  48

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  48

ttttcatagc tgggcggaag ag                                                22





<210>  49

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  49

aactttaaat aggtaggacg gcgc                                              24





<210>  50

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  50

ggaatgttgt ctggttcaag g                                                 21





<210>  51

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  51

tgtaatgttc gcggaaggcc ac                                                22





<210>  52

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  52

tgttggcatg gctcaatcaa c                                                 21





<210>  53

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  53

cgctgacgcc gtgccacctc at                                                22





<210>  54

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  54

gcctgggcct ctttagacct                                                   20





<210>  55

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  55

gtaggatgga tggagagggt tc                                                22





<210>  56

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea mays mir



<400>  56

tcaacgggct ggcggatgtg                                                   20





<210>  57

<211>  21

<212>  DNA

<213>  Zea mays



<400>  57

tagccaagca tgatttgccc g                                                 21





<210>  58

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  58

agaagagaga gagcacaacc c                                                 21





<210>  59

<211>  22

<212>  DNA

<213>  Arabidopsis thaliana



<400>  59

cttgagagag agaacacaga cg                                                22





<210>  60

<211>  21

<212>  DNA

<213>  Zea mays



<400>  60

caggcagcgc ggggctgctg g                                                 21





<210>  61

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  61

tgagccagga tgacttgccg g                                                 21





<210>  62

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  62

atgaagtgtt tgggggaact c                                                 21





<210>  63

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  63

gtgaagtgtt tgggggaact c                                                 21





<210>  64

<211>  20

<212>  DNA

<213>  Populus euphratica



<400>  64

ggccggggga cgggctggga                                                   20





<210>  65

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  65

aaaaaagact gagccgaatt gaaa                                              24





<210>  66

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  66

aaggagttta atgaagaaag agag                                              24





<210>  67

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  67

actgatgacg acactgagga ggct                                              24





<210>  68

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  68

agaggaacca gagccgaagc cgtt                                              24





<210>  69

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  69

aggcaaggtg gaggacgttg atga                                              24





<210>  70

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  70

agggctgatt tggtgacaag ggga                                              24





<210>  71

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  71

atataaaggg aggaggtatg gacc                                              24





<210>  72

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  72

atcggtcagc tggaggagac aggt                                              24





<210>  73

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  73

atggtaagag actatgatcc aact                                              24





<210>  74

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  74

caattttgta ctggatcggg gcat                                              24





<210>  75

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  75

cagaggaacc agagccgaag ccgt                                              24





<210>  76

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  76

cggctggaca gggaagaaga gcac                                              24





<210>  77

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  77

gaaacttgga gagatggagg cttt                                              24





<210>  78

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  78

gagagagaag ggagcggatc tggt                                              24





<210>  79

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  79

gctgcacggg attggtggag aggt                                              24





<210>  80

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  80

ggctgctgga gagcgtagag gacc                                              24





<210>  81

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  81

gggttttgag agcgagtgaa gggg                                              24





<210>  82

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  82

ggtattgggg tggattgagg tgga                                              24





<210>  83

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  83

ggtggcgatg caagaggagc tcaa                                              24





<210>  84

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long sequence



<400>  84

gttgctggag agagtagagg acgt                                              24





<210>  85

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  85

aaaagagaaa ccgaagacac at                                                22





<210>  86

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  86

aaagaggatg aggagtagca tg                                                22





<210>  87

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  87

aatacacatg ggttgaggag g                                                 21





<210>  88

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  88

agaagcggac tgccaaggag gc                                                22





<210>  89

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  89

agagggtttg gggatagagg gac                                               23





<210>  90

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  90

atagggatga ggcagagcat g                                                 21





<210>  91

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  91

atgctatttg tacccgtcac cg                                                22





<210>  92

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  92

atgtggataa aaggagggat ga                                                22





<210>  93

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  93

caacaggaac aaggaggacc at                                                22





<210>  94

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  94

ctgagttgag aaagagatgc t                                                 21





<210>  95

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  95

ctgatgggag gtggagttgc at                                                22





<210>  96

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  96

ctgggaagat ggaacatttt ggt                                               23





<210>  97

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  97

gaagatatac gatgatgagg ag                                                22





<210>  98

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  98

gaatctatcg tttgggctca t                                                 21





<210>  99

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  99

gacgagctac aaaaggattc g                                                 21





<210>  100

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  100

gatgacgagg agtgagagta gg                                                22





<210>  101

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  101

gggcatcttc tggcaggagg aca                                               23





<210>  102

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  102

tacggaagaa gagcaagttt t                                                 21





<210>  103

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  103

tagaaagagc gagagaacaa ag                                                22





<210>  104

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  104

tgatattatg gacgactggt t                                                 21





<210>  105

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  105

tggaagggcc atgccgagga g                                                 21





<210>  106

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  106

ttgagcgcag cgttgatgag c                                                 21





<210>  107

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  107

ttggataacg ggtagtttgg agt                                               23





<210>  108

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  108

agctgccgac tcattcaccc a                                                 21





<210>  109

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  109

tgtacgatga tcaggaggag gt                                                22





<210>  110

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  110

tgtgttctca ggtcgccccc g                                                 21





<210>  111

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  111

actaaaaaga aacagaggga g                                                 21





<210>  112

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  112

gaccggctcg acccttctgc                                                   20





<210>  113

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted Zea Mays mir sequence



<400>  113

tggtaggatg gatggagagg gt                                                22





<210>  114

<211>  21

<212>  DNA

<213>  Zea mays



<400>  114

ggaatgttgt ctggttcaag g                                                 21





<210>  115

<211>  22

<212>  DNA

<213>  Zea mays



<400>  115

ggcaagtctg tccttggcta ca                                                22





<210>  116

<211>  21

<212>  DNA

<213>  Zea mays



<400>  116

tcattgagcg cagcgttgat g                                                 21





<210>  117

<211>  21

<212>  DNA

<213>  Zea mays



<400>  117

ggggcggact gggaacacat g                                                 21





<210>  118

<211>  21

<212>  DNA

<213>  Zea mays



<400>  118

tgccaaaggg gatttgcccg g                                                 21





<210>  119

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  119

aagaaacggg gcagtgagat ggac                                              24





<210>  120

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  120

agaaaagatt gagccgaatt gaatt                                             25





<210>  121

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  121

agagcctgta gctaatggtg gg                                                22





<210>  122

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  122

aggtagcggc ctaagaacga caca                                              24





<210>  123

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  123

cctatatact ggaacggaac ggct                                              24





<210>  124

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  124

ctatatactg gaacggaacg gctt                                              24





<210>  125

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  125

gacgagatcg agtctggagc gagc                                              24





<210>  126

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  126

gagtatgggg agggactagg ga                                                22





<210>  127

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  127

gacgaaatag aggctcagga gagg                                              24





<210>  128

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  128

ggattcgtga ttggcgatgg gg                                                22





<210>  129

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  129

ggtgagaaac ggaaaggcag gaca                                              24





<210>  130

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  130

gtgtctgagc agggtgagaa ggct                                              24





<210>  131

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  131

gttttggagg cgtaggcgag ggat                                              24





<210>  132

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  132

tgggacgctg catctgttga t                                                 21





<210>  133

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  133

tctatatact ggaacggaac ggct                                              24





<210>  134

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  134

gttgttggag gggtagagga cgtc                                              24





<210>  135

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  135

aatgacagga cgggatggga cggg                                              24





<210>  136

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  136

acggaacggc ttcataccac aata                                              24





<210>  137

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  137

gacgggccga catttagagc acgg                                              24





<210>  138

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  138

acggataaaa ggtactct                                                     18





<210>  139

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  139

agtatgtcga aaactggagg gc                                                22





<210>  140

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  140

ataagcaccg gctaactct                                                    19





<210>  141

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  141

attcagcggg cgtggttatt ggca                                              24





<210>  142

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  142

cagcgggtgc catagtcgat                                                   20





<210>  143

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  143

cattgcgacg gtcctcaa                                                     18





<210>  144

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  144

ctcaacggat aaaaggtac                                                    19





<210>  145

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  145

gacagtcagg atgttggct                                                    19





<210>  146

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  146

gactgatcct tcggtgtcgg cg                                                22





<210>  147

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  147

gccgaagatt aaaagacgag acga                                              24





<210>  148

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  148

gcctttgccg accatcctga                                                   20





<210>  149

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  149

ggaatcgcta gtaatcgtgg at                                                22





<210>  150

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  150

ggagcagctc tggtcgtggg                                                   20





<210>  151

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  151

ggaggctcga ctatgttcaa a                                                 21





<210>  152

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  152

ggagggatgt gagaacatgg gc                                                22





<210>  153

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  153

gtccccttcg tctagaggc                                                    19





<210>  154

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  154

gtctgagtgg tgtagttggt                                                   20





<210>  155

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  155

gttggtagag cagttggc                                                     18





<210>  156

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  156

tacgttcccg ggtcttgtac a                                                 21





<210>  157

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  157

tatggatgaa gatgggggtg                                                   20





<210>  158

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  158

tcaacggata aaaggtactc cg                                                22





<210>  159

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  159

tgcccagtgc tttgaatg                                                     18





<210>  160

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  160

tgcgagaccg acaagtcgag c                                                 21





<210>  161

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  161

tttgcgacac gggctgctct                                                   20





<210>  162

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  162

catcgctcaa cggacaaaag gt                                                22





<210>  163

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  163

aagacgaagg tagcagcgcg atat                                              24





<210>  164

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  164

agccagactg atgagagaag gagg                                              24





<210>  165

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  165

acgttgttgg aagggtagag gacg                                              24





<210>  166

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  166

caagttatgc agttgctgcc t                                                 21





<210>  167

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  167

cagaatggag gaagagatgg tg                                                22





<210>  168

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  168

atctgtggag agagaaggtt gccc                                              24





<210>  169

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  169

atgtcagggg gccatgcagt at                                                22





<210>  170

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  170

atcctgactg tgccgggccg gccc                                              24





<210>  171

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  171

cgagttcgcc gtagagaaag ct                                                22





<210>  172

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  172

gactgattcg gacgaaggag ggtt                                              24





<210>  173

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  173

gtctgaacac taaacgaagc aca                                               23





<210>  174

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  174

gacgttgttg gaagggtaga ggac                                              24





<210>  175

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  175

gctactgtag ttcacgggcc ggcc                                              24





<210>  176

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  176

ggtattcgtg agcctgtttc tggtt                                             25





<210>  177

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  177

tggaaggagc atgcatcttg ag                                                22





<210>  178

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  178

ttcttgacct tgtaagaccc a                                                 21





<210>  179

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  179

agcagaatgg aggaagagat gg                                                22





<210>  180

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  180

ctggacactg ttgcagaagg agga                                              24





<210>  181

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  181

gaaataggat aggaggaggg atga                                              24





<210>  182

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  182

ggcacgacta acagactcac gggc                                              24





<210>  183

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  183

aatcccggtg gaacctcca                                                    19





<210>  184

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  184

acacgacaag acgaatgaga gaga                                              24





<210>  185

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  185

acgacgagga cttcgagacg                                                   20





<210>  186

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  186

caaagtggtc gtgccggag                                                    19





<210>  187

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  187

cagcttgaga atcgggccgc                                                   20





<210>  188

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  188

ccctgtgaca agaggagga                                                    19





<210>  189

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  189

cctgctaact agttatgcgg agc                                               23





<210>  190

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  190

cgaactcaga agtgaaacc                                                    19





<210>  191

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  191

cgcttcgtca aggagaaggg c                                                 21





<210>  192

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  192

cttaactggg cgttaagttg cagggt                                            26





<210>  193

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  193

ggacgaacct ctggtgtacc                                                   20





<210>  194

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  194

ggcgctggag aactgaggg                                                    19





<210>  195

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  195

gggggcctaa ataaagact                                                    19





<210>  196

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  196

gtgctaacgt ccgtcgtgaa                                                   20





<210>  197

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  197

tagcttaacc ttcgggaggg                                                   20





<210>  198

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  198

tgagaaagaa agagaaggct ca                                                22





<210>  199

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  199

tgatgtcctt agatgttctg ggc                                               23





<210>  200

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted siRNA sequence



<400>  200

catgtgttct caggtcgccc c                                                 21





<210>  201

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  201

gggcaaatac tccattggca ga                                                22





<210>  202

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  202

gggcaaatac tccattggca ga                                                22





<210>  203

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  203

gggcgaatac tcctatggca ga                                                22





<210>  204

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  204

gggcaagatc accattggca ga                                                22





<210>  205

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  205

gggcgcctct ccattggcag g                                                 21





<210>  206

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  206

gggcatcttt ctattggcag g                                                 21





<210>  207

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  207

gggcaagatc tctattggca gg                                                22





<210>  208

<211>  21

<212>  DNA

<213>  Zea mays



<400>  208

gggtacgtct cctttggcac a                                                 21





<210>  209

<211>  21

<212>  DNA

<213>  Zea mays



<400>  209

gggcaacccc ccgttggcag g                                                 21





<210>  210

<211>  21

<212>  DNA

<213>  Zea mays



<400>  210

aggcagctct cctctggcag g                                                 21





<210>  211

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  211

gggtaagatc tctattggca gg                                                22





<210>  212

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  212

gggcgaatcc tctattggca gg                                                22





<210>  213

<211>  21

<212>  DNA

<213>  Zea mays



<400>  213

gtgcagctct cctctggcat g                                                 21





<210>  214

<211>  21

<212>  DNA

<213>  Zea mays



<400>  214

gtgcagttct cctctggcac g                                                 21





<210>  215

<211>  21

<212>  DNA

<213>  Zea mays



<400>  215

gtgcggttct cctctggcac g                                                 21





<210>  216

<211>  21

<212>  DNA

<213>  Zea mays



<400>  216

gggcttctct ttcttggcag g                                                 21





<210>  217

<211>  21

<212>  DNA

<213>  Zea mays



<400>  217

gtgcggctct cctctggcat g                                                 21





<210>  218

<211>  21

<212>  DNA

<213>  Zea mays



<400>  218

gtgtggctct cctctggcat g                                                 21





<210>  219

<211>  21

<212>  DNA

<213>  Zea mays



<400>  219

ggaatgttgt ctggttcaag g                                                 21





<210>  220

<211>  21

<212>  DNA

<213>  Zea mays



<400>  220

ggaatgttgt ctggttcaag g                                                 21





<210>  221

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  221

ggaatgttgt ctggctcgag g                                                 21





<210>  222

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  222

ggaatgttgt ctggctcgag g                                                 21





<210>  223

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  223

ggaatgttgt ctggctcgag g                                                 21





<210>  224

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  224

ggaatgttgt ctggctcgag g                                                 21





<210>  225

<211>  21

<212>  DNA

<213>  Zea mays



<400>  225

ggaatgttgt ctggctcgag g                                                 21





<210>  226

<211>  22

<212>  DNA

<213>  Zea mays



<400>  226

ggtttgtttg tctggttcaa gg                                                22





<210>  227

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  227

ggactgttgt ctggctcgag g                                                 21





<210>  228

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  228

ggaatgttgt ctggcacgag g                                                 21





<210>  229

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  229

ggaatgttgt ttggctcgag g                                                 21





<210>  230

<211>  21

<212>  DNA

<213>  Zea mays



<400>  230

ggaatgttgt ctggctcggg g                                                 21





<210>  231

<211>  21

<212>  DNA

<213>  Zea mays



<400>  231

ggaatgttgt ctggttggag a                                                 21





<210>  232

<211>  21

<212>  DNA

<213>  Zea mays



<400>  232

ggaatgttgg ctggctcgag g                                                 21





<210>  233

<211>  21

<212>  DNA

<213>  Zea mays



<400>  233

ggattgttgt ctggctcggg g                                                 21





<210>  234

<211>  21

<212>  DNA

<213>  Zea mays



<400>  234

ggaatgtcgt ctggcgcgag a                                                 21





<210>  235

<211>  21

<212>  DNA

<213>  Zea mays



<400>  235

ggattgttgt ctggctcggt g                                                 21





<210>  236

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  236

tgaatgatgc ctggctcgag a                                                 21





<210>  237

<211>  20

<212>  DNA

<213>  Zea mays



<400>  237

gaatggaggc tggtccaaga                                                   20





<210>  238

<211>  21

<212>  DNA

<213>  Zea mays



<400>  238

ggaatgacgt ccggtccgaa c                                                 21





<210>  239

<211>  21

<212>  DNA

<213>  Zea mays



<400>  239

ggggcgaact gagaacacat g                                                 21





<210>  240

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  240

tgtgttctca ggtcgcccct g                                                 21





<210>  241

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  241

tgtgttctca ggtcgcccct g                                                 21





<210>  242

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  242

tgtgttctca ggtcgcccct g                                                 21





<210>  243

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  243

tgtgttctca ggtcgcccct g                                                 21





<210>  244

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  244

tgtgttctca ggtcgcccct g                                                 21





<210>  245

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  245

tgtgttctca ggtcgcccct g                                                 21





<210>  246

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  246

tgtgttctca ggtcgcccct g                                                 21





<210>  247

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  247

tgtgttctca ggtcgcccct g                                                 21





<210>  248

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  248

tgtgttctca ggtcgcccct g                                                 21





<210>  249

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  249

tgtgttctca ggtcgccccc g                                                 21





<210>  250

<211>  21

<212>  DNA

<213>  Triticum aestivum



<400>  250

tgtgttctca ggtcgccccc g                                                 21





<210>  251

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  251

tgtgttctca ggtcgcccct g                                                 21





<210>  252

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  252

tgtgttctca ggtcgcccct g                                                 21





<210>  253

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  253

tgtgttctca ggtcgcccct g                                                 21





<210>  254

<211>  21

<212>  DNA

<213>  Zea mays



<400>  254

tgtgttctca ggtcgccccc g                                                 21





<210>  255

<211>  21

<212>  DNA

<213>  Zea mays



<400>  255

tgtgttctca ggtcgccccc g                                                 21





<210>  256

<211>  142

<212>  DNA

<213>  Oryza sativa



<400>  256

atgaggagat tgcctctgtt agccaagaat ggcttgccta tctccactat ttggttcatc       60



actggaacac acttggggtt ctcagatggt ggatgaaata tggaagatgg tgagccttcc      120



tggctaagag agtgattctc at                                               142





<210>  257

<211>  169

<212>  DNA

<213>  Oryza sativa



<400>  257

ggaaaggctt tgtaaaacac actatttgac agtttggaaa gcgtgctcac ggaaaacgag       60



ggagcagcca aggcattgtt cttaccggtt tatgaattgg ctacttcctc gttttccgta      120



aacacgcttc ccgagcttct aaacggtgtg tttcttgcaa aaactttat                  169





<210>  258

<211>  237

<212>  DNA

<213>  Oryza sativa



<400>  258

gacgccgcac tgccgatttc cccctcgggc gagccatcgg agcgggggcc gttggctccc       60



aaagcagacg cgagaattca ctgaaattac cgcgccatct tatctccgca agttgaagaa      120



tataattcgg gcgcagtaat ttttagtgaa ttcatgtgtc tactactaca tatgtctgct      180



tgggagccaa ccgcgtttcg atggctcgcc tgaggggaaa tcggcgggag gcgtttg         237





<210>  259

<211>  105

<212>  DNA

<213>  Zea mays



<400>  259

caggatgtgc acctgcattt ctgggcaact tctcctttgg cagatgcgcg agaatgtgcc       60



actgctgcca aaggaaattt gccccggaat tcatctgcac aagca                      105





<210>  260

<211>  125

<212>  DNA

<213>  Aquilegia caerulea



<400>  260

agagatgaga gatatgttga cagaagagag agagcacaac ccatcatcag ctaaagagag       60



tcttttcttt tgttgggagt gtgctctttg ctcttctgtc atcatcacca aatctctctc      120



tctct                                                                  125





<210>  261

<211>  180

<212>  DNA

<213>  Arabidopsis thaliana



<400>  261

ccattttcga aagccttgag agagagaaca cagacgatac caactttctt caatctcgtt       60



gccgcagtat aattatctca ttcctcggat atatctctcc ttctgcggcg gcgacaagaa      120



gctacaagaa taaaaagtct gttttctctc ttttcaagaa accacttact tcgaaaatgg      180





<210>  262

<211>  130

<212>  DNA

<213>  Medicago truncatula



<400>  262

agaggtagag agagtatatt tgagccagga tgacttgccg gcatttgctg taaatgtaga       60



agaatccctt ctcacaatta aggtgttgtt ggcgaggaat ctaggctcat atttgctctc      120



tttccactca                                                             130





<210>  263

<211>  97

<212>  DNA

<213>  Medicago truncatula



<400>  263

gagttccttt gaacgcttca tgcatgagaa tatctatttg gtctaatatc cattagaaaa       60



gatagtcttt tcttctatga agtgtttggg ggaactc                                97





<210>  264

<211>  120

<212>  DNA

<213>  Oryza sativa



<400>  264

gagttctcct caaatcactt cagtagatag ctagctaggc ttcattgcat tacactgtta       60



caaaactgtg agcatggggc caaaagctag ttgtatatag tgaagtgttt gggggaactc      120





<210>  265

<211>  95

<212>  DNA

<213>  Populus euphratica



<400>  265

tcccagtccc gaacccgtcg gctgtcggtg gactgctcga gctgctcccg cggcaagagc       60



gggtcgtcgc gtgccggccg ggggacgggc tggga                                  95





<210>  266

<211>  104

<212>  DNA

<213>  Zea mays



<400>  266

gtggaatgtt gtctggttca aggtcttttg ctttgtgatc catctgtgta gagcttctaa       60



gtattccttg gatctgcaag atctcggacc aggcttcatt cccc                       104





<210>  267

<211>  134

<212>  DNA

<213>  Zea mays



<400>  267

atgaggtaga gaacgggatg cagccaagga tgacttgccg gctcctggaa cctggaggcg       60



tctcagcttg ctgtgctgtg gcttagaact tagtcggcaa gtctgtcctt ggctacacct      120



agttctcttc ctct                                                        134





<210>  268

<211>  143

<212>  DNA

<213>  Zea mays



<400>  268

gtcattgagc gcagcgttga tgatgcggag catgtacgtc ttcccgggct tcactttcag       60



cttgaacgtg tctgcgtgca tgcatatcat aagtatggat atgagttagt ataaagaatc      120



atagccgtta gcgctcatta act                                              143





<210>  269

<211>  141

<212>  DNA

<213>  Zea mays



<400>  269

gtcattgagc gcagcgttga tgatgcggag catgtacgtc ttcccgggct tcactttcag       60



cttgaacgtg tctggtgcat gcatatcata agtatggata tgagttagta taaagaatca      120



tagccgttag cgctcattaa c                                                141





<210>  270

<211>  108

<212>  DNA

<213>  Zea mays



<400>  270

gggggcggac tgggaacaca tgggaatgag atgagatcat tgctcggtcg tgctggcctg       60



ggccgtcggc gcgcgttgat cttgcatgtg ttctcaggtc gcccccgg                   108





<210>  271

<211>  68

<212>  DNA

<213>  Zea mays



<400>  271

agggcaaccc cccgttggca ggtgcgacgg cgacgtaccc ctaccctgcc aaaggggatt       60



tgcccggc                                                                68





<210>  272

<211>  157

<212>  DNA

<213>  Arabidopsis lyrata



<400>  272

gatgatgcat ggttggatta cagggcaaat actccattgg cagatagttt tcgctacatc       60



tatattattt gttattatat gggtgaatca atgtatgaaa aatactttac tgccaaagga      120



gatttgcccc gcaatttgtt ccatgcaaaa gaacatc                               157





<210>  273

<211>  127

<212>  DNA

<213>  Arabidopsis lyrata



<400>  273

gcatggttgg attacagggc aaatactcca ttggcagata gttttcgttg catctatatt       60



attgattatc gatgtatgaa aaattcttta ctgccaaagg agatttgccc cgcaattcat      120



cccgtgc                                                                127





<210>  274

<211>  135

<212>  DNA

<213>  Arabidopsis lyrata



<400>  274

gagagataat gtatggttgg attactgggc gaatactcct atggcagata gctttgccta       60



gatatgcaag caaaatgctt ctctgccaaa ggagatttgc cccgcaattc atccatgcaa      120



aacaatacat ctttc                                                       135





<210>  275

<211>  167

<212>  DNA

<213>  Arabidopsis lyrata



<400>  275

atgaaagata catagagaag gtgcaaatac attacagggc aagatcacca ttggcagaaa       60



tctattactt cattcttgca taatatgcat taatgtttgt ggtgagctct ctgccaaagg      120



agatttgccc tgtaattctc ttgcgccaat gttttagata tcttcat                    167





<210>  276

<211>  154

<212>  DNA

<213>  Arabidopsis lyrata



<400>  276

catgtaagct cacaagtttt agggcgcctc tccattggca ggtcctttat ttccaaatat       60



acacatacat atatgaatat agaaaatttc gatttatata tgacctgcca aaggagagtt      120



gccctgaaac tggttcagct taattaaaca catg                                  154





<210>  277

<211>  125

<212>  DNA

<213>  Arabidopsis lyrata



<400>  277

taagcggagc agtaataggg catctttcta ttggcaggag actcggctat ttgtatcttt       60



tgtgttcttg gctattggct atgtcacttg ccaaaggaga gttgccctgt cactacttcc      120



gctta                                                                  125





<210>  278

<211>  106

<212>  DNA

<213>  Arabidopsis lyrata



<400>  278

attacagggc aagatctcta ttggcaggaa accattactt gacctttgca tctctttatg       60



cattgctttg tagtgagttc ttgccaaagg agatttgccc ggtaat                     106





<210>  279

<211>  207

<212>  DNA

<213>  Zea mays



<400>  279

tgcttgctga gcatgaatta cagggtacgt ctcctttggc acagcagaat gcacacatca       60



tcagtcgaga gagtaagctc gctgcgtgct cgccggcctg ggagcggaag tcgcaggcca      120



aatggcggcg gtgcagatgc atgaacagca gctgccgtat atatgcgtgc caaaggagaa      180



ttgccctgcg attctaggct cagcgat                                          207





<210>  280

<211>  68

<212>  DNA

<213>  Zea mays



<400>  280

agggcaaccc cccgttggca ggtgcgacgg cgacgtaccc ctaccctgcc aaaggggatt       60



tgcccggc                                                                68





<210>  281

<211>  175

<212>  DNA

<213>  Zea mays



<400>  281

aggcagctct cctctggcag gcaggcgcgc ggtcatcgtc gccatcgacg acggttgctt       60



ggctctgcta tgctgtgttc gttcgtccat ggtgtgctag ctagccgtgc atgcattgca      120



gtgtaacatg cgtgcatgca cgcgcgtacg tcctgccaaa ggagagttgc cctgc           175





<210>  282

<211>  162

<212>  DNA

<213>  Arabidopsis lyrata



<400>  282

catgtgagat ggatcaaagg tggaaatgta ttacagggta agatctctat tggcaggaaa       60



ccattactta gatctttgca tctctttatg cattgctttt aagtgagttc tctgccaaag      120



gagatttgcc cggtaattct tctgcaccaa tatattgata tg                         162





<210>  283

<211>  191

<212>  DNA

<213>  Arabidopsis lyrata



<400>  283

agtgagagag gaaaacagag attatgtttt ggtagaaagc attacagggc gaatcctcta       60



ttggcagggg aagttgatga gtgttgatca ctcttatatt ttctcatcat tttcctctgc      120



caaaggagat ttgcctcgca atgcttccct accgttatgg cgttattcat ttctccaatg      180



tccaatctac t                                                           191





<210>  284

<211>  122

<212>  DNA

<213>  Zea mays



<400>  284

gtagctcagg gtgcgaatca cagtgcagct ctcctctggc atgaaggctg tgagagaggc       60



atgacaattt ctggccttgc cctgccaaag gagagctgtc ctgccattca ttagccctgc      120



aa                                                                     122





<210>  285

<211>  94

<212>  DNA

<213>  Zea mays



<400>  285

agtgcagttc tcctctggca cgaaccaagg ctgagcagct tgccccatgg ctagcccacg       60



acggcccttc cttgccaaag gagaattgcc ctgc                                   94





<210>  286

<211>  123

<212>  DNA

<213>  Zea mays



<400>  286

tgtgaagagg gtgagaatca cagtgcggtt ctcctctggc acgaaggctg gccagagcag       60



cttatattgc caccaccctt ccttgccaaa ggagaattgc cctgccattc acaaccctgc      120



aat                                                                    123





<210>  287

<211>  124

<212>  DNA

<213>  Zea mays



<400>  287

atgcctaagc tgtccagttt cagggcttct ctttcttggc agggaagcat gagatgccat       60



agctctctgc tctcttcaac cctctgccaa aggagagttg ccctgtaaca ggactcagct      120



tatg                                                                   124





<210>  288

<211>  91

<212>  DNA

<213>  Zea mays



<400>  288

agtgcggctc tcctctggca tgagggcgcg actgagaggc acgaacagtt tctggccttc       60



tcctgccaat gccaaaggag agttgccctg c                                      91





<210>  289

<211>  125

<212>  DNA

<213>  Zea mays



<400>  289

tcaaggtgag aatcacagtg tggctctcct ctggcatgaa ggcgcggctg agaggcacga       60



acagtttctg gccttcccct gccaatgcca aaggagagct gccctgccat tcgttagccc      120



tgcaa                                                                  125





<210>  290

<211>  116

<212>  DNA

<213>  Zea mays



<400>  290

gtggaatgtt gtctggttca aggtcttgct wtccgatttg aggatgatcc atgcttgcat       60



gtgtagtttt ttttgttcct cagatctaca agatctcgga ccaggcttca ttcccc          116





<210>  291

<211>  104

<212>  DNA

<213>  Zea mays



<400>  291

gtggaatgtt gtctggttca aggtcttttg ctttgtgatc catctgtgta gagcttctaa       60



gtattccttg gatctgcaag atctcggacc aggcttcatt cccc                       104





<210>  292

<211>  167

<212>  DNA

<213>  Arabidopsis lyrata



<400>  292

ggggttttct cttttgaggg gaatgttgtc tggctcgagg actctggctc gctctattca       60



tgttggatct ttttcgatct aataatcgaa ttgaacctcc agatttcaga tctgactagg      120



gttttagcgt cgtcggacca ggcttcattc cccccaattg ttgctcc                    167





<210>  293

<211>  121

<212>  DNA

<213>  Arabidopsis lyrata



<400>  293

ggttgagagg aatgttgtct ggctcgaggt catgaaggag aggatatcac tccaattaat       60



ttggaagaac gaattaagaa accctaaatg attctcggac caggcttcat tccccctaac      120



c                                                                      121





<210>  294

<211>  113

<212>  DNA

<213>  Arabidopsis lyrata



<400>  294

ggttgagagg aatgttgtct ggctcgaggt catgaagaag atcattagat tgattcatct       60



taaagaatga aaaccctaaa tgattctcgg accaggcttc attcccccca acc             113





<210>  295

<211>  177

<212>  DNA

<213>  Citrus sinensis



<400>  295

ggggagcttt ttgttttgag gggaatgttg tctggctcga ggacactact tgttgatcca       60



ttaattttac gtattctctc atagatctag catctgaatg gtggataaca atatacggat      120



tcagcttatt tggcgtcgtc ggaccaggct tcattccccc caatatattg cttctat         177





<210>  296

<211>  92

<212>  DNA

<213>  Zea mays



<400>  296

ggggaatgtt gtctggctcg aggtgcagaa acacgcagat ctcatcgagg tcgtcttggt       60



tgttgttgat ctcggaccag gcttcattcc cc                                     92





<210>  297

<211>  154

<212>  DNA

<213>  Zea mays



<400>  297

caagttgaag attaggttaa ggggtttgtt tgtctggttc aaggtcgcca cacagcaggg       60



aaaacccatt tcgccttgaa gcatgcacca tgatgggtgt acctgttggt gatctcggac      120



caggcttcaa tccctttaac tagcgtctgc atat                                  154





<210>  298

<211>  148

<212>  DNA

<213>  Arabidopsis lyrata



<400>  298

agagggattt ttcttttgag gggactgttg tctggctcga ggtctcttat tctaatacaa       60



tctcatttca atagtctcag atctgatgat tgattagggt tttagcatct cggaccaggc      120



ttcattcccc ccaattatta ctccctct                                         148





<210>  299

<211>  200

<212>  DNA

<213>  Arabidopsis lyrata



<400>  299

gagtccatgt tcttcagtga agctttttct tttgagggga atgttgtctg gcacgaggcc       60



cttaacttag atctatattt gattttatgt ctcttcttta tttattagtc tatatataca      120



tgaatgatcg attttaacgg ttaatgacgt cggaccaggc ttcattcccc tcaattatat      180



cgcttcttcg atcttggctt                                                  200





<210>  300

<211>  131

<212>  DNA

<213>  Arabidopsis lyrata



<400>  300

ggaagcgatt tagggtttag aggaatgttg tttggctcga ggtcatggag agtaattcgt       60



taccaaaaca caaaactcta aatgattctc ggaccaggct tcattcccct caacctattt      120



tatcgcattt t                                                           131





<210>  301

<211>  213

<212>  DNA

<213>  Zea mays



<400>  301

tgaggggaat gttgtctggc tcggggccgc cgccgccgct ccttccttct ctagtctctc       60



ttctctccta gcagctactc ttcgcttcct actcctatct cgatccctct cttcttcttc      120



ttcttcttct tcctcttccc ccctctcttg gatcgagacc gagcggacgg agacgagtgg      180



tgtagatctc ggaccaggct tcattccccc caa                                   213





<210>  302

<211>  126

<212>  DNA

<213>  Zea mays



<400>  302

ggggaatgtt gtctggttgg agacctaaca ccrcgaatta atcatccatg ccatggaagc       60



agcatatgcc cgcctgcatc tatccatgca tgatggtgga aggtttcgga ccaggcttca      120



ttcccc                                                                 126





<210>  303

<211>  156

<212>  DNA

<213>  Zea mays



<400>  303

tccttggtct gggggtttgt ggggaatgtt ggctggctcg aggcatccgc gtcctggctc       60



gcagtcgcag cgcagatcgt gttttgcctg ctaccggccg gacagatcga gaggcgtcgg      120



accaggcttc attcctcgca aaccggtgca tcccca                                156





<210>  304

<211>  168

<212>  DNA

<213>  Zea mays



<400>  304

gcatgctcgg gttaggtcag ggggattgtt gtctggctcg gggtctccgg tcgagatcga       60



ttcataacat atacgtacgt gcttctagcc ttgccggcgg agctagtcgt tgtcgtcgac      120



cggagatttc ggaccaggct tcaatccctt tgaccatgcg gcattagg                   168





<210>  305

<211>  83

<212>  DNA

<213>  Zea mays



<400>  305

ggggaatgtc gtctggcgcg agaccgtacc agacgacgtg ctctctcggt cgtcggacgg       60



tctcggacca ggcttcattc ccc                                               83





<210>  306

<211>  96

<212>  DNA

<213>  Zea mays



<400>  306

gggattgttg tctggctcgg tgtctccggt cgagayggcc ttgccggcgc cggagctgtc       60



gtcgaccgga gatctcggac caggcttcaa tccctt                                 96





<210>  307

<211>  105

<212>  DNA

<213>  Arabidopsis lyrata



<400>  307

aagttcaggt gaatgatgcc tggctcgaga ccattccatc tcatgatcat gatgatgata       60



taatgatgat gatgatgtcg gaccaggctt cattcccctc aactt                      105





<210>  308

<211>  137

<212>  DNA

<213>  Zea mays



<400>  308

aaagaacggg aggagggttt ctggaatgga ggctggtcca agatccttag gtgttaaagc       60



attatattgc cttgtttctg gttttgtgtt tgagatctcg gaccaggctt cattcctcaa      120



acccacgctc ccgacac                                                     137





<210>  309

<211>  76

<212>  DNA

<213>  Zea mays



<400>  309

ggggaatgac gtccggtccg aacgagccac ggctgctgct gcgccgccgc gggcttcgga       60



ccaggcttca ttcccc                                                       76





<210>  310

<211>  140

<212>  DNA

<213>  Zea mays



<400>  310

gggggcgaac tgagaacaca tgagaataat gagatgagat tgctcgcctc gcggtacggt       60



tcgtgctggc ctggaccacc gtcgtcgccg ttcatcttgt acgcataata atgctgcatg      120



tgttctcagg tcgcccccgc                                                  140





<210>  311

<211>  93

<212>  DNA

<213>  Aquilegia caerulea



<400>  311

gggggtaaca tgagaataca tgaaatagat actatcagag agtcattcca ttgtagtatc       60



agtttcttcc atgtgttctc aggtcgcccc tgc                                    93





<210>  312

<211>  150

<212>  DNA

<213>  Brachypodium distachyon



<400>  312

aagaacagac agcacatgcg aggaagttcc tgcagggtcg aattgggaac acatgagatg       60



gatggtccgc tgagctctga gctcgagctc ggccatgtgt tctcaggtcg cccctgttgg      120



gtcttccgtg ccatggattg atgattgcct                                       150





<210>  313

<211>  131

<212>  DNA

<213>  Brachypodium distachyon



<400>  313

cagcacatgc gaggaagttc ctgcagggtc gaattgggaa cacatgagat ggatggtccg       60



ctgagctctg agctcgagct cggccatgtg ttctcaggtc gcccctgttg ggtcttccgt      120



gccatggatt g                                                           131





<210>  314

<211>  87

<212>  DNA

<213>  Medicago truncatula



<400>  314

ttctacaggg tcgacatgag accacatgaa gctatcatat ttgtctatgt tatccaactc       60



atgtgttctc aggtcgcccc tgctgaa                                           87





<210>  315

<211>  87

<212>  DNA

<213>  Medicago truncatula



<400>  315

ttccacaggg ccgacccgag accacatgaa gttatcatat gtgtctaagc tacacatctc       60



gtgtgttctc aggtcgcccc tgctgaa                                           87





<210>  316

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  316

ggagttccta caggggcgag ctgggaacac acggtgatga ggcggtctgg tctttcgtgt       60



gttctcaggt cgcccctgcc gggactct                                          88





<210>  317

<211>  85

<212>  DNA

<213>  Populus trichocarpa



<400>  317

agggttccga caggagcggc cttgggtcac atgtggcggc atccaatgta cttcatgtgt       60



tctcaggtcg cccctgccgg gcttc                                             85





<210>  318

<211>  97

<212>  DNA

<213>  Populus trichocarpa



<400>  318

aggattccta caggagcgac ctgaaatcac atgtgggctg caccctcctg ggttatcttg       60



agcaacatgt gttctcaggt cgcccctgcc gggcttt                                97





<210>  319

<211>  126

<212>  DNA

<213>  Ricinus communis



<400>  319

ctacaggagc gacctgagaa tcacatgtgg acattcttag ctatatatac ccttatcatc       60



ttctcttatt ttgggtttat tgtactttgg tgttctttca tgtgttctca ggtcgcccct      120



gccggg                                                                 126





<210>  320

<211>  109

<212>  DNA

<213>  Sorghum bicolor



<400>  320

gggggcggac tgggaacaca tgggaatgag agatgagatt gctcggtcgt gctggccctg       60



ggctcgtagt tgatctgctt gtatgcatgt gttctcaggt cgcccccgc                  109





<210>  321

<211>  120

<212>  DNA

<213>  Triticum aestivum



<400>  321

agacgcgagg aaattcctgc ggggtcgaac tgggaacaca tgggatacga accgcttgat       60



tgaggagcga ctcttatcaa ctcatgtgtt ctcaggtcgc ccccgctgga gcctcctcgc      120





<210>  322

<211>  125

<212>  DNA

<213>  Theobroma cacao



<400>  322

ttaatggtgg aggagcccaa caggagcgac atgagaacac atgtggccac tcttgaagga       60



caaaccttat cctgtgtgtt ttgatgtgtt ctcaggtcgc ccctgcaggg ctttccttca      120



ccttc                                                                  125





<210>  323

<211>  88

<212>  DNA

<213>  Vitis vinifera



<400>  323

gtgtcctaca ggtgtgacct gagaatcaca tgcccgcacc acccatcttt gctctcatgt       60



gttctcaggt cgcccctgct ggactccc                                          88





<210>  324

<211>  88

<212>  DNA

<213>  Vitis vinifera



<400>  324

gtgtcctaca ggagtgacct gagaatcaca tgcccgcatc acccatcttt gctctcatgt       60



gttctcaggt cgcccctgct ggactccc                                          88





<210>  325

<211>  140

<212>  DNA

<213>  Zea mays



<400>  325

gggggcgaac tgagaacaca tgagaataat gagatgagat tgctcgcctc gcggtacggt       60



tcgtgctggc ctggaccacc gtcgtcgccg ttcatcttgt acgcataata atgctgcatg      120



tgttctcagg tcgcccccgc                                                  140





<210>  326

<211>  108

<212>  DNA

<213>  Zea mays



<400>  326

gggggcggac tgggaacaca tgggaatgag atgagatcat tgctcggtcg tgctggcctg       60



ggccgtcggc gcgcgttgat cttgcatgtg ttctcaggtc gcccccgg                   108





<210>  327

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  327

cgaagggaat tgagggggct ag                                                22





<210>  328

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  328

gaggagacct ggaggagacg ct                                                22





<210>  329

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  329

cgaggaggag aagcaacaca tagg                                              24





<210>  330

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  330

gggattggag gggattgagg tgga                                              24





<210>  331

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  331

gaggagggga ttcgacgaaa tgga                                              24





<210>  332

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  332

agaagagaga gagcacaacc c                                                 21





<210>  333

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  333

cttgagagag agaacacaga cg                                                22





<210>  334

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  334

tgagccagga tgacttgccg g                                                 21





<210>  335

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  335

attcacgggg acgaacctcc t                                                 21





<210>  336

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  336

atgaagtgtt tgggggaact c                                                 21





<210>  337

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  337

tggtgagcct tcctggctaa g                                                 21





<210>  338

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  338

tcacggaaaa cgagggagca gcca                                              24





<210>  339

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  339

cctgagggga aatcggcggg a                                                 21





<210>  340

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  340

gtgaagtgtt tgggggaact c                                                 21





<210>  341

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  341

ggccggggga cgggctggga                                                   20





<210>  342

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  342

aaaaaagact gagccgaatt gaaa                                              24





<210>  343

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  343

aactaaaacg aaacggaagg agta                                              24





<210>  344

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  344

aaggagttta atgaagaaag agag                                              24





<210>  345

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  345

aaggtgcttt taggagtagg acgg                                              24





<210>  346

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  346

acaaaggaat tagaacggaa tggc                                              24





<210>  347

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  347

actgatgacg acactgagga ggct                                              24





<210>  348

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  348

agaatcagga atggaacggc tccg                                              24





<210>  349

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  349

agaatcaggg atggaacggc tcta                                              24





<210>  350

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  350

agaggaacca gagccgaagc cgtt                                              24





<210>  351

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  351

agagtcacgg gcgagaagag gacg                                              24





<210>  352

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  352

aggacctaga tgagcgggcg gttt                                              24





<210>  353

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  353

aggacgctgc tggagacgga gaat                                              24





<210>  354

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  354

aggcaaggtg gaggacgttg atga                                              24





<210>  355

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  355

agggctgatt tggtgacaag ggga                                              24





<210>  356

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  356

agggcttgtt cggtttgaag gggt                                              24





<210>  357

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  357

atataaaggg aggaggtatg gacc                                              24





<210>  358

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  358

atcggtcagc tggaggagac aggt                                              24





<210>  359

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  359

atctttcaac ggctgcgaag aagg                                              24





<210>  360

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  360

atggtaagag actatgatcc aact                                              24





<210>  361

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  361

caattttgta ctggatcggg gcat                                              24





<210>  362

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  362

cagaggaacc agagccgaag ccgt                                              24





<210>  363

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  363

cggctggaca gggaagaaga gcac                                              24





<210>  364

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  364

ctagaattag ggatggaacg gctc                                              24





<210>  365

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  365

gaaacttgga gagatggagg cttt                                              24





<210>  366

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  366

gagagagaag ggagcggatc tggt                                              24





<210>  367

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  367

gagggataac tggggacaac acgg                                              24





<210>  368

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  368

gcggagtggg atggggagtg ttgc                                              24





<210>  369

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  369

gctgcacggg attggtggag aggt                                              24





<210>  370

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  370

ggagacggat gcggagactg ctgg                                              24





<210>  371

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  371

ggctgctgga gagcgtagag gacc                                              24





<210>  372

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  372

gggttttgag agcgagtgaa gggg                                              24





<210>  373

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  373

ggtattgggg tggattgagg tgga                                              24





<210>  374

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  374

ggtggcgatg caagaggagc tcaa                                              24





<210>  375

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  375

ggttaggagt ggattgaggg ggat                                              24





<210>  376

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  376

gtcaagtgac taagagcatg tggt                                              24





<210>  377

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  377

gtggaatgga ggagattgag ggga                                              24





<210>  378

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  378

gttgctggag agagtagagg acgt                                              24





<210>  379

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  379

tggctgaagg cagaaccagg ggag                                              24





<210>  380

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  380

tgtggtagag aggaagaaca ggac                                              24





<210>  381

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  381

agggactctc tttatttccg acgg                                              24





<210>  382

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  382

agggttcgtt tcctgggagc gcgg                                              24





<210>  383

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  383

tcctagaatc agggatggaa cggc                                              24





<210>  384

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  384

tgggagctct ctgttcgatg gcgc                                              24





<210>  385

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  385

catcgctcaa cggacaaaag gt                                                22





<210>  386

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  386

aagaaacggg gcagtgagat ggac                                              24





<210>  387

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  387

agaaaagatt gagccgaatt gaatt                                             25





<210>  388

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  388

aagacgaagg tagcagcgcg atat                                              24





<210>  389

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  389

agagcctgta gctaatggtg gg                                                22





<210>  390

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  390

agccagactg atgagagaag gagg                                              24





<210>  391

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  391

aggtagcggc ctaagaacga caca                                              24





<210>  392

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  392

acgttgttgg aagggtagag gacg                                              24





<210>  393

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  393

caagttatgc agttgctgcc t                                                 21





<210>  394

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  394

catgtgttct caggtcgccc c                                                 21





<210>  395

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  395

cctatatact ggaacggaac ggct                                              24





<210>  396

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  396

cagaatggag gaagagatgg tg                                                22





<210>  397

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  397

atctgtggag agagaaggtt gccc                                              24





<210>  398

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  398

atgtcagggg gccatgcagt at                                                22





<210>  399

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  399

ctatatactg gaacggaacg gctt                                              24





<210>  400

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  400

atcctgactg tgccgggccg gccc                                              24





<210>  401

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  401

gacgagatcg agtctggagc gagc                                              24





<210>  402

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  402

gagtatgggg agggactagg ga                                                22





<210>  403

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  403

cgagttcgcc gtagagaaag ct                                                22





<210>  404

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  404

gactgattcg gacgaaggag ggtt                                              24





<210>  405

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  405

gtctgaacac taaacgaagc aca                                               23





<210>  406

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  406

gacgttgttg gaagggtaga ggac                                              24





<210>  407

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  407

gacgaaatag aggctcagga gagg                                              24





<210>  408

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  408

ggattcgtga ttggcgatgg gg                                                22





<210>  409

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  409

ggtgagaaac ggaaaggcag gaca                                              24





<210>  410

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  410

gctactgtag ttcacgggcc ggcc                                              24





<210>  411

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  411

gtgtctgagc agggtgagaa ggct                                              24





<210>  412

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  412

gttttggagg cgtaggcgag ggat                                              24





<210>  413

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  413

tgggacgctg catctgttga t                                                 21





<210>  414

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  414

tctatatact ggaacggaac ggct                                              24





<210>  415

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  415

ggtattcgtg agcctgtttc tggtt                                             25





<210>  416

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  416

gttgttggag gggtagagga cgtc                                              24





<210>  417

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  417

tggaaggagc atgcatcttg ag                                                22





<210>  418

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  418

aatgacagga cgggatggga cggg                                              24





<210>  419

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  419

acggaacggc ttcataccac aata                                              24





<210>  420

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  420

ttcttgacct tgtaagaccc a                                                 21





<210>  421

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  421

agcagaatgg aggaagagat gg                                                22





<210>  422

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  422

ctggacactg ttgcagaagg agga                                              24





<210>  423

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  423

gacgggccga catttagagc acgg                                              24





<210>  424

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  424

gaaataggat aggaggaggg atga                                              24





<210>  425

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  425

ggcacgacta acagactcac gggc                                              24





<210>  426

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  426

aatcccggtg gaacctcca                                                    19





<210>  427

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  427

acacgacaag acgaatgaga gaga                                              24





<210>  428

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  428

acggataaaa ggtactct                                                     18





<210>  429

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  429

agtatgtcga aaactggagg gc                                                22





<210>  430

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  430

ataagcaccg gctaactct                                                    19





<210>  431

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  431

attcagcggg cgtggttatt ggca                                              24





<210>  432

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  432

acgacgagga cttcgagacg                                                   20





<210>  433

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  433

cagcgggtgc catagtcgat                                                   20





<210>  434

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  434

caaagtggtc gtgccggag                                                    19





<210>  435

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  435

tttgcgacac gggctgctct                                                   20





<210>  436

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  436

cattgcgacg gtcctcaa                                                     18





<210>  437

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  437

cagcttgaga atcgggccgc                                                   20





<210>  438

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  438

ccctgtgaca agaggagga                                                    19





<210>  439

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  439

cctgctaact agttatgcgg agc                                               23





<210>  440

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  440

cgaactcaga agtgaaacc                                                    19





<210>  441

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  441

ctcaacggat aaaaggtac                                                    19





<210>  442

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  442

cgcttcgtca aggagaaggg c                                                 21





<210>  443

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  443

gacagtcagg atgttggct                                                    19





<210>  444

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  444

gactgatcct tcggtgtcgg cg                                                22





<210>  445

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  445

gccgaagatt aaaagacgag acga                                              24





<210>  446

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  446

gcctttgccg accatcctga                                                   20





<210>  447

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  447

ggaatcgcta gtaatcgtgg at                                                22





<210>  448

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  448

cttaactggg cgttaagttg cagggt                                            26





<210>  449

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  449

ggagcagctc tggtcgtggg                                                   20





<210>  450

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  450

ggaggctcga ctatgttcaa a                                                 21





<210>  451

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  451

ggagggatgt gagaacatgg gc                                                22





<210>  452

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  452

ggacgaacct ctggtgtacc                                                   20





<210>  453

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  453

ggcgctggag aactgaggg                                                    19





<210>  454

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  454

gtccccttcg tctagaggc                                                    19





<210>  455

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  455

gtctgagtgg tgtagttggt                                                   20





<210>  456

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  456

gggggcctaa ataaagact                                                    19





<210>  457

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  457

gttggtagag cagttggc                                                     18





<210>  458

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  458

tacgttcccg ggtcttgtac a                                                 21





<210>  459

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  459

gtgctaacgt ccgtcgtgaa                                                   20





<210>  460

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  460

tatggatgaa gatgggggtg                                                   20





<210>  461

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  461

tcaacggata aaaggtactc cg                                                22





<210>  462

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  462

tagcttaacc ttcgggaggg                                                   20





<210>  463

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  463

tgagaaagaa agagaaggct ca                                                22





<210>  464

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  464

tgcccagtgc tttgaatg                                                     18





<210>  465

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  465

tgcgagaccg acaagtcgag c                                                 21





<210>  466

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  466

tttgcgacac gggctgctct                                                   20





<210>  467

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  467

aaaagagaaa ccgaagacac at                                                22





<210>  468

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  468

aaagaggatg aggagtagca tg                                                22





<210>  469

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  469

aacgtcgtgt cgtgcttggg ct                                                22





<210>  470

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  470

aatacacatg ggttgaggag g                                                 21





<210>  471

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  471

acctggacca atacatgaga tt                                                22





<210>  472

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  472

agaagcgaca atgggacgga gt                                                22





<210>  473

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  473

agaagcggac tgccaaggag gc                                                22





<210>  474

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  474

agagggtttg gggatagagg gac                                               23





<210>  475

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  475

aggaaggaac aaacgaggat aag                                               23





<210>  476

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  476

aggatgctga cgcaatggga t                                                 21





<210>  477

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  477

caggatgtga ggctattggg gac                                               23





<210>  478

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  478

atagggatga ggcagagcat g                                                 21





<210>  479

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  479

atgctatttg tacccgtcac cg                                                22





<210>  480

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  480

atgtggataa aaggagggat ga                                                22





<210>  481

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  481

caacaggaac aaggaggacc at                                                22





<210>  482

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  482

ccaagagatg gaagggcaga gc                                                22





<210>  483

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  483

ccaagtcgag ggcagaccag gc                                                22





<210>  484

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  484

cgacaacggg acggagttca a                                                 21





<210>  485

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  485

ctgagttgag aaagagatgc t                                                 21





<210>  486

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  486

ctgatgggag gtggagttgc at                                                22





<210>  487

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  487

ctgggaagat ggaacatttt ggt                                               23





<210>  488

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  488

gaagatatac gatgatgagg ag                                                22





<210>  489

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  489

gaatctatcg tttgggctca t                                                 21





<210>  490

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  490

gacgagctac aaaaggattc g                                                 21





<210>  491

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  491

gaggatggag aggtacgtca ga                                                22





<210>  492

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  492

gatgacgagg agtgagagta gg                                                22





<210>  493

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  493

gatgggtagg agagcgtcgt gtg                                               23





<210>  494

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  494

gatggttcat aggtgacggt ag                                                22





<210>  495

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  495

gggagccgag acatagagat gt                                                22





<210>  496

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  496

gggcatcttc tggcaggagg aca                                               23





<210>  497

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  497

gtgaggagtg ataatgagac gg                                                22





<210>  498

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  498

gtttggggct ttagcaggtt tat                                               23





<210>  499

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  499

tacggaagaa gagcaagttt t                                                 21





<210>  500

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  500

tagaaagagc gagagaacaa ag                                                22





<210>  501

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  501

tccatagctg ggcggaagag at                                                22





<210>  502

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  502

tcggcatgtg taggataggt g                                                 21





<210>  503

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  503

tgataggctg ggtgtggaag cg                                                22





<210>  504

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  504

tgatattatg gacgactggt t                                                 21





<210>  505

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  505

tgcaaacaga ctggggaggc ga                                                22





<210>  506

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  506

tggaagggcc atgccgagga g                                                 21





<210>  507

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  507

ttgagcgcag cgttgatgag c                                                 21





<210>  508

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  508

ttggataacg ggtagtttgg agt                                               23





<210>  509

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  509

tttggctgac aggataaggg ag                                                22





<210>  510

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  510

ttttcatagc tgggcggaag ag                                                22





<210>  511

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  511

aactttaaat aggtaggacg gcgc                                              24





<210>  512

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  512

agctgccgac tcattcaccc a                                                 21





<210>  513

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  513

ggaatgttgt ctggttcaag g                                                 21





<210>  514

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  514

tgtaatgttc gcggaaggcc ac                                                22





<210>  515

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  515

tgtacgatga tcaggaggag gt                                                22





<210>  516

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  516

tgtgttctca ggtcgccccc g                                                 21





<210>  517

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  517

tgttggcatg gctcaatcaa c                                                 21





<210>  518

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  518

actaaaaaga aacagaggga g                                                 21





<210>  519

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  519

cgctgacgcc gtgccacctc at                                                22





<210>  520

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  520

gaccggctcg acccttctgc                                                   20





<210>  521

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  521

gcctgggcct ctttagacct                                                   20





<210>  522

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  522

gtaggatgga tggagagggt tc                                                22





<210>  523

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  523

ctagccaagc atgatttgcc cg                                                22





<210>  524

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  524

tcaacgggct ggcggatgtg                                                   20





<210>  525

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  525

tggtaggatg gatggagagg gt                                                22





<210>  526

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  526

ggcaagtctg tccttggcta ca                                                22





<210>  527

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  527

gctagccagg gatgatttgc ctg                                               23





<210>  528

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  528

gcggcaaatc atccctgcta cc                                                22





<210>  529

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  529

ggcggaatct tgatgatgct gcat                                              24





<210>  530

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  530

tcattgagcg cagcgttgat g                                                 21





<210>  531

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  531

ggggcggact gggaacacat g                                                 21





<210>  532

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  532

gggcaacttc tcctttggca ga                                                22





<210>  533

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  533

tgccaaaggg gatttgcccg g                                                 21





<210>  534

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  534

ggcagaagag agagagtaca gcct                                              24





<210>  535

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  535

tggcttagat gaccatcagc aaaca                                             25





<210>  536

<211>  848

<212>  PRT

<213>  Sorghum bicolor



<400>  536



Met Ala Asp Phe Gly Gly Gly Asp Ser Glu Leu Glu Glu Gln Ser Asn 

1               5                   10                  15      





Glu Gly Tyr Gln Glu Pro Ala Phe Glu Ala Phe Met Cys Pro Leu Thr 

            20                  25                  30          





Lys Gln Val Met His Asp Pro Val Thr Ile Glu Thr Gly Gln Thr Phe 

        35                  40                  45              





Glu Arg Glu Ala Ile Leu Lys Trp Phe Arg Glu Cys Arg Asp Ser Gly 

    50                  55                  60                  





Arg Lys Pro Thr Cys Pro Leu Thr Gln Ala Glu Leu Arg Ser Thr Asp 

65                  70                  75                  80  





Ile Ser Pro Ser Ile Ala Leu Arg Asn Val Ile Asp Glu Trp Arg Ala 

                85                  90                  95      





Arg Asn Glu Asp Lys Glu Leu Asp Lys Ala Phe Ala Ser Leu Ser Leu 

            100                 105                 110         





Thr Thr Thr Gln His Ala Gln Asp Asp Ala Asp Thr Leu Arg Ala Leu 

        115                 120                 125             





Leu Tyr Val Ser Gln Met Cys His Arg Ser Ala Ala Lys Lys Thr Leu 

    130                 135                 140                 





Val Arg Arg Gln Gly Val Ile Pro Thr Ile Thr Asp Leu Leu Lys Ser 

145                 150                 155                 160 





Ser Ser Arg Arg Val Arg Leu Lys Ala Leu Glu Val Leu Arg Leu Ile 

                165                 170                 175     





Val Glu Asp Asn Asp Glu Asn Lys Glu Glu Leu Gly Lys Gly Asp Thr 

            180                 185                 190         





Ile Arg Thr Ile Ile Lys Phe Leu Ser Asn Glu Asn Phe Gln Glu Arg 

        195                 200                 205             





Glu Leu Ala Val Ser Leu Leu Tyr Glu Leu Ser Lys Leu Asp Pro Ile 

    210                 215                 220                 





Cys Glu Arg Ile Gly Ala Ile Tyr Gly Ala Ile Leu Leu Leu Val Gly 

225                 230                 235                 240 





Met Ala Ser Ser Lys Ser Glu Asn Gly Val Ala Val Glu Lys Ala Glu 

                245                 250                 255     





Asn Thr Leu Lys Asn Leu Asp Lys Tyr Glu Thr Asn Val Lys Gln Met 

            260                 265                 270         





Ala Glu Asn Gly Arg Leu Gln Pro Leu Leu Thr Lys Leu Ile Gln Gly 

        275                 280                 285             





Thr Pro Gln Val Gln Val Ala Met Ala Glu Tyr Leu Gly Glu Leu Ala 

    290                 295                 300                 





Leu Ala Asn Asp Val Lys Val Val Val Ala Glu Gln Val Gly Ala Leu 

305                 310                 315                 320 





Leu Val Ser Ile Leu Lys Thr Gly Ser Leu Pro Ala Arg Glu Ala Thr 

                325                 330                 335     





Leu Lys Ala Leu Arg Glu Ile Ser Ser Asn Glu Ser Ser Ala Lys Ile 

            340                 345                 350         





Leu Leu Gln Ala Gly Ile Leu Pro Pro Leu Val Lys Asp Leu Phe Ser 

        355                 360                 365             





Leu Gly Ala Gly His Leu Pro Met Arg Leu Lys Glu Val Ser Ala Ala 

    370                 375                 380                 





Ile Leu Ala Asn Leu Val Ala Ser Gly Ala Ser Phe Arg Ser Ile Pro 

385                 390                 395                 400 





Leu Asp Glu Ser Gly Glu Thr Leu Leu Ser Glu Glu Met Val His Ser 

                405                 410                 415     





Leu Leu His Leu Ile Ser Asn Thr Gly Pro Ala Ile Glu Cys Lys Leu 

            420                 425                 430         





Leu Asn Val Leu Val Gly Leu Thr Gly Ser Pro Ser Thr Val Ala Asp 

        435                 440                 445             





Val Val Ser Ala Ile Arg Ser Ser Gly Ala Thr Ile Ser Leu Ile Gln 

    450                 455                 460                 





Phe Val Glu Ala Ala His Arg Glu Ile Arg Val Glu Ser Leu Lys Leu 

465                 470                 475                 480 





Leu Arg Asn Val Ser Pro Tyr Met Gly Ala Glu Leu Ala Asp Ala Leu 

                485                 490                 495     





Gly Leu Gly Gly Ser Thr Gly His Leu Gly Ser Leu Leu Gly Val Ile 

            500                 505                 510         





Thr Val Thr Glu Asp His Arg Ser Gly Val Thr Glu Glu Gln Ala Ala 

        515                 520                 525             





Ala Val Ala Leu Leu Gly Asp Leu Pro Glu Arg Asp Trp Asn Leu Thr 

    530                 535                 540                 





Arg Gln Leu Gln Glu Leu Gly Ala Phe Arg Ala Leu Ala Thr Lys Leu 

545                 550                 555                 560 





Val Glu Leu Arg Arg Gly Thr Ile Arg Gly Asn Arg His Val Ala Pro 

                565                 570                 575     





Phe Thr Glu Gly Ala Val Lys Val Leu Tyr Arg Val Thr Cys Ala Leu 

            580                 585                 590         





Gln Leu Gln Leu Gln Glu Glu Glu Ala Ala Glu Val Tyr Val Glu Leu 

        595                 600                 605             





Ala Arg Glu Val Gly Leu Ala Pro Leu Phe Val Glu Leu Leu Gln Gln 

    610                 615                 620                 





Gln Met Ser Ser Gly Gln Asp Ala Val Leu Leu Tyr Ser Ala Met Ala 

625                 630                 635                 640 





Leu Glu Asn Leu Ser Leu Gln Ser Ala Arg Leu Thr Asp Val Pro Glu 

                645                 650                 655     





Pro Pro Pro Pro Pro Gly Ser Leu Leu Met Cys Gly Cys Phe Gly Gly 

            660                 665                 670         





Pro Arg His Arg His Gly His Gly Lys Gln Pro Gln Pro Gln Leu Pro 

        675                 680                 685             





Gly Ala Met Gly Thr Cys Arg Val His Gly Gly Phe Cys Ser Leu Arg 

    690                 695                 700                 





Glu Thr Phe Cys Leu Ala Glu Ser Gly Cys Lys Ala Val Glu Arg Leu 

705                 710                 715                 720 





Val Ala Cys Leu Glu His Ala Asp Asp Arg Val Val Glu Ala Ala Leu 

                725                 730                 735     





Ala Ala Leu Ser Thr Leu Val Gly Asp Gly Val Ala Asn Ala Thr Glu 

            740                 745                 750         





Gly Val Leu Val Val Gly Glu Ala Glu Gly Leu Arg Pro Val Val Glu 

        755                 760                 765             





Val Leu Val Glu Asn Arg Thr Glu Ala Leu Gln Arg Arg Ala Val Trp 

    770                 775                 780                 





Ala Val Glu Arg Ile Leu Arg Val Glu Asp Ile Ala Leu Glu Val Ala 

785                 790                 795                 800 





Ala Asp Gln Thr Val Ala Ser Ala Leu Val Glu Ala Tyr Arg Asn Gly 

                805                 810                 815     





Asp Val Arg Thr Arg Gln Thr Ala Glu Arg Ala Leu Arg His Leu Asp 

            820                 825                 830         





Arg Ile Pro Asn Phe Ser Ser Ala Phe His Gln Ala Lys Gly Arg Ala 

        835                 840                 845             





<210>  537

<211>  739

<212>  PRT

<213>  Sorghum bicolor



<400>  537



Met Ala Gly Ile Asp Leu Asn Asp Thr Val Glu Glu Asp Glu Glu Glu 

1               5                   10                  15      





Ala Glu Pro Gly Asn Pro Ala Cys Ser Gln Gln Ser Arg Thr Ser Ser 

            20                  25                  30          





Ala Ala Thr Pro Pro Pro Pro Pro Leu Thr Pro Leu Leu Gln Pro Arg 

        35                  40                  45              





Pro Gly Ala Ala Val Cys Leu Glu Leu Trp His Ala Cys Ala Gly Pro 

    50                  55                  60                  





Val Ala Pro Leu Pro Arg Lys Gly Thr Val Val Val Tyr Leu Pro Gln 

65                  70                  75                  80  





Gly His Leu Glu His Leu Gly Asp Ala Ala Ala Ala Ala Ala Gly Gly 

                85                  90                  95      





Ala Pro Ala Pro Ala Ala Leu Pro Pro His Val Phe Cys Arg Val Val 

            100                 105                 110         





Asp Val Thr Leu His Ala Asp Ala Ser Thr Asp Glu Val Tyr Ala Gln 

        115                 120                 125             





Leu Ala Leu Val Ala Glu Asn Glu Asp Val Ala Arg Arg Leu Arg Gly 

    130                 135                 140                 





Gly Ser Glu Asp Gly Ser Ala Gly Asp Gly Asp Asp Gly Glu Ala Val 

145                 150                 155                 160 





Lys Gln Arg Phe Ser Arg Met Pro His Met Phe Cys Lys Thr Leu Thr 

                165                 170                 175     





Ala Ser Asp Thr Ser Thr His Gly Gly Phe Ser Val Pro Arg Arg Ala 

            180                 185                 190         





Ala Glu Asp Cys Phe Pro Pro Leu Asp Tyr Ser Gln Gln Arg Pro Ser 

        195                 200                 205             





Gln Glu Leu Val Ala Lys Asp Leu His Gly Thr Glu Trp Arg Phe Arg 

    210                 215                 220                 





His Ile Tyr Arg Gly Gln Pro Arg Arg His Leu Leu Thr Thr Gly Trp 

225                 230                 235                 240 





Ser Ala Phe Val Asn Lys Lys Lys Leu Val Ser Gly Asp Ala Val Leu 

                245                 250                 255     





Phe Leu Arg Gly Asp Asp Gly Glu Leu Arg Leu Gly Val Arg Arg Ala 

            260                 265                 270         





Ala Gln Leu Lys Asn Gly Ser Ala Phe Pro Ala Leu Tyr Asn Gln Cys 

        275                 280                 285             





Ser Asn Leu Gly Ser Leu Ala Asn Val Ala His Ala Val Ala Thr Lys 

    290                 295                 300                 





Ser Val Phe His Ile Tyr Tyr Asn Pro Arg Leu Ser Gln Ser Glu Phe 

305                 310                 315                 320 





Ile Ile Pro Tyr Ser Lys Phe Met Lys Ser Phe Ser Gln Gln Phe Ser 

                325                 330                 335     





Ala Gly Leu Arg Phe Lys Met Arg Tyr Glu Ser Asp Asp Ala Ser Glu 

            340                 345                 350         





Arg Arg Cys Thr Gly Val Ile Ala Gly Ile Gly Asp Ala Asp Pro Met 

        355                 360                 365             





Trp Arg Gly Ser Lys Trp Lys Cys Leu Met Val Arg Trp Asp Asp Asp 

    370                 375                 380                 





Val Asp Phe Arg Arg Pro Asn Arg Ile Ser Pro Trp Glu Ile Glu Leu 

385                 390                 395                 400 





Thr Ser Ser Val Ser Gly Ser His Leu Ser Ala Pro Asn Ala Lys Arg 

                405                 410                 415     





Leu Lys Pro Cys Leu Pro Pro Asp Tyr Leu Val Pro Asn Gly Ser Gly 

            420                 425                 430         





Cys Pro Asp Phe Ala Glu Ser Ala Gln Phe His Lys Val Leu Gln Gly 

        435                 440                 445             





Gln Glu Leu Leu Gly Tyr Arg Thr Arg Asp Asn Ala Ala Val Ala Thr 

    450                 455                 460                 





Ser Gln Pro Cys Glu Ala Arg Asn Met Gln Tyr Ile Asp Glu Arg Ser 

465                 470                 475                 480 





Cys Ser Asn Asn Val Ser Asn Ser Ile Pro Gly Val Pro Arg Ile Gly 

                485                 490                 495     





Val Arg Thr Pro Leu Gly Asn Pro Arg Phe Ser Tyr His Cys Ser Gly 

            500                 505                 510         





Phe Gly Glu Ser Pro Arg Phe Gln Lys Val Leu Gln Gly Gln Glu Val 

        515                 520                 525             





Phe Gln Pro Tyr Arg Gly Thr Leu Val Asp Pro Ser Leu Arg Asn Ser 

    530                 535                 540                 





Gly Phe His Gln Gln Asp Gly Ser His Val Pro Thr Gln Ala Asn Lys 

545                 550                 555                 560 





Trp His Pro Gln Leu His Gly Cys Ala Phe Arg Gly Thr Gln Ala Pro 

                565                 570                 575     





Ala Ile Pro Ser Gln Ser Ser Ser Pro Pro Ser Val Leu Met Phe Gln 

            580                 585                 590         





Arg Asp Asn Pro Lys Met Ser Pro Phe Glu Phe Gly His Cys His Met 

        595                 600                 605             





Asp Lys Asn Glu Asp Met Arg Ala Met Phe Gly His Ala Gly Gly Ile 

    610                 615                 620                 





Gly Arg Thr Glu Gln Thr Met Met Leu Gln Ala His Asn Val Ser Gly 

625                 630                 635                 640 





Gly Met Gly Asn Arg Asp Val Thr Val Glu Lys Phe Gln Pro Thr Val 

                645                 650                 655     





Ala Val Gly Arg Asp Gly Ser Asp Asn Arg Glu Val Thr Lys Asn Ser 

            660                 665                 670         





Cys Lys Ile Phe Gly Ile Ser Leu Thr Glu Lys Val Pro Ala Ile Lys 

        675                 680                 685             





Glu Lys Asp Cys Gly Asp Thr Asn Tyr Pro Ser Pro Phe Leu Ser Leu 

    690                 695                 700                 





Lys Gln His Val Pro Lys Ser Leu Gly Asn Ser Cys Ala Thr Ile His 

705                 710                 715                 720 





Glu Gln Arg Pro Val Val Gly Arg Val Ile Asp Val Ser Thr Val Asp 

                725                 730                 735     





Met Met Ile 

            





<210>  538

<211>  702

<212>  PRT

<213>  Sorghum bicolor



<400>  538



Met Ala Gly Ile Asp Leu Asn Thr Val Glu Glu Glu Asp Glu Glu Glu 

1               5                   10                  15      





Ala Glu Ala Glu Ala Pro Pro Val Ala Ala Arg Ala Gly Gly Gly Ala 

            20                  25                  30          





Val Cys Leu Glu Leu Trp His Ala Cys Ala Gly Pro Val Ala Pro Leu 

        35                  40                  45              





Pro Arg Lys Gly Ser Ala Val Val Tyr Leu Pro Gln Gly His Leu Glu 

    50                  55                  60                  





His Ile Gly Gly Asp Ala Asp Ala Ala Gly Ala Ala Val Pro Pro His 

65                  70                  75                  80  





Val Leu Cys Arg Val Val Asp Val Thr Leu His Ala Asp Gly Ala Thr 

                85                  90                  95      





Asp Glu Val Tyr Ala Arg Val Ser Leu Leu Pro Glu Asp Glu Glu Ala 

            100                 105                 110         





Glu Arg Arg Ala Arg Ala Arg Val Arg Glu Asp Glu Asp Ala Asp Arg 

        115                 120                 125             





Asp Gly Glu Asp Gly Ala Ala Met Lys Pro Leu Ala Arg Thr Pro His 

    130                 135                 140                 





Met Phe Cys Lys Thr Leu Thr Ala Ser Asp Thr Ser Thr His Gly Gly 

145                 150                 155                 160 





Phe Ser Val Pro Arg Arg Ala Ala Glu Asp Cys Phe Pro Pro Leu Asp 

                165                 170                 175     





Tyr Ser Gln Gln Arg Pro Ser Gln Glu Leu Val Ala Lys Asp Leu His 

            180                 185                 190         





Gly Thr Glu Trp Lys Phe Arg His Ile Tyr Arg Gly Gln Pro Arg Arg 

        195                 200                 205             





His Leu Leu Thr Thr Gly Trp Ser Ala Phe Val Asn Lys Lys Lys Leu 

    210                 215                 220                 





Val Ser Gly Asp Ala Val Leu Phe Leu Arg Gly Glu Asp Gly Val Leu 

225                 230                 235                 240 





Arg Leu Gly Val Arg Arg Ala Ala Gln Leu Lys Ile Val Thr Pro Ile 

                245                 250                 255     





Pro Ala Leu His Asn Gln Cys Ser Ser Gln Thr Thr Leu Gly Asn Val 

            260                 265                 270         





Ala Gln Ala Val Ala Thr Arg Thr Val Phe His Ile Tyr Tyr Asn Pro 

        275                 280                 285             





Arg Leu Ser Gln Ser Glu Phe Ile Val Pro Tyr Trp Lys Phe Thr Arg 

    290                 295                 300                 





Ser Leu Asn Gln Pro Ile Ser Val Gly Met Arg Cys Arg Met Arg Tyr 

305                 310                 315                 320 





Glu Ser Asp Asp Ala Ser Glu Arg Arg Cys Thr Gly Ile Ile Ile Gly 

                325                 330                 335     





Ser Arg Glu Ala Glu Pro Ile Trp Tyr Gly Ser Lys Trp Lys Cys Leu 

            340                 345                 350         





Val Val Arg Trp Asp Asp Gly Ile Glu Cys His Trp Pro Asn Arg Val 

        355                 360                 365             





Ser Pro Trp Glu Ile Glu Val Thr Gly Ser Val Ser Gly Ser His Met 

    370                 375                 380                 





Cys Ala Pro Asn Ser Lys Arg Leu Lys Pro Cys Leu Pro Gln Val Asn 

385                 390                 395                 400 





Pro Glu Ile Val Leu Pro Asn Gly Ser Val Ser Ser Asp Phe Ala Gly 

                405                 410                 415     





Ser Val Arg Phe His Lys Val Leu Gln Gly Gln Glu Leu Leu Gly Leu 

            420                 425                 430         





Lys Thr His Asp Gly Thr Ala Ile Ser Ala Phe Gln Ala Thr Glu Ala 

        435                 440                 445             





Ser Asn Leu Gln Tyr Ser Asp Glu Arg Ser Asn Met Ser Asn Asn Ile 

    450                 455                 460                 





Leu Gly Ile Pro Arg Leu Gly Val Arg Ser Pro Asn Gly Ile Pro Gly 

465                 470                 475                 480 





Phe Pro Tyr His Cys Ser Gly Phe Gly Glu Ser Gln Arg Phe Gln Lys 

                485                 490                 495     





Val Leu Gln Gly Gln Glu Val Phe Arg Pro Phe Arg Gly Gly Cys Leu 

            500                 505                 510         





Ala Asp Gly His Ile Arg Thr Ala Gly Met Tyr Gln Pro Lys Trp Pro 

        515                 520                 525             





Ala Pro Gln Gly Cys Asp Phe Pro Gln Pro Ala Lys Pro Val Leu Val 

    530                 535                 540                 





Leu Gln Ala Ser Ser Pro Ser Ser Val Leu Met Phe Pro Gln Thr Gly 

545                 550                 555                 560 





Ser Lys Ile Thr Pro Leu Glu Tyr Glu Tyr Ser Cys Leu Asp Lys Asp 

                565                 570                 575     





Glu Asp Gly Arg Phe Asp Arg Thr Val Pro Thr Gln Asp Met Gly Arg 

            580                 585                 590         





Asn Asn Gln Thr Leu Ser Leu Trp Pro His Leu Val Ser Gly Glu Ala 

        595                 600                 605             





Ile Glu Glu Cys Thr Gly Thr Glu Asn Met His Ser Ser Val Ser Gly 

    610                 615                 620                 





Ala Glu His Glu Ser Asn Asn Glu Ser Thr Val Glu Asn Gly Cys Lys 

625                 630                 635                 640 





Ile Phe Gly Ile Ser Leu Ala Glu Lys Ile Arg Ser Cys Asp Glu Ala 

                645                 650                 655     





Asp Ser Cys Ser Ala Lys Arg Asn Ser Gly Leu Gln Pro Ser Arg Ser 

            660                 665                 670         





Gln Ile Leu Gly Ser Cys Trp Ala Thr Val His Glu His Arg Ser Val 

        675                 680                 685             





Val Gly Arg Val Val Asp Val Ser Ala Thr Asp Met Met Ile 

    690                 695                 700         





<210>  539

<211>  470

<212>  PRT

<213>  Zea mays



<400>  539



Met Ala Gly Thr Glu Val Glu Asp Pro Pro Ala Ala Ala Leu Glu Val 

1               5                   10                  15      





Pro Ala Lys Arg Gly Leu Leu Arg Tyr Asn Ser Pro Leu Ala Gln Val 

            20                  25                  30          





Ser Leu Leu Gly Leu Ile Cys Phe Cys Cys Pro Gly Met Phe Asn Ala 

        35                  40                  45              





Leu Ser Gly Leu Gly Gly Gly Gly Gln Val Asp Pro Thr Ile Ala Asp 

    50                  55                  60                  





Asn Ala Asn Thr Ala Leu Tyr Ala Cys Phe Ala Val Phe Gly Val Leu 

65                  70                  75                  80  





Gly Gly Ala Ala His Asn Leu Leu Gly Pro Arg Ala Thr Leu Leu Ala 

                85                  90                  95      





Gly Ala Leu Thr Tyr Pro Leu Tyr Ala Gly Ser Phe Leu Tyr Tyr Asn 

            100                 105                 110         





His Arg Pro Gly Ser Gln Val Phe Pro Val Thr Ala Gly Ala Leu Leu 

        115                 120                 125             





Gly Ala Gly Ala Gly Phe Leu Trp Ala Ala Gln Gly Ala Val Met Thr 

    130                 135                 140                 





Ser Tyr Pro Pro Pro Asn Arg Arg Gly Thr Tyr Ile Ser Leu Phe Trp 

145                 150                 155                 160 





Cys Leu Phe Asn Leu Gly Gly Val Leu Gly Gly Leu Leu Pro Phe Ala 

                165                 170                 175     





Leu Asn Tyr Asn Arg Gly Asp Lys Lys Gly Ser Val Ser Asp Gly Thr 

            180                 185                 190         





Tyr Ile Ala Phe Met Ala Phe Met Leu Val Gly Ala Ala Leu Thr Val 

        195                 200                 205             





Leu Val Leu Pro Pro Ala Arg Ile Val Arg Asp Asp Gly Thr Arg Ala 

    210                 215                 220                 





Thr Arg Val Thr Phe Ser Ser Pro Ala Thr Glu Gly Ala Glu Ile Leu 

225                 230                 235                 240 





Lys Leu Phe Ala Asn Trp Lys Met Leu Leu Ala Leu Pro Ala Ala Trp 

                245                 250                 255     





Ala Ser Asn Phe Phe Tyr Thr Tyr Gln Phe Asn Asn Val Asn Ser Gly 

            260                 265                 270         





Leu Phe Thr Leu Arg Thr Arg Gly Leu Asn Asn Val Phe Tyr Trp Gly 

        275                 280                 285             





Ala Gln Met Ile Gly Ser Ala Gly Ile Gly Tyr Phe Leu Asp Phe Gly 

    290                 295                 300                 





Phe Ala Ser Arg Arg Lys Arg Gly Leu Phe Gly Val Ala Ala Val Ala 

305                 310                 315                 320 





Ala Val Gly Thr Ala Ile Trp Gly Gly Gly Leu Ala Asn Gln Leu Ser 

                325                 330                 335     





Tyr Asn Ala Val Pro Val Pro Asp Pro Ile Asp Phe Lys Asp Gly His 

            340                 345                 350         





Arg Tyr Ala Gly Pro Phe Leu Leu Tyr Phe Ser Tyr Gly Leu Leu Asp 

        355                 360                 365             





Ala Met Phe Gln Ser Leu Ile Tyr Trp Ile Ile Gly Ala Leu Ala Asn 

    370                 375                 380                 





Asp Ser Gln Ile Leu Ser Arg Tyr Val Gly Phe Tyr Lys Gly Val Gln 

385                 390                 395                 400 





Ser Ala Gly Ala Ala Val Ala Trp Gln Val Asp Arg Arg His Thr Pro 

                405                 410                 415     





Leu Met Ser Gln Leu Ile Val Asn Trp Gly Leu Met Thr Ile Ser Tyr 

            420                 425                 430         





Pro Leu Leu Ala Leu Leu Val Phe Leu Ala Val Lys Asp Glu Ser Tyr 

        435                 440                 445             





Ser Val Ser Ser Val Glu Asp Gly Arg Glu Lys Asp Ser Lys Leu Ser 

    450                 455                 460                 





Ala Pro Thr Ser Phe His 

465                 470 





<210>  540

<211>  584

<212>  PRT

<213>  Zea mays



<400>  540



Met Ala Ile Ser Ser Ala Leu Pro Cys Ser Ser Leu Leu Met Ala Ala 

1               5                   10                  15      





Ala Gln Leu Lys Leu Leu Ala Ser Val Val Val Gln Val Gln Gly Ile 

            20                  25                  30          





Thr Arg His Tyr Asp Phe Asn Val Thr Met Ala Asn Val Thr Arg Leu 

        35                  40                  45              





Cys Ala Thr Lys Ser Ile Val Thr Val Asn Gly Gln Phe Pro Gly Pro 

    50                  55                  60                  





Lys Ile Val Ala Arg Glu Gly Asp Arg Leu Ile Ile Arg Val Thr Asn 

65                  70                  75                  80  





Gln Ala Gln His Asn Ile Ser Leu His Trp His Gly Ile Arg Gln Leu 

                85                  90                  95      





Arg Thr Gly Trp Ala Asp Gly Pro Ala Tyr Ile Thr Gln Cys Pro Ile 

            100                 105                 110         





Gln Thr Gly Gln Ser Tyr Val Tyr Asn Tyr Thr Val Ala Gly Gln Arg 

        115                 120                 125             





Gly Thr Leu Trp Trp His Ala His Ile Ser Trp Leu Arg Ala Thr Val 

    130                 135                 140                 





Tyr Gly Pro Leu Val Val Leu Pro Arg Pro Gly Val Pro Tyr Pro Phe 

145                 150                 155                 160 





Pro Ala Pro Tyr Lys Glu Val Pro Val Ile Phe Gly Glu Trp Trp Leu 

                165                 170                 175     





Ala Asp Thr Glu Val Val Val Glu Gln Ala Leu Gln Leu Gly Ala Gly 

            180                 185                 190         





Pro Asn Val Ser Asp Ala His Thr Ile Asn Gly Leu Pro Gly Pro Leu 

        195                 200                 205             





Tyr Asn Cys Ser Ala Lys Asp Thr Tyr Lys Leu Lys Val Lys Pro Gly 

    210                 215                 220                 





Lys Thr Tyr Met Leu Arg Leu Ile Asn Ala Ala Leu Asn Asp Glu Leu 

225                 230                 235                 240 





Phe Phe Ser Val Ala Asn His Ser Leu Thr Val Val Glu Val Asp Ala 

                245                 250                 255     





Val Tyr Val Lys Pro Phe Thr Val Asp Thr Leu Pro Ile Ala Pro Gly 

            260                 265                 270         





Gln Thr Thr Asn Val Leu Leu Ala Ala Lys Pro Phe Tyr Pro Gly Ala 

        275                 280                 285             





Asn Tyr Tyr Met Ser Ala Lys Pro Tyr Ser Thr Ala Arg Pro Ala Thr 

    290                 295                 300                 





Phe Asp Asn Thr Thr Val Ala Gly Ile Leu Glu Tyr Glu Tyr Pro Asp 

305                 310                 315                 320 





Ala Pro Ser Ser Ser Ala Ala Ser Phe Asp Lys Ala Leu Pro Leu His 

                325                 330                 335     





Arg Pro Thr Leu Pro Gln Leu Asn Asp Thr Ser Phe Val Gly Asn Phe 

            340                 345                 350         





Thr Ala Lys Leu Arg Ser Leu Ala Thr Pro Gln Tyr Pro Ala Ala Val 

        355                 360                 365             





Pro Arg Thr Val Asp Arg Ala Phe Phe Phe Thr Val Gly Leu Gly Thr 

    370                 375                 380                 





His Pro Cys Pro Gly Asn Ala Thr Cys Leu Gly Pro Thr Asn Thr Thr 

385                 390                 395                 400 





Gln Phe Ala Ala Ala Val Asn Asn Val Ser Phe Val Leu Pro Thr Arg 

                405                 410                 415     





Ala Leu Leu His Ser His Phe Ala Gly Leu Ser Ser Gly Val Tyr Ser 

            420                 425                 430         





Ser Asp Phe Pro Val Ala Pro Leu Thr Pro Phe Asn Tyr Thr Gly Thr 

        435                 440                 445             





Pro Pro Asn Asn Thr Asn Val Ala Ser Gly Thr Lys Leu Met Val Val 

    450                 455                 460                 





Pro Tyr Gly Ala Asn Val Glu Leu Val Leu Gln Gly Thr Ser Ile Leu 

465                 470                 475                 480 





Gly Val Glu Ser His Pro Leu His Leu His Gly Phe Asn Phe Phe Val 

                485                 490                 495     





Val Gly Gln Gly Tyr Gly Asn Tyr Asp Pro Val Asn Asp Pro Pro Lys 

            500                 505                 510         





Phe Asn Leu Val Asp Pro Val Glu Arg Asn Thr Val Gly Val Pro Ala 

        515                 520                 525             





Gly Gly Trp Val Ala Ile Arg Phe Leu Ala Asp Asn Pro Gly Val Trp 

    530                 535                 540                 





Phe Met His Cys His Leu Glu Val His Thr Thr Trp Gly Leu Arg Met 

545                 550                 555                 560 





Ala Trp Leu Val Leu Asp Gly Ser Leu Pro His Gln Lys Leu Leu Pro 

                565                 570                 575     





Pro Pro Ser Asp Leu Pro Lys Cys 

            580                 





<210>  541

<211>  587

<212>  PRT

<213>  Zea mays



<400>  541



Met Ala Ile Ser Ser Ala Leu Pro Cys Ser Ser Leu Leu Met Ala Ala 

1               5                   10                  15      





Ala Gln Leu Met Leu Leu Ala Ser Val Val Val Gln Val Gln Gly Ile 

            20                  25                  30          





Thr Arg His Tyr Asp Phe Asn Val Thr Met Ala Asn Val Thr Arg Leu 

        35                  40                  45              





Cys Ala Ser Lys Ser Ile Ile Thr Val Asn Gly Gln Phe Pro Gly Pro 

    50                  55                  60                  





Lys Ile Val Ala Arg Glu Gly Asp Arg Leu Val Ile Arg Val Thr Asn 

65                  70                  75                  80  





His Ala Gln His Asn Ile Ser Leu His Trp His Gly Ile Arg Gln Leu 

                85                  90                  95      





Arg Thr Gly Trp Ala Asp Gly Pro Ala Tyr Ile Thr Gln Cys Pro Ile 

            100                 105                 110         





Gln Thr Gly Gln Ser Tyr Val Tyr Asn Tyr Thr Val Val Gly Gln Arg 

        115                 120                 125             





Gly Thr Leu Trp Trp His Ala His Ile Ser Trp Leu Arg Ala Thr Val 

    130                 135                 140                 





Tyr Gly Pro Leu Val Ile Leu Pro Lys Leu Gly Val Pro Tyr Pro Phe 

145                 150                 155                 160 





Pro Ala Pro Tyr Lys Glu Val Pro Val Ile Phe Gly Glu Trp Trp Leu 

                165                 170                 175     





Ala Asp Thr Glu Val Val Ile Lys Gln Ala Leu Gln Leu Gly Ala Gly 

            180                 185                 190         





Pro Asn Val Ser Asp Ala His Thr Ile Asn Gly Leu Pro Gly Pro Leu 

        195                 200                 205             





Tyr Asn Cys Ser Ala Lys Asp Thr Tyr Lys Leu Lys Val Lys Pro Gly 

    210                 215                 220                 





Lys Thr Tyr Met Leu Arg Leu Ile Asn Ala Ala Leu Asn Asp Glu Leu 

225                 230                 235                 240 





Phe Phe Ser Val Ala Asn His Ser Leu Thr Val Val Glu Val Asp Ala 

                245                 250                 255     





Val Tyr Val Lys Pro Phe Thr Val Asp Thr Leu Leu Ile Ala Pro Gly 

            260                 265                 270         





Gln Thr Thr Asn Val Leu Leu Ala Ala Lys Pro Ser Tyr Pro Gly Ala 

        275                 280                 285             





Asn Tyr Tyr Met Ser Ala Ala Pro Tyr Ser Thr Ala Arg Pro Ala Thr 

    290                 295                 300                 





Phe Asp Asn Thr Thr Val Ala Gly Ile Leu Glu Tyr Glu Leu Tyr Pro 

305                 310                 315                 320 





Asp Ala Pro Arg Pro Ser Ala Ser Ala Gly Ser Phe Asn Glu Ala Leu 

                325                 330                 335     





Pro Leu Tyr Arg Pro Thr Leu Pro Gln Leu Asn Asp Thr Ser Phe Val 

            340                 345                 350         





Gly Asn Phe Thr Ala Lys Leu Arg Ser Leu Ala Thr Pro Arg Tyr Pro 

        355                 360                 365             





Ala Ala Val Pro Arg Thr Val Asp Arg Arg Phe Phe Phe Ala Val Gly 

    370                 375                 380                 





Leu Gly Thr His Pro Cys Pro Ala Asn Ala Thr Cys Gln Gly Pro Thr 

385                 390                 395                 400 





Asn Thr Thr Gln Phe Ala Ala Ser Val Asn Asn Val Ser Phe Val Leu 

                405                 410                 415     





Pro Thr Lys Ala Leu Leu His Ser His Phe Thr Gly Leu Ser Ser Gly 

            420                 425                 430         





Val Tyr Ser Pro Asp Phe Pro Val Ala Pro Leu Ala Pro Phe Asn Tyr 

        435                 440                 445             





Thr Gly Thr Pro Pro Asn Asn Thr Asn Val Ala Ser Gly Thr Lys Leu 

    450                 455                 460                 





Met Val Val Pro Tyr Gly Ala Asn Val Glu Leu Val Met Gln Gly Thr 

465                 470                 475                 480 





Ser Ile Leu Gly Val Glu Ser His Pro Leu His Leu His Gly Phe Asn 

                485                 490                 495     





Phe Phe Val Val Gly Gln Gly Tyr Gly Asn Tyr Asp Pro Val Asn Asp 

            500                 505                 510         





Pro Ser Lys Phe Asn Leu Val Asp Pro Val Glu Arg Asn Thr Val Gly 

        515                 520                 525             





Val Pro Ala Gly Gly Trp Val Ala Ile Arg Phe Leu Ala Asp Asn Pro 

    530                 535                 540                 





Gly Val Trp Phe Met His Cys His Leu Glu Ala His Thr Thr Trp Gly 

545                 550                 555                 560 





Leu Arg Met Ala Trp Leu Val Leu Asp Gly Ser Leu Pro His Gln Lys 

                565                 570                 575     





Leu Leu Pro Pro Pro Ser Asp Leu Pro Lys Cys 

            580                 585         





<210>  542

<211>  87

<212>  PRT

<213>  Zea mays



<400>  542



Met Ala Thr Ala Phe Val Pro Ser Val Ser Ala Met Ala Thr Ala Ala 

1               5                   10                  15      





Ala Ala Pro Thr Ser Val Ala Pro Ser Pro Ala Pro Lys Ala Asn Asn 

            20                  25                  30          





Ser Arg Lys Ala Ala Val Pro Gly Met Thr Gly Tyr Glu Leu Leu Lys 

        35                  40                  45              





Arg Val Lys Glu Ser Ala Ala Leu Ser Asp Ile Leu Val Val Ile Met 

    50                  55                  60                  





Ser Ser Glu Asn Val Pro Asn Arg Ile Thr Arg Cys Leu Glu Glu Leu 

65                  70                  75                  80  





Asp Pro Arg Leu Ala Val Ile 

                85          





<210>  543

<211>  383

<212>  PRT

<213>  Zea mays



<400>  543



Met Ala Thr Gly Gly Gly Gly Gly Ser Asp Asp Phe His Gly Leu Thr 

1               5                   10                  15      





Phe Gly Gln Lys Ile Tyr Phe Glu Gln Asp Ala Gly Ala Ala Gly Gly 

            20                  25                  30          





Ser Ala Thr Gly Gly Arg Lys Gly Lys Gly Ala Ala Ala Ser Ala Ser 

        35                  40                  45              





Ala Ala Gln Pro Pro Arg Cys Arg Val Asp Gly Cys Gly Val Asp Leu 

    50                  55                  60                  





Ser Ala Val Lys Gln Tyr Tyr Cys Arg His Lys Val Cys Tyr Met His 

65                  70                  75                  80  





Ser Lys Glu Pro Arg Val Phe Val Ala Gly Ile Glu Gln Arg Phe Cys 

                85                  90                  95      





Gln Gln Cys Ser Arg Phe His Gln Leu Pro Glu Phe Asp Gln Gly Lys 

            100                 105                 110         





Arg Ser Cys Arg Arg Arg Leu Ile Gly His Asn Glu Arg Arg Arg Lys 

        115                 120                 125             





Pro Pro Pro Gly Pro Leu Thr Ser Arg Tyr Gly Pro Leu Ala Ala Ser 

    130                 135                 140                 





Leu Val Gln Glu Pro Gly Arg Phe Arg Ser Phe Leu Leu Asp Phe Ser 

145                 150                 155                 160 





Tyr Pro Arg Val Pro Ser Ser Val Arg Asp Asp Ala Trp Gln Trp Gln 

                165                 170                 175     





Gly Met Gln His Gly Gly Asp Arg Met Leu Leu Gly Thr Ala Ser Ala 

            180                 185                 190         





Ile Gln Trp His Gly Asn Gln Glu Pro His Pro Pro His Arg Ser Ala 

        195                 200                 205             





Ala Ala Gly Tyr Gly Asn His Ala Tyr Asn Asn Cys His Gly Gly Gly 

    210                 215                 220                 





Gly Leu Val Ala Ala Ala Ala Gly Ala Ser Met Leu Ser Ser Ala Phe 

225                 230                 235                 240 





Glu Pro Pro Pro Gly Gly Gly Gly Cys Val Ala Gly Ala Thr Ala Ala 

                245                 250                 255     





Asp Ser Ser Cys Ala Leu Ser Leu Leu Ser Thr Gln Pro Trp Asp Thr 

            260                 265                 270         





Pro Thr Gln Ser Gly Ser Ser His His Asn Arg Ser Pro Ala Met Ser 

        275                 280                 285             





Ala Ala Ala Gly Ala Phe Glu Val Ala Pro Ser Ser Val Val Ala Ser 

    290                 295                 300                 





Ser Tyr Thr Ala Ser Ser Ser Trp Ser Gly Ser Arg Asp Pro Ala Asp 

305                 310                 315                 320 





Gly Ala Arg Lys Asn Ala Gln Arg His Asp Asp Gly Leu His Leu Val 

                325                 330                 335     





His Pro Pro Gly Pro Val His His Gly His Phe Ser Gly Glu Leu Glu 

            340                 345                 350         





Leu Ala Leu Gln Gly Ser Gly Pro Pro His Val Asp His Gly Gly Gly 

        355                 360                 365             





Thr Cys Phe Ser His Ser Asp Thr Asn Ala Met Asn Trp Ser Leu 

    370                 375                 380             





<210>  544

<211>  378

<212>  PRT

<213>  Zea mays



<400>  544



Met Ala Thr Gly Gly Gly Ser Ser Arg Ser Asp Asp Val Arg Gly Leu 

1               5                   10                  15      





Lys Phe Gly Lys Lys Ile Tyr Phe Glu Gln Asp Gly Gly Ser Gly Ser 

            20                  25                  30          





Gly Ala Gly Ala Val Gly Gly Arg Lys Gly Lys Gly Val Ala Thr Gly 

        35                  40                  45              





Gly Ala Arg Pro Ala Ser Ala Ala Ser Ala Ala Gln Pro Pro Arg Cys 

    50                  55                  60                  





Gln Val Asp Gly Cys Gly Val Asp Leu Ser Ala Val Lys Gln Tyr Tyr 

65                  70                  75                  80  





Cys Arg His Lys Val Cys Asn Met His Ser Lys Glu Pro Arg Val Phe 

                85                  90                  95      





Val Ala Gly Ile Glu Gln Arg Phe Cys Gln Gln Cys Ser Arg Phe His 

            100                 105                 110         





Gln Leu His Glu Phe Asp Gln Gly Lys Arg Ser Cys Arg Arg Arg Leu 

        115                 120                 125             





Ile Gly His Asn Glu Arg Arg Arg Lys Pro Pro Pro Gly Pro Leu Thr 

    130                 135                 140                 





Ser Arg Tyr Gly Arg Leu Ala Ala Ser Leu Gln Glu Pro Gly Arg Phe 

145                 150                 155                 160 





Arg Ser Phe Leu Leu Asp Phe Ser Tyr Pro Arg Val Pro Ser Ser Val 

                165                 170                 175     





Arg Asp Ala Trp Pro Gly Ile Gln His Gly Gly Asp Arg Met Leu Gly 

            180                 185                 190         





Thr Val Gln Trp His Gly His Gln Glu Pro Pro His Pro His Arg Ser 

        195                 200                 205             





Ala Ala Ala Gly Tyr Gly Asn His Ala Ala Tyr Asn Cys His Gly Gly 

    210                 215                 220                 





Leu Val Ala Gly Gly Ala Pro Met Leu Ser Ser Ala Ala Phe Glu Leu 

225                 230                 235                 240 





Pro Pro Gly Gly Cys Val Ala Gly Val Ala Ala Asp Ser Ser Cys Ala 

                245                 250                 255     





Leu Ser Leu Leu Ser Thr Gln Pro Trp Asp Thr Thr Ser His Asp His 

            260                 265                 270         





Arg Ser Pro Ala Met Pro Ala Ala Gly Ala Phe Asp Gly Thr Pro Val 

        275                 280                 285             





Ala Pro Ser Val Met Ala Ser Ser Tyr Ala Ala Ser Ser Ala Trp Thr 

    290                 295                 300                 





Gly Ser Arg Asp Pro Ala Ala Asp Gly Ala Arg Asn Ala Gln Arg Leu 

305                 310                 315                 320 





Asp Asp Ala Leu His Leu Val His Pro Gly Ser Ala Ala Val His Phe 

                325                 330                 335     





Ser Gly Glu Leu Glu Leu Ala Leu Gln Gly Ser Gly Gly Pro Pro His 

            340                 345                 350         





Leu Pro Arg Val Asp His Gly Gly Ser Gly Gly Gly Thr Phe Asn His 

        355                 360                 365             





Ser Thr Thr Ser Ala Met Asn Trp Ser Leu 

    370                 375             





<210>  545

<211>  489

<212>  PRT

<213>  Zea mays



<400>  545



Met Ala Thr Gln Ala Ala Phe Leu Ala Gly Phe Ser Gln Leu Ala Ala 

1               5                   10                  15      





Gln Pro Gly Arg Asp Arg Ala Val Ala Val Ala Val Ala Pro Ala Pro 

            20                  25                  30          





Gly Pro Ala Arg Val Ala Val Ala Ala Val Gly Ser Ala Lys Leu Gly 

        35                  40                  45              





Val Lys Ala Gly Thr Ser Arg Thr Ala Ala Val Ala Arg Leu Gly Val 

    50                  55                  60                  





Arg Cys Arg Ala Ser Leu Ile Glu Pro Asp Gly Gly Arg Leu Val Asp 

65                  70                  75                  80  





Leu Val Ala Pro Glu Glu Gly Gly Arg Arg Ala Ala Leu Arg Arg Glu 

                85                  90                  95      





Ala Ala Glu Leu Pro His Arg Leu Arg Leu Gly Arg Val Asp Lys Glu 

            100                 105                 110         





Trp Val His Val Leu Ser Glu Gly Trp Ala Ser Pro Leu Gln Gly Phe 

        115                 120                 125             





Met Arg Glu His Glu Phe Leu Gln Ala Leu His Phe Asn Ala Ile Arg 

    130                 135                 140                 





Gly Gln Asp Gly Arg Met Val Asn Met Ser Val Pro Ile Val Leu Ser 

145                 150                 155                 160 





Val Gly Asp Ala Gln Arg Arg Ala Ile Gln Ala Asp Gly Ala Thr Arg 

                165                 170                 175     





Val Ala Leu Val Asp Glu Arg Asp Arg Pro Ile Ala Val Leu Ser Asp 

            180                 185                 190         





Ile Glu Ile Tyr Lys His Asn Lys Glu Glu Arg Val Ala Arg Thr Trp 

        195                 200                 205             





Gly Thr Thr Ala Pro Gly Leu Pro Tyr Val Glu Glu Ala Ile Thr Asn 

    210                 215                 220                 





Ala Gly Asp Trp Leu Val Gly Gly Asp Leu Glu Val Ile Glu Pro Ile 

225                 230                 235                 240 





Lys Tyr Asn Asp Gly Leu Asp Gln Tyr Arg Leu Ser Pro Ala Gln Leu 

                245                 250                 255     





Arg Glu Glu Phe Ala Arg Arg Asn Ala Asp Ala Val Phe Ala Phe Gln 

            260                 265                 270         





Leu Arg Asn Pro Val His Asn Gly His Ala Leu Leu Met Thr Asp Thr 

        275                 280                 285             





Arg Lys Arg Leu Leu Glu Met Gly Tyr Lys Asn Pro Val Leu Leu Leu 

    290                 295                 300                 





His Pro Leu Gly Gly Phe Thr Lys Ala Asp Asp Val Pro Leu Ser Trp 

305                 310                 315                 320 





Arg Met Lys Gln His Glu Lys Val Leu Glu Glu Gly Val Leu Asn Pro 

                325                 330                 335     





Glu Ser Thr Val Val Ala Ile Phe Pro Ser Pro Met His Tyr Ala Gly 

            340                 345                 350         





Pro Thr Glu Val Gln Trp His Ala Lys Ala Arg Ile Asn Ala Gly Ala 

        355                 360                 365             





Asn Phe Tyr Ile Val Gly Arg Asp Pro Ala Gly Met Ser His Pro Thr 

    370                 375                 380                 





Glu Lys Arg Asp Leu Tyr Asp Ala Asp His Gly Lys Lys Val Leu Ser 

385                 390                 395                 400 





Met Ala Pro Gly Leu Glu Arg Leu Asn Ile Leu Pro Phe Lys Val Ala 

                405                 410                 415     





Ala Tyr Asp Thr Lys Gln Lys Lys Met Asp Phe Phe Asp Pro Ser Arg 

            420                 425                 430         





Lys Asp Asp Phe Leu Phe Ile Ser Gly Thr Lys Met Arg Thr Leu Ala 

        435                 440                 445             





Lys Asn Arg Glu Ser Pro Pro Asp Gly Phe Met Cys Pro Gly Gly Trp 

    450                 455                 460                 





Lys Val Leu Val Glu Tyr Tyr Asp Ser Leu Val Pro Ser Glu Gly Ser 

465                 470                 475                 480 





Ser Lys Leu Arg Glu Pro Val Ala Ala 

                485                 





<210>  546

<211>  489

<212>  PRT

<213>  Zea mays



<400>  546



Met Ala Thr Gln Ala Ala Phe Leu Ala Gly Phe Ser Gln Leu Ala Ala 

1               5                   10                  15      





Gln Pro Gly Arg Asp Arg Ala Val Ala Val Ala Val Ala Pro Ala Pro 

            20                  25                  30          





Gly Pro Ala Arg Val Ala Val Ala Ala Val Gly Ser Ala Lys Leu Gly 

        35                  40                  45              





Val Lys Ala Gly Thr Ser Arg Thr Ala Ala Val Ala Arg Leu Gly Val 

    50                  55                  60                  





Arg Cys Arg Ala Ser Leu Ile Glu Pro Asp Gly Gly Arg Leu Val Asp 

65                  70                  75                  80  





Leu Val Ala Pro Glu Glu Gly Gly Arg Arg Ala Ala Leu Arg Arg Glu 

                85                  90                  95      





Ala Ala Glu Leu Pro His Arg Leu Arg Leu Gly Arg Val Asp Lys Glu 

            100                 105                 110         





Trp Val His Val Leu Ser Glu Gly Trp Ala Ser Pro Leu Gln Gly Phe 

        115                 120                 125             





Met Arg Glu His Glu Phe Leu Gln Ala Leu His Phe Asn Ala Ile Arg 

    130                 135                 140                 





Gly Gln Asp Gly Arg Met Val Asn Met Ser Val Pro Ile Val Leu Ser 

145                 150                 155                 160 





Val Gly Asp Ala Gln Arg Arg Ala Ile Gln Ala Asp Gly Ala Thr Arg 

                165                 170                 175     





Val Ala Leu Val Asp Glu Arg Asp Arg Pro Ile Ala Val Leu Ser Asp 

            180                 185                 190         





Ile Glu Ile Tyr Lys His Asn Lys Glu Glu Arg Val Ala Arg Thr Trp 

        195                 200                 205             





Gly Thr Thr Ala Pro Gly Leu Pro Tyr Val Glu Glu Ala Ile Thr Asn 

    210                 215                 220                 





Ala Gly Asp Trp Leu Val Gly Gly Asp Leu Glu Val Ile Glu Pro Ile 

225                 230                 235                 240 





Lys Tyr Asn Asp Gly Leu Asp Gln Tyr Arg Leu Ser Pro Ala Gln Leu 

                245                 250                 255     





Arg Glu Glu Phe Ala Arg Arg Asn Ala Asp Ala Val Phe Ala Phe Gln 

            260                 265                 270         





Leu Arg Asn Pro Val His Asn Gly His Ala Leu Leu Met Thr Asp Thr 

        275                 280                 285             





Arg Lys Arg Leu Leu Glu Met Gly Tyr Lys Asn Pro Val Leu Leu Leu 

    290                 295                 300                 





His Pro Leu Gly Gly Phe Thr Lys Ala Asp Asp Val Pro Leu Ser Trp 

305                 310                 315                 320 





Arg Met Lys Gln His Glu Lys Val Leu Glu Glu Gly Val Leu Asn Pro 

                325                 330                 335     





Glu Ser Thr Val Val Ala Ile Phe Pro Ser Pro Met His Tyr Ala Gly 

            340                 345                 350         





Pro Thr Glu Val Gln Trp His Ala Lys Ala Arg Ile Asn Ala Gly Ala 

        355                 360                 365             





Asn Phe Tyr Ile Val Gly Arg Asp Pro Ala Gly Met Ser His Pro Thr 

    370                 375                 380                 





Glu Lys Arg Asp Leu Tyr Asp Ala Asp His Gly Lys Lys Val Leu Ser 

385                 390                 395                 400 





Met Ala Pro Gly Leu Glu Arg Leu Asn Ile Leu Pro Phe Lys Val Ala 

                405                 410                 415     





Ala Tyr Asp Thr Lys Gln Lys Lys Met Asp Phe Phe Asp Pro Ser Arg 

            420                 425                 430         





Lys Asp Asp Phe Leu Phe Ile Ser Gly Thr Lys Met Arg Thr Leu Ala 

        435                 440                 445             





Lys Asn Arg Glu Ser Pro Pro Asp Gly Phe Met Cys Pro Gly Gly Trp 

    450                 455                 460                 





Lys Val Leu Val Glu Tyr Tyr Asp Ser Leu Val Pro Ser Glu Gly Ser 

465                 470                 475                 480 





Ser Lys Leu Arg Glu Pro Val Ala Ala 

                485                 





<210>  547

<211>  720

<212>  PRT

<213>  Sorghum bicolor



<400>  547



Met Ala Thr Ser Ala Leu Asp Ser Leu Pro Ala Pro Leu Arg Ser Leu 

1               5                   10                  15      





Arg Leu Lys Thr Lys Gln Gln Glu Leu Leu Leu Arg Val Ser Ala Leu 

            20                  25                  30          





Ala Leu Ile Tyr Val Leu Ala Phe Ala Val Arg Leu Phe Ser Val Leu 

        35                  40                  45              





Arg Tyr Glu Ser Met Ile His Glu Phe Asp Pro Tyr Phe Asn Tyr Arg 

    50                  55                  60                  





Thr Thr Leu Phe Leu Thr Glu Asn Gly Phe Ser Glu Phe Trp Asn Trp 

65                  70                  75                  80  





Phe Asp Ser Glu Ser Trp Tyr Pro Leu Gly Arg Val Val Gly Gly Thr 

                85                  90                  95      





Leu Phe Pro Gly Leu Met Val Thr Ala Ala Leu Leu His Arg Leu Leu 

            100                 105                 110         





Arg Ala Leu Ser Leu Ala Val His Ile Arg Glu Val Cys Val Leu Thr 

        115                 120                 125             





Ala Pro Phe Phe Ala Ala Asn Thr Thr Leu Val Ala Tyr Ala Phe Gly 

    130                 135                 140                 





Arg Glu Ile Trp Asp Ser Gly Ala Gly Leu Val Ala Ala Ala Leu Ile 

145                 150                 155                 160 





Ala Ile Val Pro Gly Tyr Ile Ser Arg Ser Val Ala Gly Ser Tyr Asp 

                165                 170                 175     





Asn Glu Gly Val Ala Ile Phe Ala Leu Leu Leu Thr Phe Tyr Leu Phe 

            180                 185                 190         





Val Arg Ala Val Asn Thr Gly Ser Leu Ala Trp Ala Leu Ala Ser Ala 

        195                 200                 205             





Phe Gly Tyr Phe Tyr Met Val Ser Ala Trp Gly Gly Tyr Val Phe Ile 

    210                 215                 220                 





Ile Asn Leu Ile Pro Leu Tyr Val Leu Val Leu Leu Val Thr Gly Arg 

225                 230                 235                 240 





Tyr Ser Gln Arg Leu Tyr Val Ala Tyr Asn Cys Met Tyr Val Leu Gly 

                245                 250                 255     





Met Leu Leu Ala Met Gln Ile Arg Phe Val Gly Phe Gln His Val Gln 

            260                 265                 270         





Ser Gly Glu His Met Ala Ala Met Gly Val Phe Phe Leu Leu Gln Val 

        275                 280                 285             





Phe Phe Phe Leu Asp Trp Val Lys Tyr Leu Leu Asn Asp Ala Arg Leu 

    290                 295                 300                 





Phe Lys Ser Phe Leu Arg Thr Thr Leu Thr Cys Val Ile Thr Val Gly 

305                 310                 315                 320 





Thr Leu Ala Leu Gly Ile Gly Thr Ala Ser Gly Tyr Ile Ser Pro Trp 

                325                 330                 335     





Thr Gly Arg Phe Tyr Ser Leu Leu Asp Pro Thr Tyr Ala Lys Asp His 

            340                 345                 350         





Ile Pro Ile Ile Ala Ser Val Ser Glu His Gln Pro Thr Ala Trp Ser 

        355                 360                 365             





Ser Phe Met Phe Asp Phe His Ile Leu Leu Phe Leu Phe Pro Ala Gly 

    370                 375                 380                 





Leu Tyr Phe Cys Phe Lys Arg Leu Ser Asp Ala Thr Ile Phe Ile Val 

385                 390                 395                 400 





Met Tyr Gly Leu Thr Ser Met Tyr Phe Ala Gly Val Met Val Arg Leu 

                405                 410                 415     





Ile Leu Val Ala Ala Pro Ala Val Cys Leu Ile Ser Ala Ile Ala Ala 

            420                 425                 430         





Ser Ala Thr Ile Lys Asn Leu Thr Thr Leu Ile Arg Ala Lys Ser Arg 

        435                 440                 445             





Ser Pro Gln Thr Thr Ser Gly Lys Thr Thr Gly Ser Lys Ala Ala Ala 

    450                 455                 460                 





Lys Gly Ala Val Asp Gln Ser Leu Pro Phe Gln His Asn Ala Ala Ile 

465                 470                 475                 480 





Ala Leu Leu Leu Gly Ala Phe Tyr Leu Leu Ser Arg Tyr Ala Ile His 

                485                 490                 495     





Cys Thr Trp Val Thr Ser Glu Ala Tyr Ser Ser Pro Ser Ile Val Leu 

            500                 505                 510         





Ala Ala Arg Gly His Asn Gly Gly Arg Val Ile Phe Asp Asp Tyr Arg 

        515                 520                 525             





Glu Ala Tyr Tyr Trp Leu Arg Gln Asn Thr Pro Pro Asp Ala Lys Ile 

    530                 535                 540                 





Met Ser Trp Trp Asp Tyr Gly Tyr Gln Ile Thr Ala Met Gly Asn Arg 

545                 550                 555                 560 





Thr Val Ile Val Asp Asn Asn Thr Trp Asn Asn Thr His Ile Ala Thr 

                565                 570                 575     





Val Gly Arg Ala Met Ser Ser Tyr Glu Asp Glu Ala Tyr Glu Ile Met 

            580                 585                 590         





Gln Ser Leu Asp Val Asn Tyr Val Leu Val Val Phe Gly Gly Val Thr 

        595                 600                 605             





Gly Tyr Ser Ser Asp Asp Ile Asn Lys Phe Leu Trp Met Val Arg Ile 

    610                 615                 620                 





Gly Gly Gly Val Phe Pro Val Ile Lys Glu Pro Asp Tyr Leu Val Asn 

625                 630                 635                 640 





Gly Glu Tyr Arg Ile Asp Lys Gly Ala Ala Pro Lys Met Leu Asn Cys 

                645                 650                 655     





Leu Met Tyr Lys Leu Cys Tyr Tyr Arg Phe Gly Glu Leu Thr Thr Glu 

            660                 665                 670         





Tyr Gly Lys Pro Pro Gly Tyr Asp Arg Val Arg Gly Val Glu Ile Gly 

        675                 680                 685             





Asn Lys Asp Ile Lys Leu Glu Tyr Leu Glu Glu Ala Phe Thr Thr Ser 

    690                 695                 700                 





Asn Trp Ile Val Arg Ile Tyr Lys Val Lys Pro Pro Lys Asn Arg Ser 

705                 710                 715                 720 





<210>  548

<211>  579

<212>  PRT

<213>  Sorghum bicolor



<400>  548



Met Ala Thr Ser Tyr Leu Leu Pro Cys Tyr Val Leu Ile Thr Val Leu 

1               5                   10                  15      





Val Leu Phe Phe Ser Val Asp Val Thr Glu Gly Ala Ile Arg Glu Tyr 

            20                  25                  30          





Gln Phe Asp Val Gln Met Thr Asn Val Thr Arg Leu Cys Ser Ser Lys 

        35                  40                  45              





Ser Ile Val Thr Val Asn Gly Gln Phe Pro Gly Pro Pro Val Phe Ala 

    50                  55                  60                  





Arg Glu Gly Asp Phe Val Val Ile Arg Val Val Asn His Val Pro Tyr 

65                  70                  75                  80  





Asn Met Ser Ile His Trp His Gly Val Arg Gln Leu Arg Ser Gly Trp 

                85                  90                  95      





Ala Asp Gly Pro Ala Tyr Ile Thr Gln Cys Pro Ile Gln Ser Gly Gln 

            100                 105                 110         





Ser Tyr Val Tyr Lys Phe Thr Ile Thr Gly Gln Arg Gly Thr Leu Trp 

        115                 120                 125             





Trp His Ala His Ile Ser Trp Leu Arg Ala Thr Val Tyr Gly Ala Ile 

    130                 135                 140                 





Val Ile Leu Pro Lys Pro Gly Val Pro Tyr Pro Phe Pro Ala Pro Tyr 

145                 150                 155                 160 





Lys Glu Val Pro Val Ile Phe Gly Glu Trp Trp Thr Ala Asp Thr Glu 

                165                 170                 175     





Ala Val Ile Ser Gln Ala Leu Gln Thr Gly Gly Gly Pro Asn Val Ser 

            180                 185                 190         





Asp Ala Phe Thr Ile Asn Gly Leu Pro Gly Pro Leu Tyr Asn Cys Ser 

        195                 200                 205             





Ala Lys Asp Thr Phe Lys Leu Lys Val Lys Pro Gly Lys Thr Tyr Met 

    210                 215                 220                 





Leu Arg Ile Ile Asn Ala Ala Leu Asn Asp Glu Leu Phe Phe Ser Ile 

225                 230                 235                 240 





Ala Gly His Pro Leu Thr Val Val Asp Val Asp Ala Val Tyr Ile Lys 

                245                 250                 255     





Pro Ile Thr Val Asp Thr Ile Leu Ile Thr Pro Gly Gln Thr Thr Asn 

            260                 265                 270         





Val Leu Leu Thr Thr Lys Pro Ser Tyr Pro Gly Ala Thr Tyr Tyr Met 

        275                 280                 285             





Leu Ala Ala Pro Tyr Ser Thr Ala Arg Pro Gly Thr Phe Asp Asn Thr 

    290                 295                 300                 





Thr Val Ala Gly Ile Leu Glu Tyr Glu Asp Pro Thr Ser Pro Pro Pro 

305                 310                 315                 320 





His Ala Ala Phe Asn Lys Asn Leu Pro Ala Leu Lys Pro Thr Leu Pro 

                325                 330                 335     





Gln Ile Asn Asp Thr Ser Phe Val Ala Asn Tyr Thr Ala Lys Leu Arg 

            340                 345                 350         





Ser Leu Ala Thr Ala Glu Tyr Pro Ala Ala Val Pro Gln Glu Val Asp 

        355                 360                 365             





Arg Arg Phe Phe Phe Thr Val Gly Leu Gly Thr His Pro Cys Ala Val 

    370                 375                 380                 





Asn Gly Thr Cys Gln Gly Pro Thr Asn Ser Ser Arg Phe Ala Ala Ser 

385                 390                 395                 400 





Val Asn Asn Val Ser Phe Val Leu Pro Thr Thr Ala Leu Leu Gln Ser 

                405                 410                 415     





His Phe Ala Gly Lys Ser Lys Gly Val Tyr Ser Ser Asn Phe Pro Ala 

            420                 425                 430         





Ala Pro Leu Val Pro Phe Asn Tyr Thr Gly Thr Pro Pro Asn Asn Thr 

        435                 440                 445             





Asn Val Ala Asn Gly Thr Lys Leu Val Val Leu Pro Tyr Gly Ala Ser 

    450                 455                 460                 





Val Glu Leu Val Leu Gln Gly Thr Ser Ile Leu Gly Ala Glu Ser His 

465                 470                 475                 480 





Pro Leu His Leu His Gly Phe Asn Phe Phe Val Val Gly Gln Gly Phe 

                485                 490                 495     





Gly Asn Phe Asp Pro Ala Lys Asp Pro Ala Lys Tyr Asn Leu Val Asp 

            500                 505                 510         





Pro Val Glu Arg Asn Thr Val Gly Val Pro Ala Ala Gly Trp Val Ala 

        515                 520                 525             





Ile Arg Phe Arg Ala Asp Asn Pro Gly Val Trp Phe Met His Cys His 

    530                 535                 540                 





Leu Glu Val His Val Ser Trp Gly Leu Lys Met Ala Trp Leu Val Leu 

545                 550                 555                 560 





Asp Gly Asp Arg Pro Asn Glu Lys Leu Leu Pro Pro Pro Ser Asp Leu 

                565                 570                 575     





Pro Arg Cys 

            





<210>  549

<211>  220

<212>  PRT

<213>  Zea mays



<400>  549



Met Cys Ala Arg Ser Ile Ala Leu Ala Ser Leu Gly Leu Arg Val Pro 

1               5                   10                  15      





Ala Ser Gly Ser Ser Pro Ser Ser Ser Ala Pro Ile His Ala Ala Ser 

            20                  25                  30          





Pro Ser Leu Ser Ser Pro Ser Arg Asp Pro Arg Arg Glu Ala Ser Met 

        35                  40                  45              





Trp Pro Arg Val Leu Pro Leu Leu Leu Pro Arg Gly Ala Gln Pro Cys 

    50                  55                  60                  





Arg Ala Ser Leu Pro Trp Leu Phe His Ser Pro Ala Leu Pro His Arg 

65                  70                  75                  80  





Arg Ser Pro Ile Ser Met Val Ala Arg Pro Pro Val Leu Trp Pro Cys 

                85                  90                  95      





Arg Ala Ser Trp Ser Ser Pro Arg Pro Ala Lys Leu Pro Cys Ala Arg 

            100                 105                 110         





Pro Ala Thr Pro Leu Ser Leu Ala Ala Arg Val Pro Leu Leu Ala Lys 

        115                 120                 125             





Ala Pro Ala Arg Ser Leu Arg Ser Cys Phe Arg Gly Gly Arg Ser Ser 

    130                 135                 140                 





Ser Ser Gly Ala Arg Ala Pro Ser Pro Trp Cys Ser Ala Ser Ser Pro 

145                 150                 155                 160 





Met Ala Arg Arg Ala Pro Leu Leu Ser Pro Pro Ala Arg Ala Pro Tyr 

                165                 170                 175     





Gly Val His Leu Pro Gly Lys Ser Ser Leu Phe Pro Leu Pro Trp Arg 

            180                 185                 190         





Val Ser Ser Ser Thr Ser Gly Arg Arg Leu Arg Ala Arg Pro Gln Thr 

        195                 200                 205             





Val Val Arg Pro Ile Leu Ser Pro Ser Arg Gly Ser 

    210                 215                 220 





<210>  550

<211>  155

<212>  PRT

<213>  Zea mays



<400>  550



Met Cys Pro Ala Arg Pro Trp Arg Gln Pro Gln Leu Gly Ala Pro Ser 

1               5                   10                  15      





Ala Ser Pro Gly Leu Arg Leu Leu Leu Ala Pro Ala Trp Ser Ser Leu 

            20                  25                  30          





Asp Leu Gln Leu Arg Arg Pro Ala Glu Leu Pro Gly Cys Arg Ala Leu 

        35                  40                  45              





Leu Ser Phe Ala Ala His Arg Cys Ser Ser Ser Arg Arg Pro Cys Phe 

    50                  55                  60                  





Ser Leu Ser Ser Ser Thr Pro Ala Met Ala Arg Val Ser Ala Pro Ser 

65                  70                  75                  80  





Pro Thr Ala Cys Pro Ser Ser Ser Ser Arg Pro Arg Pro Arg Arg Gly 

                85                  90                  95      





Pro Ser Ser Pro Ala Leu Leu Pro Ala Gln Leu Ser Ser Ala Arg Pro 

            100                 105                 110         





Ile Ser Leu Arg Ser Ala Pro Ser Ser Val Phe Leu Gly Arg Ala Arg 

        115                 120                 125             





Ser Gly Arg Gly His Arg Arg Ala Gln Gly Pro Ala Arg Arg Met Ser 

    130                 135                 140                 





Thr His His Ala Trp Ser Asn Gly Gly Asn Leu 

145                 150                 155 





<210>  551

<211>  247

<212>  PRT

<213>  Zea mays



<400>  551



Met Asp Val Phe Thr Lys Gln Leu Leu Pro Met Pro His Gln Arg Asp 

1               5                   10                  15      





Pro Asn Tyr Pro Ser Ser Ser Thr Ser Ser Ser Ser Ser Ser Ser Ser 

            20                  25                  30          





Ser Thr Pro Pro Ser Arg Pro His His Arg Ala Gln Pro Gln Pro His 

        35                  40                  45              





Asn Leu Pro Gln Ser Pro Arg Pro Val Pro Arg Thr Ile Asp Thr Thr 

    50                  55                  60                  





Pro Phe Pro Thr Thr Phe Val Gln Ala Asp Thr Thr Ser Phe Lys Gln 

65                  70                  75                  80  





Val Val Gln Met Leu Thr Gly Ala Glu Gln Pro Ala Asn Asn Asp Ala 

                85                  90                  95      





Thr Thr Ala Gly Ala Ala Ala Ala Ala Ala Ala Asn Gly Gly Gly Ala 

            100                 105                 110         





Gly Ala Gln Ala Ala Ser Gly Gly Pro Cys Cys Arg Pro Lys Lys Pro 

        115                 120                 125             





Ser Phe Lys Leu Tyr Glu Arg Arg Ser Ser Leu Lys Asn Leu Lys Met 

    130                 135                 140                 





Ile Ala Pro Leu Ala Met Gly Ser Pro Pro Ser Pro Ser Pro Arg Arg 

145                 150                 155                 160 





Ala Ala Pro Glu Ile Leu Ser Pro Ser Val Leu Asp Phe Pro Ser Leu 

                165                 170                 175     





Thr Leu Ser Pro Val Thr Pro Leu Ala Gly Asp Pro Phe Asn Arg Ser 

            180                 185                 190         





Pro Ala Ser Ala Ser Ser Ser Glu Glu Ala Glu Arg Ala Ala Ile Ala 

        195                 200                 205             





Glu Arg Gly Phe Phe Leu His Pro Ser Pro Arg Gly Ala Glu Pro Pro 

    210                 215                 220                 





Arg Leu Leu Pro Leu Phe Pro Val Val Ser Pro Arg Met Ala Gly Ala 

225                 230                 235                 240 





Ala Ala Ala Pro Ser Ser Glu 

                245         





<210>  552

<211>  325

<212>  PRT

<213>  Zea mays



<400>  552



Met Asp Trp Ala Ala Ala Ser Gly Ser Pro Ser Trp Gly Ala Ala Ala 

1               5                   10                  15      





Thr Asp Pro Gly Pro Thr Met Leu Ser Phe Ala Gly Pro Ser Ser Ser 

            20                  25                  30          





Ala Ala Asp Ala Glu Val Arg Leu Gln Asp Phe Ala Ala Gly Leu Ala 

        35                  40                  45              





Gln Ser Ser Arg Pro Thr Gly Ala Ala Pro Gly Ala Gly Arg Arg Ser 

    50                  55                  60                  





Arg Ala Ala Val Gly Gly Ala Gly Ala Glu Ala Cys Ser Val Asp Gly 

65                  70                  75                  80  





Cys Arg Ser Asp Leu Ser Arg Cys Arg Glu Tyr His Arg Arg His Lys 

                85                  90                  95      





Val Cys Glu Ala His Ser Lys Ala Pro Val Val Val Val Gly Gly Gln 

            100                 105                 110         





Glu Arg Arg Phe Cys Gln Gln Cys Ser Arg Phe His Met Leu Ser Glu 

        115                 120                 125             





Phe Asp Glu Glu Lys Arg Ser Cys Arg Lys Arg Leu Asp Gly His Asn 

    130                 135                 140                 





Arg Arg Arg Arg Lys Pro Gln His Asp Leu Thr Asn Leu Gly Gly Phe 

145                 150                 155                 160 





Phe Pro Tyr His Gln Val Asn Gln Phe Glu Phe Tyr Pro Gln Thr Ile 

                165                 170                 175     





Pro Thr Val Gly Gln Asn Ser Asp Ala Val His Leu Val Gly Arg Gln 

            180                 185                 190         





Gln Pro Phe Ser Ile Ser Phe Ser Arg Thr Pro Asp Glu Phe Pro Phe 

        195                 200                 205             





Pro Gln Gly Gly Gly Ser Ser Val Leu His His Leu His Ala Ala Arg 

    210                 215                 220                 





Pro Gly His His Ala Glu Gly Ser Ser His Thr Gly Ser Ser Thr Arg 

225                 230                 235                 240 





Asp Asn Ala Leu Ser Gly Thr Leu Gly Pro Glu Cys Ala Leu Ser Leu 

                245                 250                 255     





Leu Ser Ser Ser Leu Arg Arg Pro Ser Thr Ala Gly Val Pro Ala Val 

            260                 265                 270         





Gly Gln Pro Gln Val Thr Ala Ser Ser Thr Thr Ala Val Ser Gln Ala 

        275                 280                 285             





Ala Thr Ala Ala Val Ala Thr Ala Ala Phe Ala Ala Ser Ala Gly His 

    290                 295                 300                 





His Val Phe Val Pro Asp Ala Met Phe Glu Asp Pro Ser Gln Ala Leu 

305                 310                 315                 320 





Pro Phe Ser Trp Gln 

                325 





<210>  553

<211>  432

<212>  PRT

<213>  Zea mays subsp. mays



<400>  553



Met Asp Trp Asp Leu Lys Ala Ala Gly Ala Trp Asp Leu Ala Glu Leu 

1               5                   10                  15      





Glu Gln Asp His Ala Ala Ala Ala Pro Ser Ser Gly Gly His Ala Ala 

            20                  25                  30          





Asn Ala Ala Ala Ala Gly Thr Gly Thr Glu Ser Arg Pro Pro Ala Pro 

        35                  40                  45              





Gly Ala Ala Gly Ala Pro Ala Glu Cys Ser Val Asp Leu Lys Leu Gly 

    50                  55                  60                  





Gly Met Gly Glu Cys Glu Pro Gly Ala Ala Arg Arg Glu Arg Glu Ala 

65                  70                  75                  80  





Ala Ala Gly Ala Ala Lys Arg Pro Arg Pro Ala Gly Pro Gly Gly Gln 

                85                  90                  95      





Gln Gln Gln Gln Cys Pro Ser Cys Ala Val Asp Gly Cys Arg Ala Asp 

            100                 105                 110         





Leu Gly Lys Cys Arg Asp Tyr His Arg Arg His Lys Val Cys Glu Ala 

        115                 120                 125             





His Ser Lys Thr Pro Val Val Val Val Ala Gly Arg Glu Met Arg Phe 

    130                 135                 140                 





Cys Gln Gln Cys Ser Arg Phe His Leu Leu Ala Glu Phe Asp Ala Asp 

145                 150                 155                 160 





Lys Arg Ser Cys Arg Lys Arg Leu Asp Gly His Asn Arg Arg Arg Arg 

                165                 170                 175     





Lys Pro Gln Pro Asp Thr Met Ala Ser Ala Ser Phe Ile Ala Ser Gln 

            180                 185                 190         





Gln Gly Thr Arg Phe Ser Pro Phe Ala His Pro Arg Leu Glu Ala Ser 

        195                 200                 205             





Trp Pro Pro Gly Val Met Lys Asn Glu Glu Ser Pro Tyr His Ile Thr 

    210                 215                 220                 





His Gln Ile Pro Leu Gly Ser Ser Ser Ser Gly Asn Arg Gln Gln His 

225                 230                 235                 240 





Phe Val Ala Leu Gly Ala Ala Thr Pro Ala Tyr Ala Lys Glu Gly Arg 

                245                 250                 255     





Arg Phe Pro Phe Leu Gln Glu Gly Glu Ile Ser Phe Ala Thr Gly Val 

            260                 265                 270         





Val Leu Glu Pro Pro Ala Ser Ala Pro Ala Cys Gln Pro Leu Leu Arg 

        275                 280                 285             





Thr Gly Ala Pro Ser Glu Ser Ser Gly Ala Gly Gly Ser Lys Met Phe 

    290                 295                 300                 





Ser Asp Gln Gly Leu Ala Arg Val Leu Asp Ser Asp Cys Ala Leu Ser 

305                 310                 315                 320 





Leu Leu Ser Ala Pro Ala Asn Ser Ser Gly Ile Asp Val Ser Arg Met 

                325                 330                 335     





Val Arg Pro Thr Glu His Val Pro Met Ala Gln Gln Pro Val Val Pro 

            340                 345                 350         





Gly Leu Gln Phe Gly Ser Ala Ser Trp Phe Pro Arg Pro Gln Ala Ser 

        355                 360                 365             





Thr Gly Gly Ser Phe Val Pro Ser Cys Pro Ala Ala Val Glu Gly Glu 

    370                 375                 380                 





Gln Gln Leu Asn Ala Val Leu Gly Pro Asn Asp Ser Glu Val Ser Met 

385                 390                 395                 400 





Asn Tyr Gly Gly Met Phe His Val Gly Gly Gly Ser Gly Gly Gly Glu 

                405                 410                 415     





Gly Ser Ser Asp Gly Gly Thr Ser Ser Ser Met Pro Phe Ser Trp Gln 

            420                 425                 430         





<210>  554

<211>  546

<212>  PRT

<213>  Zea mays



<400>  554



Met Phe Ala Thr Phe Leu Leu Leu Leu Trp Ser His Ala Pro Ala Pro 

1               5                   10                  15      





Ala Leu Ser Leu Pro Pro Arg Pro Pro Val Arg Cys Ser Asp Gly Gly 

            20                  25                  30          





Thr Thr Gly Cys Val Leu Ser Asn Ala Tyr Gly Ala Trp Ser Ser Asp 

        35                  40                  45              





Arg Ala Asp Cys Pro Val Ser Ser Val Ala Tyr Pro Ala Ser Glu Gln 

    50                  55                  60                  





Glu Val Val Ala Ala Val Ala Arg Ala Ser Ala Ser Gly Ala Arg Val 

65                  70                  75                  80  





Lys Val Val Ser Gly Phe Ala His Thr Ile Pro Lys Leu Ala Cys Pro 

                85                  90                  95      





Gly Gly Gly Asn Gly Thr Thr Thr Thr Leu Leu Ile Ser Leu Thr Ala 

            100                 105                 110         





Ala Pro Tyr Trp Glu Gly Val Ser Val Ala Gly Leu Val Ser Thr Gly 

        115                 120                 125             





Ser His Gly Ser Ser Trp Trp Gly Arg Gly Gly Ala Val His Asp His 

    130                 135                 140                 





Val Val Gly Leu Arg Leu Val Val Thr Ala Gly Glu Ala Asp Gly Trp 

145                 150                 155                 160 





Ala Arg Val Leu Thr Leu Arg Arg Gly Asp Glu Leu Phe Pro Ala Ala 

                165                 170                 175     





Leu Val Ser Leu Gly Leu Leu Gly Val Val Ser Lys Ile Thr Leu Ser 

            180                 185                 190         





Leu Glu Pro Arg Phe Lys Arg Ser Ile Thr Phe Asp Tyr Arg Asn Asp 

        195                 200                 205             





Ser Thr Phe Gln Asp Asp Phe Ala Ala His Ala Ala Ser His Glu Phe 

    210                 215                 220                 





Ala Asp Ile Thr Trp Tyr Pro Ser Gln His Thr Ala Val Tyr Arg Ile 

225                 230                 235                 240 





Asp Asp Arg Ala Pro Ala Asn Ala Pro Gly Asp Gly Val Asn Asp Phe 

                245                 250                 255     





Ile Gly Phe Gln Ala Thr Pro Ile Ala Val Thr Ala Gly Leu Arg Val 

            260                 265                 270         





Val Glu Thr Ser Leu Glu Arg Ser Lys Asn Met Lys Gly Lys Cys Ala 

        275                 280                 285             





Met Ala Ala Ala Glu Gly Val Ala Lys Arg Leu Val Gly Asn Gly Leu 

    290                 295                 300                 





Lys Asn Asn Gly Leu Leu Phe Thr Gly Tyr Pro Val Val Gly Tyr Gln 

305                 310                 315                 320 





Gly Lys Met Gln Thr Ser Gly Ser Cys Ala Arg Ser Ser Ala Ala Asp 

                325                 330                 335     





Leu Leu Ser Ala Cys Gly Trp Asp Pro Arg Phe His Gly Leu Phe Phe 

            340                 345                 350         





Tyr Glu Ser Thr Ala Ile Phe Ser Pro Ala Arg Phe Arg Asp Phe Ile 

        355                 360                 365             





Leu Asp Val Lys Arg Leu Arg Asp Leu Ala Gly Ser Asp Ser Leu Cys 

    370                 375                 380                 





Gly Val Asp Val Tyr Asn Gly Leu Leu Val Arg Phe Val Lys Ala Ser 

385                 390                 395                 400 





Ala Ala His Leu Gly Gln Pro Glu Asp Ser Val Val Val Asp Phe Asn 

                405                 410                 415     





Tyr Tyr Arg Ala Ser Asp Ser Ala Ala Pro Arg Leu Ser Gln Asp Val 

            420                 425                 430         





Trp Glu Glu Val Glu Gln Leu Ala Phe Val Lys His Gly Ala Arg Pro 

        435                 440                 445             





His Trp Ala Lys Asn Arg Leu Val Ala Phe Ala Gly Val Arg Gly Lys 

    450                 455                 460                 





Tyr Pro Arg Trp Gly Gln Phe Ala Ala Ala Lys Arg Gln Leu Asp Pro 

465                 470                 475                 480 





Arg Gly Leu Phe Asp Ser Pro Trp Ser Asp Glu Val Val Gly Gly Val 

                485                 490                 495     





Glu Leu Ala Lys Gly Asp Gly Cys Ala Leu Asp Gly Arg Cys Val Cys 

            500                 505                 510         





Ser Glu Asp Arg His Cys Ser Pro Glu Gln Gly Tyr Tyr Cys Arg Pro 

        515                 520                 525             





Gly Leu Val Phe Thr Asp Ala Arg Val Cys Arg Tyr Ser Gly Ser Gln 

    530                 535                 540                 





Asn Gln 

545     





<210>  555

<211>  680

<212>  PRT

<213>  Zea mays



<400>  555



Met Gly Ile Asp Leu Asn Ala Val Gly Glu Asp Asp Pro Ala Gly Ala 

1               5                   10                  15      





Val Cys Ala Glu Leu Trp His Ala Cys Ala Gly Ala Gly Val Ala Leu 

            20                  25                  30          





Pro Arg Arg Gly Ser Ala Val Val Tyr Leu Pro Gln Ala His Leu Ala 

        35                  40                  45              





Ala Gly Gly Cys Asp Gly Gly Gly Val Ser Ala Pro Ala Pro Pro Arg 

    50                  55                  60                  





Val Pro Pro His Val Val Cys Arg Val Val Asp Val Glu Leu Arg Ala 

65                  70                  75                  80  





Asp Ala Ala Thr Asp Glu Val Tyr Ala Arg Leu Ala Leu Val Ala Met 

                85                  90                  95      





Asp Thr Met Phe Gly Arg Asn Ile Asn Asp Gly Glu Thr Glu Glu Lys 

            100                 105                 110         





Asn Gly Glu Glu Glu Asp Gly Asp Gly Glu Lys Lys His Ala Ser His 

        115                 120                 125             





Met Phe Cys Lys Thr Leu Thr Ala Ser Asp Thr Ser Thr His Gly Gly 

    130                 135                 140                 





Phe Ser Val Pro Arg Arg Ala Ala Glu Asp Cys Phe Pro Pro Leu Asp 

145                 150                 155                 160 





Tyr Glu Gln Leu Arg Pro Ser Gln Glu Leu Ile Ala Lys Asp Leu His 

                165                 170                 175     





Gly Met Lys Trp Arg Phe Arg His Ile Tyr Arg Gly Gln Pro Arg Arg 

            180                 185                 190         





His Leu Leu Thr Thr Gly Trp Ser Ser Phe Ile Asn Lys Lys Lys Leu 

        195                 200                 205             





Val Ser Gly Asp Ala Val Leu Phe Leu Arg Gly Asn Asp Gly Glu Leu 

    210                 215                 220                 





Arg Leu Gly Val Arg Arg Ala Val Gln Leu Lys Asn Glu Ala Leu Leu 

225                 230                 235                 240 





Glu Ala Val Asn Cys Thr Asp Ser Lys Leu Leu Met Leu Ser Ala Val 

                245                 250                 255     





Ala Asn Ser Leu Asp Asn Arg Ser Ile Phe His Ile Cys Phe Asn Pro 

            260                 265                 270         





Arg Val Gly Ala Ser Glu Phe Ile Val Pro Tyr Cys Lys Phe Leu Lys 

        275                 280                 285             





Ser Leu Asn Tyr His Phe Ser Val Gly Thr Arg Phe Lys Val Gly Cys 

    290                 295                 300                 





Glu Asn Glu Asp Ala Asn Glu Arg Ser Phe Gly Leu Ile Ile Gly Ile 

305                 310                 315                 320 





Ser Glu Val Asp Pro Ile His Trp Pro Gly Ser Lys Trp Lys Ser Leu 

                325                 330                 335     





Leu Ile Lys Trp Asp Gly Ala Thr Lys Tyr Ser His Gln Asn Arg Val 

            340                 345                 350         





Ser Pro Trp Asp Ile Glu Gly Val Gly Ser Ser Val Ser Val Thr His 

        355                 360                 365             





Arg Leu Ser Ser Ser Val Ser Lys Arg Thr Lys Leu Cys Phe Pro Pro 

    370                 375                 380                 





Ser Asp Leu Asp Thr Pro Ile Leu Asp Gly Asn Gly Arg Pro Asp Ser 

385                 390                 395                 400 





Val Glu Thr Glu Arg Phe His Arg Val Leu Gln Gly Gln Glu Leu Val 

                405                 410                 415     





His Ser Ser Ile His Gly Thr Ala Cys Ser His Ser Ser Asp Ser Pro 

            420                 425                 430         





Arg Cys Gln Gly Ser Tyr Gly Arg Arg Phe Ser Ala Asp Ala Trp Asn 

        435                 440                 445             





Cys Lys Met Asn Asp Val Met Ser Gly Pro Arg His Leu Asn Ala Thr 

    450                 455                 460                 





Gly Phe Ala Tyr Gln Pro Leu Gly Phe Ser Glu Ser Val Lys Phe Ser 

465                 470                 475                 480 





Glu Val Leu Gln Gly Gln Glu Met Ser Gln Ala Val Pro Ser Phe Met 

                485                 490                 495     





Arg Ser Ala Phe Asn Ser Gly Thr Gln Asn Gly Arg Val Arg Pro Phe 

            500                 505                 510         





Asp Tyr Val Gln Arg Ser Asp Ala Thr Gln Gly Tyr Ala Leu Gln Gln 

        515                 520                 525             





Phe Asn Leu Pro Ala Thr Glu Val His Ser Pro Ser Ser Val Leu Met 

    530                 535                 540                 





Phe Asn Gln Thr Met Val Pro His Ala Glu Leu Asp Gly Ala Thr Asn 

545                 550                 555                 560 





Arg Glu Glu Val His Gly Ser Arg Tyr Leu Ser Ser Asn Ala Ile Gly 

                565                 570                 575     





Arg Glu Ala Glu Pro Trp Pro Ser Met Gln Gln Gln Arg Ala Ser Val 

            580                 585                 590         





Asn Gly Ser Glu Pro Leu Asp Thr Thr Glu Ala Ser Ala Pro Ala Arg 

        595                 600                 605             





Asn Ala Glu Ser Gly Ser Val Gly Arg Gly Ala Gly Arg Ser Asn Cys 

    610                 615                 620                 





Lys Leu Phe Gly Phe Ser Leu Thr Glu Lys Ile Leu Gly Thr Asp Gly 

625                 630                 635                 640 





Gly Gly Val Lys Glu Gly Asn Tyr Glu Val Asp Arg Gln Thr Pro Arg 

                645                 650                 655     





Val Leu Asp Leu Phe Gly His Gly Ser Thr Pro Gly Ala Leu His Ala 

            660                 665                 670         





Leu Cys Ala Ala Pro Leu Gly Ile 

        675                 680 





<210>  556

<211>  680

<212>  PRT

<213>  Zea mays



<400>  556



Met Gly Ile Asp Leu Asn Ala Val Gly Glu Asp Asp Pro Ala Gly Ala 

1               5                   10                  15      





Val Cys Pro Glu Leu Trp His Ala Cys Ala Gly Ala Gly Val Ala Leu 

            20                  25                  30          





Pro Arg Arg Gly Ser Ala Val Val Tyr Leu Pro Gln Ala His Leu Ala 

        35                  40                  45              





Ala Gly Gly Cys Asp Gly Gly Gly Gly Leu Ala Pro Ala Pro Pro Arg 

    50                  55                  60                  





Val Pro Pro His Val Val Cys Arg Val Val Asp Val Glu Leu Arg Ala 

65                  70                  75                  80  





Asp Ala Ala Thr Asp Glu Val Tyr Ala Arg Leu Ala Leu Val Ala Met 

                85                  90                  95      





Asp Thr Met Phe Gly Arg Asn Ile Asn Asp Gly Glu Thr Glu Glu Lys 

            100                 105                 110         





Asn Gly Glu Glu Glu Asp Gly Asp Gly Glu Lys Lys His Ala Ser His 

        115                 120                 125             





Met Phe Cys Lys Thr Leu Thr Ala Ser Asp Thr Ser Thr His Gly Gly 

    130                 135                 140                 





Phe Ser Val Pro Arg Arg Ala Ala Glu Asp Cys Phe Pro Pro Leu Asp 

145                 150                 155                 160 





Tyr Glu Gln Leu Arg Pro Ser Gln Glu Leu Ile Ala Lys Asp Leu His 

                165                 170                 175     





Gly Met Lys Trp Arg Phe Arg His Ile Tyr Arg Gly Gln Pro Arg Arg 

            180                 185                 190         





His Leu Leu Thr Thr Gly Trp Ser Ser Phe Ile Asn Lys Lys Lys Leu 

        195                 200                 205             





Val Ser Gly Asp Ala Val Leu Phe Leu Arg Gly Asn Asp Gly Glu Leu 

    210                 215                 220                 





Arg Leu Gly Val Arg Arg Ala Val Gln Leu Lys Asn Glu Ala Leu Leu 

225                 230                 235                 240 





Glu Ala Val Asn Cys Thr Asp Ser Lys Leu Leu Met Leu Ser Ala Val 

                245                 250                 255     





Ala Asn Ser Leu Asp Asn Arg Ser Ile Phe His Ile Cys Phe Asn Pro 

            260                 265                 270         





Arg Val Gly Ala Ser Glu Phe Ile Val Pro Tyr Cys Lys Phe Leu Lys 

        275                 280                 285             





Ser Leu Asn Tyr His Phe Ser Val Gly Thr Arg Phe Lys Val Gly Cys 

    290                 295                 300                 





Glu Asn Glu Asp Ala Asn Glu Arg Ser Phe Gly Leu Ile Ile Gly Ile 

305                 310                 315                 320 





Ser Glu Val Asp Pro Ile His Trp Pro Gly Ser Lys Trp Lys Ser Leu 

                325                 330                 335     





Leu Ile Lys Trp Asp Gly Ala Thr Lys Tyr Ser His Gln Asn Arg Val 

            340                 345                 350         





Ser Pro Trp Asp Ile Glu Gly Val Gly Ser Ser Val Ser Val Thr His 

        355                 360                 365             





Arg Leu Ser Ser Ser Val Ser Lys Arg Thr Lys Leu Cys Phe Pro Pro 

    370                 375                 380                 





Ser Asp Leu Asp Thr Pro Ile Leu Asp Gly Asn Gly Arg Pro Asp Ser 

385                 390                 395                 400 





Val Glu Thr Glu Arg Phe His Arg Val Leu Gln Gly Gln Glu Leu Val 

                405                 410                 415     





His Ser Ser Ile His Gly Thr Ala Cys Ser His Ser Ser Asp Ser Pro 

            420                 425                 430         





Arg Cys Gln Gly Ser Tyr Gly Arg Arg Phe Ser Ala Asp Ala Trp Asn 

        435                 440                 445             





Cys Lys Met Asn Asp Val Met Ser Gly Pro Arg His Leu Asn Ala Thr 

    450                 455                 460                 





Gly Phe Ala Tyr Gln Pro Leu Gly Phe Ser Glu Ser Val Lys Phe Ser 

465                 470                 475                 480 





Glu Val Leu Gln Gly Gln Glu Met Ser Gln Ala Val Pro Ser Phe Met 

                485                 490                 495     





Arg Ser Ala Phe Asn Ser Gly Thr Gln Asn Gly Arg Val Arg Pro Phe 

            500                 505                 510         





Asp Tyr Val Gln Arg Ser Asp Ala Thr Gln Gly Tyr Ala Leu Gln Gln 

        515                 520                 525             





Phe Asn Leu Pro Ala Thr Glu Val His Ser Pro Ser Ser Val Leu Met 

    530                 535                 540                 





Phe Asn Gln Thr Met Val Pro His Ala Glu Leu Asp Gly Ala Thr Asn 

545                 550                 555                 560 





Arg Glu Glu Val His Gly Ser Arg Tyr Leu Ser Ser Asn Ala Ile Gly 

                565                 570                 575     





Arg Glu Ala Glu Pro Trp Pro Ser Met Gln Gln Gln Arg Ala Ser Val 

            580                 585                 590         





Asn Gly Ser Glu Pro Leu Asp Thr Thr Glu Ala Ser Ala Pro Ala Arg 

        595                 600                 605             





Asn Ala Glu Ser Gly Ser Val Gly Arg Gly Ala Gly Arg Ser Asn Cys 

    610                 615                 620                 





Lys Leu Phe Gly Phe Ser Leu Thr Glu Lys Ile Leu Gly Thr Asp Gly 

625                 630                 635                 640 





Gly Gly Val Lys Glu Gly Asn Tyr Glu Val Asp Arg Gln Thr Pro Arg 

                645                 650                 655     





Val Leu Asp Leu Phe Gly His Gly Ser Thr Pro Gly Ala Leu His Ala 

            660                 665                 670         





Leu Cys Ala Ala Pro Leu Gly Ile 

        675                 680 





<210>  557

<211>  240

<212>  PRT

<213>  Oryza sativa Japonica Group



<400>  557



Met Gly Arg Gly Lys Ile Val Ile Arg Arg Ile Asp Asn Ser Thr Ser 

1               5                   10                  15      





Arg Gln Val Thr Phe Ser Lys Arg Arg Asn Gly Ile Phe Lys Lys Ala 

            20                  25                  30          





Lys Glu Leu Ala Ile Leu Cys Asp Ala Glu Val Gly Leu Met Ile Phe 

        35                  40                  45              





Ser Ser Thr Gly Arg Leu Tyr Glu Tyr Ser Ser Thr Ser Met Lys Ser 

    50                  55                  60                  





Val Ile Asp Arg Tyr Gly Lys Ser Lys Asp Glu Gln Gln Ala Val Ala 

65                  70                  75                  80  





Asn Pro Asn Ser Glu Leu Lys Phe Trp Gln Arg Glu Ala Ala Ser Leu 

                85                  90                  95      





Arg Gln Gln Leu His Asn Leu Gln Glu Asn His Arg Gln Leu Met Gly 

            100                 105                 110         





Glu Asp Leu Ser Gly Leu Asn Val Lys Glu Leu Gln Ser Leu Glu Asn 

        115                 120                 125             





Gln Leu Glu Ile Ser Leu Arg Ser Val Arg Thr Lys Lys Asp His Val 

    130                 135                 140                 





Leu Ile Asp Glu Ile His Glu Leu Asn Arg Lys Gly Ser Leu Val His 

145                 150                 155                 160 





Gln Glu Asn Met Glu Leu Tyr Lys Lys Ile Ser Leu Ile Arg Gln Glu 

                165                 170                 175     





Asn Ala Glu Leu Tyr Lys Lys Ile Tyr Glu Thr Glu Gly Pro Ser Glu 

            180                 185                 190         





Val Asn Arg Asp Ser Pro Thr Pro Tyr Asn Phe Ala Val Ile Glu Lys 

        195                 200                 205             





Thr Asn Val Pro Val Gln Leu Gly Leu Ser Thr Leu Pro Gln His Ser 

    210                 215                 220                 





Asp Ala Glu Gln Ser Thr Ala Pro Lys Leu Gly Leu Gln Leu Asn Pro 

225                 230                 235                 240 





<210>  558

<211>  240

<212>  PRT

<213>  Zea mays



<400>  558



Met Gly Arg Gly Lys Ile Val Ile Arg Arg Ile Asp Asn Ser Thr Ser 

1               5                   10                  15      





Arg Gln Val Thr Phe Ser Lys Arg Arg Asn Gly Ile Phe Lys Lys Ala 

            20                  25                  30          





Lys Glu Leu Ala Ile Leu Cys Asp Ala Glu Val Gly Leu Val Ile Phe 

        35                  40                  45              





Ser Ser Thr Gly Arg Leu Tyr Glu Tyr Ser Ser Thr Ser Met Lys Ser 

    50                  55                  60                  





Val Ile Asp Arg Tyr Gly Lys Ala Lys Glu Glu Gln Gln Asp Val Ala 

65                  70                  75                  80  





Asn Pro Asn Ser Glu Leu Lys Phe Trp Gln Arg Glu Ala Ala Ser Leu 

                85                  90                  95      





Arg Gln Gln Leu His Asn Leu Gln Glu Asn Tyr Arg Gln Leu Thr Gly 

            100                 105                 110         





Asp Asp Leu Ser Gly Leu Asn Val Lys Glu Leu Gln Ser Leu Glu Asn 

        115                 120                 125             





Gln Leu Glu Thr Ser Leu Arg Gly Val Arg Ala Lys Lys Asp His Leu 

    130                 135                 140                 





Leu Ile Asp Glu Ile His Asp Leu Asn Arg Lys Ala Ser Leu Phe His 

145                 150                 155                 160 





Gln Glu Asn Thr Asp Leu Tyr Asn Lys Ile Asn Leu Ile Arg Gln Glu 

                165                 170                 175     





Asn Asp Glu Leu His Lys Lys Ile Tyr Glu Thr Glu Gly Pro Ser Gly 

            180                 185                 190         





Val Asn Arg Glu Ser Pro Thr Pro Phe Asn Phe Ala Val Val Glu Thr 

        195                 200                 205             





Arg Asp Val Pro Val Gln Leu Glu Leu Ser Thr Leu Pro Gln Gln Asn 

    210                 215                 220                 





Asn Ile Glu Pro Ser Thr Ala Pro Lys Leu Gly Leu Gln Leu Ile Pro 

225                 230                 235                 240 





<210>  559

<211>  440

<212>  PRT

<213>  Sorghum bicolor



<400>  559



Met Gly Ser Phe Gly Met Asn Trp Asn Gln Lys Asn Ser Met Val Trp 

1               5                   10                  15      





Asp Trp Glu His Leu Val Pro Ser Val Ser Asn Ala Val Thr Arg His 

            20                  25                  30          





Gly Ser Ala Asn Ser Ser Gly Gly Thr Leu Thr Ser Ser Ser Glu Leu 

        35                  40                  45              





Gly His Gly Ser Ser Lys Ser Ser Ile Ser Ala Ser Ile Asp Ser Pro 

    50                  55                  60                  





Ser Gly Val Gly Asn Ser Leu Glu Phe Asn Phe Ala Ala Val Gln Arg 

65                  70                  75                  80  





His Val Lys Asn Thr Gly Thr Asn Gly Arg Val Asp Asp Ser Gly Asn 

                85                  90                  95      





Ser Pro Ser Ser Met Ile Ala Phe Ser Gln Gly Glu Pro Leu Ile Ser 

            100                 105                 110         





Leu Lys Leu Gly Lys Arg Ala Tyr Phe Glu Asn Val Cys Gly Gly Gln 

        115                 120                 125             





Glu Ala Lys Val Ser Ala Pro Ser Asp Val Thr Ser Ala Val Thr Val 

    130                 135                 140                 





Val Lys Lys Thr Lys Val Ser Gln Gln Asn Ala Lys Asn Trp Tyr Cys 

145                 150                 155                 160 





Gln Val Glu Gly Cys Lys Val Asp Leu Ser Ser Ala Lys Asp Tyr Asn 

                165                 170                 175     





Arg Lys His Lys Val Cys Val Ala His Ser Lys Ala Pro Lys Val Val 

            180                 185                 190         





Val Ala Gly Leu Glu Arg Arg Phe Cys Gln Gln Cys Ser Arg Phe His 

        195                 200                 205             





Gly Leu Ala Glu Phe Asp Gln Asn Lys Arg Ser Cys Arg Arg Arg Leu 

    210                 215                 220                 





Thr His His Asn Ala Arg Arg Arg Lys Pro Gln Ala Asp Ala Ile Ser 

225                 230                 235                 240 





Phe Asn Ser Ser Arg Leu Ser Ser Met Phe Tyr Asp Thr Ser His Arg 

                245                 250                 255     





Thr Asn Leu Phe Phe Ser Gln Pro Leu Tyr Gly Gln Val Arg Ser Asn 

            260                 265                 270         





Ala Val Ser Pro Trp Asp Asn Ser Gly Gly Phe Lys Phe Met Glu Thr 

        275                 280                 285             





Lys His Leu Ser Val Gln Pro Thr Lys Thr Val Gly Leu Asp Glu Leu 

    290                 295                 300                 





His Phe Ser Thr Pro Gln Ile Ser Thr Ser Val Val Ala His Thr Gly 

305                 310                 315                 320 





His His His Asn Phe Asp Arg Phe Met Pro Phe Lys Gly Thr Asn Thr 

                325                 330                 335     





Lys Val Leu Asn Gln Val Ser Gly Val Glu Ala Ser Ala Thr Ala Ser 

            340                 345                 350         





Asn Ser Asn Asn Gly Ala Pro Glu Pro Gly Arg Ala Leu Ser Leu Leu 

        355                 360                 365             





Ser Asp Gly Ser Trp Gly Ser Asn Ser Ala Val Ile Gln Gln Pro Pro 

    370                 375                 380                 





Ser His Ala Asp Ala Gly Ala Leu Pro Pro Leu Ala Thr Val Ala Val 

385                 390                 395                 400 





Ser Asn Thr Ala Ala Arg His Pro Leu Asp Pro Ser Leu Gly Arg Phe 

                405                 410                 415     





Trp Gln Asp Asp His Pro Pro Leu Asp Gly Pro Ala Pro Gln Ile Gln 

            420                 425                 430         





Glu Leu Ala His Leu Arg Thr Trp 

        435                 440 





<210>  560

<211>  495

<212>  PRT

<213>  Zea mays



<400>  560



Met Gly Thr Ala Ala Val Val Glu Asp Thr Ile Arg Val Val Leu Thr 

1               5                   10                  15      





Cys Leu Pro Asp Pro Pro Phe Arg Thr Thr Gly Ser Ser Arg Pro Tyr 

            20                  25                  30          





Gln Ser Pro Ser Gly Gly Gly Gly Gly Gly Asp Arg Ile Ser Arg Leu 

        35                  40                  45              





Ser Asp Ala Val Leu Ser Asn Ile Val Ala Arg Leu Pro Ala Lys Asp 

    50                  55                  60                  





Ala Ala Arg Thr Thr Ala Leu Ser Arg Arg Trp Arg Arg Val Trp Ala 

65                  70                  75                  80  





Ser Thr Pro Leu Val Leu Asp Asp Ser Asp Leu Leu Val Phe His Asp 

                85                  90                  95      





Asp Gly Gly Cys Ser Thr Pro Asn Trp Leu Ala Val Thr Asp Thr Val 

            100                 105                 110         





Ser His Val Leu Ser Ser His Arg Gly Pro Ile Arg Phe Val Arg Leu 

        115                 120                 125             





Thr Cys Cys Tyr Met Ala Leu Ala Ser His Asn Gly Ala Leu Gln Tyr 

    130                 135                 140                 





Trp Leu Arg Val Leu Ala Ala Gly Gly Val Glu Asp Leu Val Leu Val 

145                 150                 155                 160 





Asn Arg Pro Leu Pro Thr Ser Val Gly Leu Pro Ile Asp Val Leu His 

                165                 170                 175     





Leu Ala Ser Leu Arg Thr Leu Tyr Leu Gly Phe Trp Cys Phe Pro Asp 

            180                 185                 190         





Thr Ala Thr Leu Pro Arg Gly Arg Ala Thr Val Phe Pro Cys Leu Gln 

        195                 200                 205             





Glu Ile Gly Leu Cys Ala Thr Val Ile His Ala Arg Asp Ile Asp His 

    210                 215                 220                 





Leu Leu Ala Cys Ser Pro Val Leu Glu Lys Phe Ala Ser Ile Thr Ser 

225                 230                 235                 240 





Ile Tyr Phe Thr Asp Pro Val Arg Ile Arg Ser Cys Ser Leu Arg Cys 

                245                 250                 255     





Leu Val Phe Trp Glu Ser Leu Ala Asn Glu Leu Asp Leu Val Val Ala 

            260                 265                 270         





Pro Arg Leu Gln Arg Leu Ile Leu Trp Gln Ser Arg Gln Trp Met Ile 

        275                 280                 285             





Gly Ser Val His Phe Arg Ser Arg Ile Arg Ile Gly Ser Ala Thr Glu 

    290                 295                 300                 





Leu Lys Val Leu Gly Tyr Leu Glu Pro Ser Ile His Gln Leu Glu Ile 

305                 310                 315                 320 





Gly Gly Thr Ile Ile Asp Ser Gly Thr Lys Met Thr Pro Ser Asn Met 

                325                 330                 335     





Val Pro Ser Val Lys Ile Leu Ala Leu Lys Met Gln Phe Arg Ile Arg 

            340                 345                 350         





Lys Glu Val Lys Met Leu Pro Thr Phe Leu Arg Cys Phe Pro Asn Val 

        355                 360                 365             





Glu Thr Leu His Val Leu Ser His Glu Thr Asp Glu Gln Asn Gly Lys 

    370                 375                 380                 





Phe Asn Leu Lys Phe Trp Glu Glu Val Gly Ser Ile Ser Cys Leu Glu 

385                 390                 395                 400 





Thr Arg Ile Thr Lys Val Val Phe Asp Arg Phe Arg Gly Glu Arg Cys 

                405                 410                 415     





Glu Leu Ala Phe Leu Lys Phe Val Leu Glu Arg Ala Glu Ser Leu Leu 

            420                 425                 430         





Lys Leu Val Val Val Leu Ala Asn Gly Asp Gln Ala Ser Val Asp Glu 

        435                 440                 445             





Met Leu Ala Lys Leu Lys Ser Leu Thr Thr Val Lys Arg Ala Ser Asp 

    450                 455                 460                 





Phe Pro Thr Leu Leu Ala Val Ala Arg Glu Gly Asp Ser Ala Trp Tyr 

465                 470                 475                 480 





Phe Glu Arg Ala Ser Asp Leu Ser Val Thr Asp Pro Phe Asp Leu 

                485                 490                 495 





<210>  561

<211>  616

<212>  PRT

<213>  Sorghum bicolor



<400>  561



Met Gly Thr Thr Ala Arg Arg Glu Pro Leu Lys Gln Arg Val Asn Arg 

1               5                   10                  15      





Cys Leu Leu Lys Leu Ser Asp Arg Asp Thr Glu Ala Met Ala Ala Ala 

            20                  25                  30          





Glu Leu Glu Ala Ile Ala Arg Ala Leu Glu Pro Asp Glu Leu Pro Ala 

        35                  40                  45              





Phe Val Ser Ala Val Ser Asp Ala Arg Pro Thr Asp Lys Thr Pro Leu 

    50                  55                  60                  





Arg Arg His Ala Leu Arg Ala Leu Ala Leu Val Ala Ala Ser His Pro 

65                  70                  75                  80  





Arg Asp Ala Val Ala Pro Leu Val Pro Arg Ile Leu Ala Ala Ala Leu 

                85                  90                  95      





Arg Arg Val Arg Asp Gln Asp Ser Ser Val Arg Ala Ala Leu Val Asp 

            100                 105                 110         





Thr Ala Arg Ala Ala Ala Ala Ala Ser Ala Ser Ala Ser Ala Ala Leu 

        115                 120                 125             





Arg Pro Leu Thr Asp Ala Leu Leu His Glu Gln Asp Gln Cys Ala Gln 

    130                 135                 140                 





Leu Ala Ala Ala Leu Ala Thr Ala Ala Ala Val Glu Ala Ser Ala Val 

145                 150                 155                 160 





Thr Ala Asp Leu Ala Ser Tyr Leu His Lys Leu Gln Pro Arg Leu Leu 

                165                 170                 175     





Lys Leu Leu Arg Ser Asn Ala Phe Lys Ala Lys Pro Ala Leu Ile Thr 

            180                 185                 190         





Leu Ile Gly Ala Ser Ala Ala Met Ala Gly Asp Ala Glu Val Thr Ala 

        195                 200                 205             





Ser Ile Pro Cys Leu Arg Asp Ala Ile Ala Ser Asp Asp Trp Ala Ala 

    210                 215                 220                 





Arg Lys Ala Ala Ala Glu Ala Leu Ala Ala Leu Ala Leu Glu His Thr 

225                 230                 235                 240 





Asp Leu Leu Thr Thr Tyr Lys Ser Ser Cys Val Thr Phe Phe Glu Ala 

                245                 250                 255     





Arg Arg Phe Asp Lys Val Lys Ile Val Arg Glu Ser Met Asn Arg Met 

            260                 265                 270         





Ile Glu Ala Trp Lys Glu Ile Pro Gly Ala Glu Glu Asp Glu Cys Ser 

        275                 280                 285             





Ser Ala Pro Pro Pro Ala Ser Gln Ser Gln Arg Arg Ser Ser Leu Thr 

    290                 295                 300                 





Gly Ser Ala Ser Asp Gly Arg Tyr Pro Ala Ala Ser Leu Gly Ser Asn 

305                 310                 315                 320 





Ser Val Pro Ser Ser Thr Arg Arg Ser Arg Leu Pro Val Ser Arg Ser 

                325                 330                 335     





Ser Pro Pro Asp Val Ser Pro Ser Val Thr Lys Thr Asn Ser Pro Ser 

            340                 345                 350         





Ser Ile Arg Asn Lys Lys Leu Ser Pro Pro Ser Tyr Arg Lys Val Arg 

        355                 360                 365             





Gln Ala Asn Asn Cys Asp Tyr Lys Val Glu Ile Ala Val Ala Pro Asp 

    370                 375                 380                 





Ala Thr Pro Ile Lys Val Val Thr Glu Glu Lys Leu Leu Lys Gly Gly 

385                 390                 395                 400 





Asn Val Arg Asp Arg Leu Glu Ala Arg Arg Thr Leu Phe Gln Gly Ser 

                405                 410                 415     





Glu Asp Arg Ser Ala Lys Leu Ala Gly His Lys Ala Gly Ser Arg Val 

            420                 425                 430         





Val Pro Tyr Glu Gly Gly Gly Asn Leu Glu Glu Ile Ser Glu Val Glu 

        435                 440                 445             





Gly Gly Ser Glu Arg Tyr Thr Val His Lys Asp Glu Ser Leu Ser Glu 

    450                 455                 460                 





Ile Arg Thr Gln Leu Leu Gln Ile Glu Asn Gln Gln Ser Ser Leu Leu 

465                 470                 475                 480 





Asp Leu Leu Gln Lys Phe Met Gly Lys Ser Glu Asn Gly Met Asn Ser 

                485                 490                 495     





Leu Glu Thr Arg Val His Gly Leu Glu Met Ala Leu Asp Glu Ile Ser 

            500                 505                 510         





Arg Asp Leu Ala Phe Ser Ser Gly Arg Met Ser Asn Arg Glu Pro Asp 

        515                 520                 525             





Val Lys Thr Cys Cys Ile Leu Ser Pro Lys Phe Trp Arg Arg His Asn 

    530                 535                 540                 





Gly Gly Arg Ser Ser Ser Arg Phe Ser Ala Ser Asp Pro Ala Asn Ser 

545                 550                 555                 560 





Ser Asp Glu Ser Arg Thr Ser Tyr Lys Trp Glu Arg Gln Lys Phe Gly 

                565                 570                 575     





Leu Gln Gly Gly Phe Val Thr Asn Pro Leu Ala Glu Pro Asn Ile Ser 

            580                 585                 590         





Ser Val Gly Lys Thr Met Val Thr Gln Glu Gly Arg Lys Lys Asp Thr 

        595                 600                 605             





Thr Leu Gln Lys Ser Arg Met Gly 

    610                 615     





<210>  562

<211>  253

<212>  PRT

<213>  Zea mays



<400>  562



Met His Met Pro Ile Arg Cys Phe Pro Asn Leu Leu Phe Phe Phe Trp 

1               5                   10                  15      





Ser Glu Pro Gly Arg Phe Arg Ser Phe Leu Leu Asp Phe Ser Tyr Pro 

            20                  25                  30          





Arg Val Pro Ser Ser Val Arg Asp Asp Ala Trp Gln Trp Gln Gly Met 

        35                  40                  45              





Gln His Gly Gly Asp Arg Met Leu Leu Gly Thr Ala Ser Ala Ile Gln 

    50                  55                  60                  





Trp His Gly Asn Gln Glu Pro His Pro Pro His Arg Ser Ala Ala Ala 

65                  70                  75                  80  





Gly Tyr Gly Asn His Ala Tyr Asn Asn Cys His Gly Gly Gly Gly Leu 

                85                  90                  95      





Val Ala Ala Ala Ala Gly Ala Ser Met Leu Ser Ser Ala Phe Glu Pro 

            100                 105                 110         





Pro Pro Gly Gly Gly Gly Cys Val Ala Gly Ala Thr Ala Ala Asp Ser 

        115                 120                 125             





Ser Cys Ala Leu Ser Leu Leu Ser Thr Gln Pro Trp Asp Thr Pro Thr 

    130                 135                 140                 





Gln Ser Gly Ser Ser His His Asn Arg Ser Pro Ala Met Ser Ala Ala 

145                 150                 155                 160 





Ala Gly Ala Phe Glu Val Ala Pro Ser Ser Val Val Ala Ser Ser Tyr 

                165                 170                 175     





Thr Ala Ser Ser Ser Trp Ser Gly Ser Arg Asp Pro Ala Asp Gly Ala 

            180                 185                 190         





Arg Lys Asn Ala Gln Arg His Asp Asp Gly Leu His Leu Val His Pro 

        195                 200                 205             





Pro Gly Pro Val His His Gly His Phe Ser Gly Glu Leu Glu Leu Ala 

    210                 215                 220                 





Leu Gln Gly Ser Gly Pro Pro His Val Asp His Gly Gly Gly Thr Cys 

225                 230                 235                 240 





Phe Ser His Ser Asp Thr Asn Ala Met Asn Trp Ser Leu 

                245                 250             





<210>  563

<211>  718

<212>  PRT

<213>  Zea mays



<400>  563



Met Lys Ser Leu Ala Lys Gln Glu Thr Gln Pro Lys Ser Arg Leu Ile 

1               5                   10                  15      





Val Arg Leu Gly Val Phe Leu Ala Ser His His Ile Leu Phe Ser Val 

            20                  25                  30          





Ile Cys Cys Tyr Ala Gly Ile Ile Ala Leu Leu Leu Leu Pro Ser Leu 

        35                  40                  45              





Ala Lys Asn Thr Tyr Leu Ser Glu Asn Ala Leu Ile Pro Gly Ser Ala 

    50                  55                  60                  





Asn Pro Leu Phe Ser Thr Glu Asp Ala Ile Glu Ala Asn Arg Phe Met 

65                  70                  75                  80  





Lys Ala Ile Glu Ala Val Ala Arg Asp Ser Ser Ser Val Ile Gly Met 

                85                  90                  95      





Ala Asn Phe Ile Ala Gln Gln Ile Glu Asp Leu Gly Ala Glu Val Cys 

            100                 105                 110         





Tyr Gln Lys Phe Leu Pro His Gly Lys Asn Phe His Pro Leu Lys Phe 

        115                 120                 125             





Phe Thr Ser Met Thr Asn Asp Ile Ala Ile Gln Pro Asn Gly Thr Ala 

    130                 135                 140                 





Thr Asn Phe Gly Ile Asn Thr Ile Gly Ile Leu Arg Ala Pro Arg Gly 

145                 150                 155                 160 





Asp Gly Lys Glu Ala Ile Val Leu Val Thr Pro Tyr Asn Ser Gln Arg 

                165                 170                 175     





Val Gln Ser Asn Glu Leu Leu Ser Leu Ala Leu Gly Phe Ser Val Phe 

            180                 185                 190         





Ser Leu Leu Ser Arg Ala Ala Trp Leu Ser Lys Asp Val Val Trp Leu 

        195                 200                 205             





Ser Ala Asp Ser Gln Phe Gly Glu Tyr Ala Ala Val Ser Ala Trp Leu 

    210                 215                 220                 





Asn Gln Tyr His Asn Pro Val Phe Leu Ser His Ser Val Val Ser His 

225                 230                 235                 240 





Thr Lys Met Tyr Gly Ala Asn Asn Ile Tyr Asp Gly Asn Ser Glu Lys 

                245                 250                 255     





Thr Glu Ala Thr Ala Phe Lys Arg Ala Gly Thr Met Ala Ala Ala Leu 

            260                 265                 270         





Ile Phe Lys Val Gly Glu Thr Arg Arg Tyr Ser Asp Arg Asp Ser Val 

        275                 280                 285             





Thr Ile Tyr Ala Glu Ala Ser Asn Gly Gln Met Pro Asn Leu Asp Leu 

    290                 295                 300                 





Leu Asn Val Val His Tyr Leu Ala Val His Arg Gln Gly Phe Arg Val 

305                 310                 315                 320 





Asn Ile Ala Ala Phe Ser Ser Leu Leu Ser Ser Ala Trp Leu Arg Val 

                325                 330                 335     





Ile Ala Glu Ile Leu His Thr Ile Gly Ser Val Leu Arg Lys Ile Asn 

            340                 345                 350         





Pro Asp Trp Lys Leu Asp Ile Ala Val Pro Asp Tyr Val Glu Gly Thr 

        355                 360                 365             





Ala Asn Leu Ala Asn Ser Met Tyr Asn Gln Ala Leu Gly Val Pro Thr 

    370                 375                 380                 





Gly Ser His Gly Ala Phe Arg Asp Tyr Gln Val Asp Ala Val Ser Leu 

385                 390                 395                 400 





Glu Phe Ser Pro Thr Phe His Val Lys Asn Glu Asn Ala Lys Ser Leu 

                405                 410                 415     





Phe Leu Leu Lys Gly Gly Arg Leu Ile Glu Gly Val Ala Arg Ser Val 

            420                 425                 430         





Asn Asn Leu Leu Glu Lys Phe His Gln Ser Phe Phe Leu Tyr Phe Leu 

        435                 440                 445             





Thr Gly Pro Ser Lys Phe Ile Ser Val Gly Val Tyr Met Ile Pro Phe 

    450                 455                 460                 





Ala Leu Leu Leu Ala Pro Leu Pro Ile Val Ala Ala Ala Leu Ala Asp 

465                 470                 475                 480 





Gly Ser Arg Ser Met Glu Lys Thr Ala Asp Lys Leu Ile Gly Asp Gly 

                485                 490                 495     





Lys Thr Asp Gly Ile Ala Asp Ile Ser Gln Asn Lys Gly Gly Ser Trp 

            500                 505                 510         





Lys Trp Leu Arg Ala Ala Lys Val Leu Leu Val Val Gln Leu Trp Ala 

        515                 520                 525             





Val Leu Val Ser Leu Leu Pro Tyr Tyr Ile Thr Gln Ile Pro Asp Ala 

    530                 535                 540                 





Thr Pro Thr Gln Ser Thr Leu Ile Trp Val Val Leu Ser Ile Val Val 

545                 550                 555                 560 





Leu Ile Ser Leu Ser Val Leu Phe Gly Ser Pro Tyr Ser Thr Gly Val 

                565                 570                 575     





Glu Trp Lys Leu Leu Lys Ala Thr Met Ile Thr Ser Ile Ser Ile Gly 

            580                 585                 590         





Leu Gly Leu Met Ser Ile Ile Asn Phe Ala Thr Ala Gln Leu Gly Ala 

        595                 600                 605             





Leu Ile Val Ile Pro Met Cys Leu Phe Ser Arg Pro Leu Lys Ala Ser 

    610                 615                 620                 





Gly Met Asn Phe Leu Pro Arg Ala Val Leu Leu Ala Ser Asn Val Ala 

625                 630                 635                 640 





Phe Ala Val Leu Gly Phe Pro Pro Val Ala Leu Leu Ile Met Lys Gly 

                645                 650                 655     





Val Ser Lys Gly Ser Arg Ser Trp Thr Ile Asp Val Gly Asp Phe Trp 

            660                 665                 670         





Val Trp Met Glu Phe Leu Trp Glu Arg Ser Ser Ala Thr Tyr Leu Tyr 

        675                 680                 685             





Leu Phe Leu Val His Leu Pro Cys Trp Leu Leu Cys Val Leu Val Phe 

    690                 695                 700                 





Leu His Pro Cys His Gln Ser Glu Tyr Lys Leu Lys Gln Glu 

705                 710                 715             





<210>  564

<211>  491

<212>  PRT

<213>  Sorghum bicolor



<400>  564



Met Lys Thr Arg Ser Ser Ala Arg Gly Glu Pro Arg Arg Leu Gly Asn 

1               5                   10                  15      





Ala Ala Leu Leu Ala Leu Met Leu Cys Ser Val Val Ala Leu Ser Leu 

            20                  25                  30          





Ile Arg Gly Arg Phe Ala Pro Ile Gly Ser Thr Ala Gly Asp Ala Ile 

        35                  40                  45              





Lys Ser Glu Asp Asp Ala Ala Ala Ala Ala Val Ala Val Ser Lys Ala 

    50                  55                  60                  





Ala Ala Val Asn Val Asp Thr Gly Asp Gly Ala Asp Glu Ala Ala Ala 

65                  70                  75                  80  





Glu Ala Ala Ala Glu Glu Lys Asp Lys Glu Glu Val Gln Pro Lys Pro 

                85                  90                  95      





Ala Ala Asp Gly Ser Arg Gly Gly Ala Ala Lys Pro Val Cys Tyr Glu 

            100                 105                 110         





Thr Ser Arg Arg Ser Asp Thr Cys Glu Ala Ala Gly Asp Val Arg Val 

        115                 120                 125             





Leu Gly Ser Ser Gln Thr Val Tyr Val Asp Ser Leu Asp Arg Glu Trp 

    130                 135                 140                 





Lys Thr Lys Pro Tyr Cys Arg Lys His Asp Asn Phe Ala Leu Ala His 

145                 150                 155                 160 





Val Lys Glu Trp Ser Leu Lys Pro Leu Pro Ser Gly Ala Ala Pro Gln 

                165                 170                 175     





Cys Thr Val Asn Ser Ser Ala Thr Ala Phe Val Leu Ser Thr Gly Gly 

            180                 185                 190         





Phe Thr Gly Asn Pro Phe His Asp Tyr Thr Asp Val Leu Ile Pro Ala 

        195                 200                 205             





Phe Ile Thr Ala His Pro Leu Arg Gly Glu Val Gln Phe Leu Val Ser 

    210                 215                 220                 





Ser Tyr Lys Ser Trp Trp Met Asn Arg Tyr Ile Gln Ile Phe Gln Gln 

225                 230                 235                 240 





Met Ser Arg His Glu Val Val Asp Ile Asp Ala Asp Asp Glu Val Arg 

                245                 250                 255     





Cys Tyr Arg Asn Val Val Val Gly Pro Thr Phe His Arg Glu Leu Gly 

            260                 265                 270         





Val Asp Ala Ser Lys Ser Pro Ser Pro Gly Tyr Ser Thr Ala Asp Phe 

        275                 280                 285             





Arg Lys Met Leu Arg Asp Ala Phe Gly Leu Glu Arg Ala Thr Ala Thr 

    290                 295                 300                 





Pro Ser Gly Asp Arg Trp Asp Ile Arg Arg Arg Pro Arg Leu Leu Ile 

305                 310                 315                 320 





Ile Ser Arg Arg Pro Ser Arg Gly Arg Ala Phe Met Asn Glu Arg Ala 

                325                 330                 335     





Met Ala Asp Met Ala Ala Ser Leu Gly Phe Asp Val Arg Ile Gly Glu 

            340                 345                 350         





Pro Asp Ser Ser Thr Asp Thr Ser Lys Phe Ala Arg Leu Val Asn Ser 

        355                 360                 365             





Ala Asp Val Met Val Gly Val His Gly Ala Gly Leu Thr Asn Met Val 

    370                 375                 380                 





Phe Leu Pro Ala Gly Ala Val Val Val Gln Val Val Pro Tyr Gly Arg 

385                 390                 395                 400 





Leu Glu Trp Leu Ala Arg Asn Thr Phe Ala Glu Pro Ser Ala Gly Met 

                405                 410                 415     





Glu Val His Tyr Leu Glu Tyr Val Val Gln Leu Asp Glu Thr Thr Leu 

            420                 425                 430         





Ser Glu Gln Tyr Pro Ser Asp His Pro Val Leu Arg Asp Pro Met Ala 

        435                 440                 445             





Ile His Lys Gln Gly Trp Asn Ala Leu Lys Thr Thr Tyr Leu Asp Lys 

    450                 455                 460                 





Gln Asn Val Arg Pro His Leu Gly Arg Leu Lys Asn Thr Phe Leu Gln 

465                 470                 475                 480 





Ala Leu Lys Met Leu Pro His Gly Arg Asp Asp 

                485                 490     





<210>  565

<211>  327

<212>  PRT

<213>  Zea mays



<400>  565



Met Pro Arg Pro Pro Thr Met Val Ile Gln Asp Asp Tyr Ile Asp Met 

1               5                   10                  15      





Asp Leu Thr Pro Ala Ala Thr Pro Glu Pro Ser Pro Ala Ser Pro Arg 

            20                  25                  30          





Phe Glu Phe Gln Ser Ala Gly Ala Gly Ala Ala Gly Asp Arg His Arg 

        35                  40                  45              





Glu Ala Ala Phe Ala Ser Pro Ala Asp Glu Leu Phe Tyr Lys Gly Asn 

    50                  55                  60                  





Leu Leu Pro Leu His Leu Pro Pro Arg Leu Gln Leu Val Gln Arg Leu 

65                  70                  75                  80  





Leu Gln Asp Gln Glu Gln Pro Pro Pro Leu Arg Gly Ala Lys Arg Asp 

                85                  90                  95      





Ala Glu Ser Asp Ala Thr Ala Ala Ala Ala Ala Glu Arg Gly Asp Ala 

            100                 105                 110         





Asp Ala Ala Ala Ala Ala Ser Lys Val Cys Ala Ala Lys Lys Pro Ser 

        115                 120                 125             





Trp Ala Lys Lys Leu Lys Val Val Lys Arg Trp Ala Ser Lys Glu Tyr 

    130                 135                 140                 





Ile Arg Ser Leu Phe Leu Ala Arg Pro Pro Leu Pro Ser Asp Ile Val 

145                 150                 155                 160 





Ala Ala Ala Gly Gly Ala Ser Ala Ser Gly His Gly Ile Gly Ser Val 

                165                 170                 175     





Ser Ala Arg Gly Ser Val Leu Glu Gln Glu Glu Val Cys Gln Cys Gln 

            180                 185                 190         





His Arg Lys Ser Phe Ser Gly Ile Ile Arg Arg Val Arg Leu Val Ala 

        195                 200                 205             





Thr Lys Ala Pro Gly Thr Ser Pro Leu Cys Ser Ser Ser Ser Ser Ser 

    210                 215                 220                 





Ser Ser Ser Ser Thr Pro Ser Cys Arg Asn Ala Asn Gly Phe Phe Phe 

225                 230                 235                 240 





Arg Thr Pro Ala Ser Ala Ala Gly Ala Thr Pro Ala Leu Lys Arg Ser 

                245                 250                 255     





Ser Ser Ala Gly Ser Ser Glu Glu Gly Ala Ile Gln Gly Ala Ile Ala 

            260                 265                 270         





His Cys Lys Arg Ser Gln Leu Leu Gln Pro Gly Met Val Ala Ser Ala 

        275                 280                 285             





Ala Ala Arg Arg Ser Val Ser Asp Val Met Phe Tyr Ser Val Thr Asn 

    290                 295                 300                 





Thr Pro Arg Ala Ser Ser Val Thr Ala Gly Glu Val Ala Gln Glu Arg 

305                 310                 315                 320 





Arg Gln Glu Met Cys Arg Gly 

                325         





<210>  566

<211>  284

<212>  PRT

<213>  Zea mays



<400>  566



Met Arg Cys Lys Lys His Pro Tyr Gln Val Gly Gly Gly Gly Val Cys 

1               5                   10                  15      





Ala Thr Cys Leu Arg Asp Arg Leu Ile Ala Leu Glu Ala Ala Gln Asn 

            20                  25                  30          





Gly Asp Ala Ser Ser Ser Pro Pro Pro Pro Ala Ala Ala Pro Ala Phe 

        35                  40                  45              





Pro Arg Ser Val Ser Pro Tyr Val Ser Arg Arg Lys Ser Asp Thr Ser 

    50                  55                  60                  





Gly Gly Gly Gly Ala Leu Arg His His Pro Ser Leu Leu Phe Phe Arg 

65                  70                  75                  80  





Thr Pro Gln Val Gly Pro Ala Tyr Gly Gly Gly Ala Leu Glu Glu Gly 

                85                  90                  95      





Asp Ile Gly Tyr Glu Tyr Lys Arg Arg Arg Ala Gly Lys Phe Ser Val 

            100                 105                 110         





Leu Ala Thr Leu Phe Gly His His His Gly His Arg Ser Glu Glu Thr 

        115                 120                 125             





His Gln Glu Gly Ala Thr Glu Arg Lys Lys His Ser Trp Phe Ala Ala 

    130                 135                 140                 





Ile Met Pro Arg Arg Arg Lys Lys Gln Ala Ala Pro Ala Ser Ile Thr 

145                 150                 155                 160 





Ser Pro Arg Ser Ala Pro Pro Arg Arg Ser Cys Arg Val Val Ser Asn 

                165                 170                 175     





Arg Gly Leu Ser Pro Glu Arg Asp Ser His Gly Ser Gly Asp Glu Ser 

            180                 185                 190         





Ser Ser Pro Ala Ala Asp Pro Pro Trp Arg Pro Ser Pro Ser Pro Met 

        195                 200                 205             





Arg Arg Thr Arg Cys Arg Arg Arg Gln Thr Asn Ser Met Pro Ser Gly 

    210                 215                 220                 





Phe Ala Val Cys Leu Ser Pro Leu Val Arg Pro Ser Pro Gly Arg Arg 

225                 230                 235                 240 





Arg His Val Gln Pro Pro Asp Pro Gly Ser Phe Ser Ser Glu Phe Arg 

                245                 250                 255     





Pro Ser Pro Leu His Ser Leu Ser Ser Ala Ala Ser Val Thr Arg Cys 

            260                 265                 270         





Arg Ser Arg Lys Leu Ala Asp Val Gly Arg Phe Arg 

        275                 280                 





<210>  567

<211>  199

<212>  PRT

<213>  Zea mays



<400>  567



Met Ser Leu Leu Gly Ser Leu Pro Ser Ala Met Ala Thr Ser Thr Thr 

1               5                   10                  15      





Phe Ser Cys Arg Cys Phe Ser Ser Gly Ala Arg Pro Cys Val Gly His 

            20                  25                  30          





Ala Pro Gly Cys Arg Val Pro Ala Ser Cys Ala Leu Ala Pro Asn Pro 

        35                  40                  45              





Thr Arg Pro Pro Cys Ser Asp Arg Val Leu Gly Ser Ser Ser Ala Leu 

    50                  55                  60                  





Ser Cys Ala Gly Val Leu Tyr Ser Ile Phe Phe Pro Ser Ala Pro Trp 

65                  70                  75                  80  





Tyr Ser Leu Ala Ala Ala Arg Ala Leu Pro Cys Leu Leu Val Val Asp 

                85                  90                  95      





Ala Gly Arg Cys Pro Cys Arg Ala Pro Phe Ser Ser Pro Ala Ser Arg 

            100                 105                 110         





Ala Leu Arg Gly Arg Arg Ser Gln Pro Ser Thr His Arg Ala Pro Cys 

        115                 120                 125             





Arg Cys Ala Pro Ser Arg Leu His Ser Asp Arg Ala Leu Ala Ala Gly 

    130                 135                 140                 





Ala Arg Arg Pro Arg Leu Ser Cys Thr Leu Leu Arg Ser Ser Arg Ser 

145                 150                 155                 160 





Pro Leu Ser Ser Pro Cys Val Arg Ser His Val Pro Leu Leu Ala Val 

                165                 170                 175     





Leu Ala Val Tyr Val Ile Ala Gly Leu Val Ser Pro Thr Ile Val Met 

            180                 185                 190         





Leu Leu Phe Pro Ala Ala Pro 

        195                 





<210>  568

<211>  267

<212>  PRT

<213>  Zea mays



<400>  568



Met Ser Ser Gly Ser Phe Met Thr Ser Gln Gln Gly Thr Arg Phe Ser 

1               5                   10                  15      





Ser Phe Pro Val Pro Arg Pro Glu Pro Ser Trp Pro Gly Val Ile Lys 

            20                  25                  30          





Ser Glu Asp Ser Gly Ser Tyr Tyr Ala His Gln Arg His Pro Val Leu 

        35                  40                  45              





Ser Ser Arg Pro His Phe Ala Gly Gly Gly Ser Thr Pro Pro Ala Tyr 

    50                  55                  60                  





Ser Ser Lys Glu Gly Arg Arg Phe Pro Phe Leu Gln Asp Gly Cys Asp 

65                  70                  75                  80  





Gln Gln Gln Val Gly Gly Phe Ser Ala Gly Ala Gly Ala Gln Gln Leu 

                85                  90                  95      





Glu Val Ser Ser Thr Ser Thr Val Cys Gln Pro Leu Leu Lys Ala Ala 

            100                 105                 110         





Ala Ala Ala Ala Pro Pro Pro Pro Pro Glu Ser Ser Ser Ser Asn Lys 

        115                 120                 125             





Met Phe Ser Asp Gly Leu Ala Pro Ala Val Leu Asp Ser Asp Cys Ala 

    130                 135                 140                 





Leu Ser Leu Leu Ser Ser Pro Ala Asn Ser Ser Ser Val Asp Val Gly 

145                 150                 155                 160 





Arg Met Val Val His Gln Pro Ala Glu His Ile Pro Met Ala Gln Pro 

                165                 170                 175     





Leu Val Pro Gly Gly Leu Gln Gln Gln Gln Gln His His Pro Phe Gly 

            180                 185                 190         





Gly Ser Pro Ala Trp Phe Ala Cys Ser Gln Ala Gly Ser Ser Ala Val 

        195                 200                 205             





Ser Ala Gly Gly Phe Ala Cys Pro Pro Gly Val Glu Ser Glu Gln Leu 

    210                 215                 220                 





Asn Thr Val Leu Val Pro Ser Ser Asp Gly Gly Gly His Asp Met Asn 

225                 230                 235                 240 





Met Asn Tyr His Gly Ile Phe His Val Gly Gly Asp Gly Ser Ser Asp 

                245                 250                 255     





Gly Thr Ser Pro Ser Leu Pro Phe Ser Trp Gln 

            260                 265         





<210>  569

<211>  169

<212>  PRT

<213>  Zea mays



<400>  569



Met Thr Ala Ala Ala Arg Thr Thr Arg Ser Arg Leu Pro Trp Ala Glu 

1               5                   10                  15      





Asp Ile Asp Ala Asp Val Ala Pro Leu Ile Cys Glu Glu Ala Thr Ala 

            20                  25                  30          





Thr Gly Ser Ser Ser Ser Ala Gly Ser Glu Gln Val Ala Gly Trp Pro 

        35                  40                  45              





Ala Pro Ala Ser Ser Ala Ala Met Ser Ala Trp Met Thr Ala Val Ala 

    50                  55                  60                  





Ala Ser Arg Tyr Arg Val Gly Phe Arg Phe Ser Ser His Val Arg Pro 

65                  70                  75                  80  





Met Arg Trp Gln Ser Ser Arg Cys Ser Cys Phe Ala Phe Ala Asp Asp 

                85                  90                  95      





Val Ala Leu Leu Leu Pro Pro Ser Cys Ser Pro Gly Asn Pro Val Gln 

            100                 105                 110         





Gly Val Ser Lys Gln Ile Asn Ser Asp Gly Asn Phe Leu His Arg Glu 

        115                 120                 125             





Arg Thr Glu Ile Pro Ala Glu Val Lys Asp Thr Arg Leu Arg Glu Arg 

    130                 135                 140                 





Thr Gly Pro Pro Ala Met Ala Met Ala Val Leu Val Pro Ser Leu Ser 

145                 150                 155                 160 





Glu Gln Leu Ala His Ala Glu Ser Ala 

                165                 





<210>  570

<211>  491

<212>  PRT

<213>  Zea mays



<400>  570



Met Thr Leu Val Arg Met Pro Cys Arg Leu Cys Cys Phe Leu Leu Val 

1               5                   10                  15      





Val Ala Ala Ser Ala Val Ser Gly Arg Gly Arg Val Val Thr Thr Leu 

            20                  25                  30          





Pro Gly Tyr Glu Gly Arg Leu Pro Phe His Leu Glu Thr Gly Tyr Val 

        35                  40                  45              





Glu Val Asp Glu Asp Ala Gly Ala Glu Leu Phe Tyr Tyr Phe Val Arg 

    50                  55                  60                  





Ala Glu Ser Gly Ala Asp Asp Ser Asp Thr Pro Phe Val Leu Arg Ile 

65                  70                  75                  80  





Pro Gly Gly Gln Arg Cys Ser Ala Phe Ser Gly Leu Ala Tyr Glu Ile 

                85                  90                  95      





Gly Pro Ile Met Phe Val Val Glu Pro Tyr Asn Gly Ser Leu Pro Arg 

            100                 105                 110         





Leu Arg Tyr Asn Pro Asn Ser Trp Thr Lys Val Ala His Ile Leu Phe 

        115                 120                 125             





Val Asp Ser Pro Val Gly Ala Gly Phe Ser Phe Ser Arg Asp Ala Lys 

    130                 135                 140                 





Gly Tyr Asn Ala Gly Ala Val Ser Thr Thr Leu His Leu Ala Lys Phe 

145                 150                 155                 160 





Leu Asn Lys Trp Phe Asn Asp His Pro Glu Tyr His Ala Asn Pro Phe 

                165                 170                 175     





Tyr Ile Asp Gly Glu Ser Tyr Ala Gly Lys Ile Val Pro Phe Leu Ala 

            180                 185                 190         





Gln Met Ile Ser Glu Gly Ile Gly Ala Gly Met Lys Ser Ala Pro Arg 

        195                 200                 205             





Leu Lys Gly Tyr Leu Val Gly Asn Pro Ser Thr Glu Glu Arg Ile Asp 

    210                 215                 220                 





Val Ser Ala Arg Val Pro Cys Ala His Gly Phe Gly Ile Ile Ser His 

225                 230                 235                 240 





Gln Leu Tyr Glu Met Ile Leu Gly His Cys His Gly Glu Asp Tyr Ser 

                245                 250                 255     





Asn Pro Ala Lys Glu Leu Cys Gly Gln Ala Leu Lys Thr Phe Asn Asp 

            260                 265                 270         





Leu Thr Ser Glu Val Ala Gln Gly His Val Leu Gln Glu Lys Cys Val 

        275                 280                 285             





Ala Ala Ser Ser Ser Pro Val Leu Asn Ala Asn Ser Arg Val Ala Gly 

    290                 295                 300                 





Gly Ser Ser Ser Trp Ala Ser Asp Gly Arg Lys Ile Leu Arg Glu Glu 

305                 310                 315                 320 





Glu Met Val Gly Arg Arg Gly Val Leu Gly Lys Leu Phe His Pro Pro 

                325                 330                 335     





Ala Leu Pro Pro Phe Ser Cys Arg Val Tyr Arg Tyr Tyr Leu Ser Tyr 

            340                 345                 350         





Phe Trp Ala Asn Asp Arg Arg Thr Arg Asp Ala Leu Gly Ile Lys Glu 

        355                 360                 365             





Gly Thr Val Asp Glu Trp Val Arg Cys His Asn Asp Asp Gln Glu Leu 

    370                 375                 380                 





Pro Tyr Glu Ser Glu Leu Lys Ser Val Val Lys Tyr His Arg Asn Leu 

385                 390                 395                 400 





Thr Ser Arg Gly Tyr Arg Ala Met Val Tyr Ser Gly Asp His Asp Leu 

                405                 410                 415     





Leu Val Pro His Leu Gly Thr Gln Ala Trp Val Arg Ser Leu Asn Phe 

            420                 425                 430         





Pro Val Val Asp Asp Trp Arg Ala Trp His Leu Gly Gly Gln Ser Ala 

        435                 440                 445             





Gly Phe Thr Ile Thr Tyr Ser Asn Asn Met Thr Phe Ala Thr Ile Lys 

    450                 455                 460                 





Gly Ala Gly His Thr Ala Pro Glu Tyr Glu Pro Glu Arg Cys Phe Ala 

465                 470                 475                 480 





Met Phe Ser Arg Trp Ile Leu Asn Arg Pro Leu 

                485                 490     





<210>  571

<211>  492

<212>  PRT

<213>  Zea mays



<400>  571



Met Thr Leu Val Arg Met Pro Cys Arg Leu Cys Cys Phe Leu Leu Val 

1               5                   10                  15      





Val Ala Ala Ser Ala Val Ser Gly Arg Gly Arg Val Val Thr Thr Leu 

            20                  25                  30          





Pro Gly Tyr Glu Gly Arg Leu Pro Phe His Leu Glu Thr Gly Tyr Val 

        35                  40                  45              





Glu Val Asp Glu Asp Ala Gly Ala Glu Leu Phe Tyr Tyr Phe Val Arg 

    50                  55                  60                  





Ala Glu Ser Gly Ala Asp Asp Ser Asp Thr Pro Phe Val Leu Arg Ile 

65                  70                  75                  80  





Pro Gly Gly Gln Arg Cys Ser Ala Phe Ser Gly Leu Ala Tyr Glu Ile 

                85                  90                  95      





Gly Pro Ile Met Phe Val Val Glu Pro Tyr Asn Gly Ser Leu Pro Arg 

            100                 105                 110         





Leu Arg Tyr Asn Pro Asn Ser Trp Thr Lys Val Ala His Ile Leu Phe 

        115                 120                 125             





Val Asp Ser Pro Val Gly Ala Gly Phe Ser Phe Ser Arg Asp Ala Lys 

    130                 135                 140                 





Gly Tyr Asn Ala Gly Ala Val Ser Thr Thr Met His Leu Ala Lys Phe 

145                 150                 155                 160 





Leu Thr Lys Trp Phe Asn Asp His Pro Glu Tyr His Ala Asn Pro Phe 

                165                 170                 175     





Tyr Ile Asp Gly Glu Ser Tyr Ala Gly Lys Ile Val Pro Phe Leu Ala 

            180                 185                 190         





Gln Met Ile Ser Glu Gly Ile Glu Ala Gly Met Lys Ser Ala Pro Arg 

        195                 200                 205             





Leu Lys Gly Tyr Leu Val Gly Asn Pro Ser Thr Glu Glu Arg Ile Asp 

    210                 215                 220                 





Val Ser Ala Arg Val Pro Cys Ala His Gly Phe Gly Ile Ile Ser His 

225                 230                 235                 240 





Gln Leu Tyr Glu Met Ile Leu Gly His Cys His Gly Glu Asp Tyr Ser 

                245                 250                 255     





Asn Pro Ala Lys Glu Leu Cys Gly Gln Ala Leu Lys Thr Phe Asn Asn 

            260                 265                 270         





Leu Thr Ser Glu Val Ala Gln Gly His Val Leu Gln Glu Lys Cys Val 

        275                 280                 285             





Ala Ala Ser Ser Ser Pro Val Pro Asn Ala Asn Ser Arg Val Ala Gly 

    290                 295                 300                 





Gly Ser Ser Ser Trp Ala Ser Asp Gly Arg Lys Ile Leu Arg Glu Glu 

305                 310                 315                 320 





Glu Met Val Gly Arg Arg Gly Val Val Leu Gly Lys Leu Phe His Pro 

                325                 330                 335     





Pro Ala Leu Pro Pro Phe Ser Cys Arg Val Tyr Arg Tyr Tyr Leu Ser 

            340                 345                 350         





Tyr Phe Trp Ala Asn Asp Arg Arg Thr Arg Asp Ala Leu Gly Ile Lys 

        355                 360                 365             





Glu Gly Thr Val Asp Glu Trp Val Arg Cys His Asn Asp Asp Gln Glu 

    370                 375                 380                 





Leu Pro Tyr Glu Ser Glu Leu Lys Ser Val Val Lys Tyr His Arg Asn 

385                 390                 395                 400 





Leu Thr Ser Arg Gly Tyr Arg Ala Leu Val Tyr Ser Gly Asp His Asp 

                405                 410                 415     





Leu Leu Val Pro His Leu Gly Thr Gln Ala Trp Val Arg Ser Leu Asn 

            420                 425                 430         





Phe Pro Val Val Asp Asp Trp Arg Ala Trp His Leu Gly Gly Gln Ser 

        435                 440                 445             





Ala Gly Phe Thr Thr Thr Tyr Ser Asn Asn Met Thr Phe Ala Thr Ile 

    450                 455                 460                 





Lys Gly Ala Gly His Thr Ala Pro Glu Tyr Glu Pro Glu Arg Cys Phe 

465                 470                 475                 480 





Ala Met Phe Ser Arg Trp Ile Leu Asn Arg Pro Leu 

                485                 490         





<210>  572

<211>  516

<212>  PRT

<213>  Zea mays



<400>  572



Met Thr Ser Ile Val Trp Ser Val Tyr Thr Leu Ser Arg Ser Trp Pro 

1               5                   10                  15      





Ala Val Ser Ile Asn Ala Arg Cys Met His Gly Val Cys Arg His Gly 

            20                  25                  30          





Ile Arg Gln Ile Arg Thr Gly Trp Ala Asp Gly Pro Glu Phe Val Thr 

        35                  40                  45              





Gln Cys Pro Ile Arg Pro Gly Gly Ser Tyr Lys Tyr Arg Phe Thr Ile 

    50                  55                  60                  





Gln Gly Gln Glu Gly Thr Leu Trp Trp His Ala His Ser Ser Trp Leu 

65                  70                  75                  80  





Arg Ala Thr Val Tyr Gly Ala Leu Ile Ile Arg Pro Arg Glu Asn Lys 

                85                  90                  95      





Thr Tyr Pro Phe Ala Lys Pro Ser Arg Glu Val Pro Val Ile Leu Gly 

            100                 105                 110         





Glu Trp Trp Asp Ala Asn Pro Ile Asp Val Ile Arg Glu Ala Gln Arg 

        115                 120                 125             





Thr Gly Gly Gly Pro Asn Val Ser Asp Ala Phe Thr Ile Asn Gly Gln 

    130                 135                 140                 





Pro Gly Asp Leu Tyr Lys Cys Ser Asn Lys Glu Thr Thr Ala Ile Pro 

145                 150                 155                 160 





Val Lys Ala Gly Glu Thr Ala Leu Leu Arg Phe Ile Asn Ala Ala Leu 

                165                 170                 175     





Asn His Glu Leu Phe Val Thr Ile Ala Gln His Lys Met Thr Val Val 

            180                 185                 190         





Ala Thr Asp Ala Ser Tyr Thr Lys Pro Phe Thr Thr Ser Val Leu Met 

        195                 200                 205             





Leu Ala Pro Gly Gln Thr Thr Asp Val Leu Val Thr Met Asp Gln Pro 

    210                 215                 220                 





Pro Thr Arg Tyr Tyr Val Ala Ala Arg Ala Tyr Val Ser Gly Gln Asn 

225                 230                 235                 240 





Val Ala Phe Asp Asn Thr Thr Thr Thr Ala Val Leu Glu Tyr Asp Cys 

                245                 250                 255     





Gly Cys Ala Ser Asp Phe Gly Pro Lys Ile Gln Pro Ala Phe Pro Ala 

            260                 265                 270         





Ala Leu Pro Ala Phe Asn Asp Thr Ser Ala Ala Thr Ala Phe Ala Ala 

        275                 280                 285             





Gly Ile Arg Ser Pro Asp Arg Val Lys Val His Glu Asn Val Asp Glu 

    290                 295                 300                 





Tyr Leu Phe Phe Thr Val Gly Leu Gly Leu Phe Asn Cys Lys Pro Gly 

305                 310                 315                 320 





Gln Leu Cys Ala Gly Pro Asn Asn Asn Thr Arg Phe Ala Ala Ser Met 

                325                 330                 335     





Asn Asn Val Ser Phe Val Phe Pro Gln Thr Asp Ser Leu Leu His Ala 

            340                 345                 350         





His Tyr Tyr Lys Ile Pro Gly Val Phe Thr Thr Asp Phe Pro Ala Tyr 

        355                 360                 365             





Pro Pro Val Gln Phe Asp Tyr Thr Gly Gln Asn Val Ser Gln Ala Leu 

    370                 375                 380                 





Trp Gln Pro Val Pro Ala Thr Lys Leu Tyr Pro Leu Arg Phe Gly Ser 

385                 390                 395                 400 





Val Val Gln Leu Val Leu Gln Asp Thr Ser Ile Val Thr Pro Glu Asn 

                405                 410                 415     





His Pro Ile His Ile His Gly Tyr Asp Phe Phe Ile Leu Ala Glu Gly 

            420                 425                 430         





Phe Gly Asn Phe Asp Pro Lys Lys Asp Val Glu Lys Phe Asn Tyr Val 

        435                 440                 445             





Asp Pro Pro Gln Arg Asn Thr Val Ala Val Pro Val Asn Gly Trp Ala 

    450                 455                 460                 





Val Ile Gln Phe Val Ala Asp Asn Pro Gly Val Trp Leu Met His Cys 

465                 470                 475                 480 





His Leu Asp Val His Ile Thr Trp Gly Leu Ala Met Ala Phe Leu Val 

                485                 490                 495     





Glu Asp Gly Tyr Gly Glu Leu Gln Ser Leu Glu Pro Pro Pro Val Asp 

            500                 505                 510         





Leu Pro Met Cys 

        515     





<210>  573

<211>  506

<212>  PRT

<213>  Sorghum bicolor



<400>  573



Met Val Ala Ser Ala Lys Gly Arg Leu Val Ser Val Leu Ala Val Ala 

1               5                   10                  15      





Ala Ala Leu Ala Ala Val Leu Leu Tyr Arg Ala Pro Phe Ser Lys Ser 

            20                  25                  30          





Leu Gly Gly Glu Gly Cys Ser Leu Leu Pro His Asp His Phe Trp Val 

        35                  40                  45              





Ala Ser Asp Arg Val Val Thr Leu Gly Arg Val Gly Pro Ala Ala Val 

    50                  55                  60                  





Glu Val Lys Gly Gly Leu Ile Asn Ala Ile Ala Val Gly Asp Tyr Arg 

65                  70                  75                  80  





Ser Phe Val Leu Arg Arg Pro Leu Leu Asp Tyr Gly Asp Ala Val Ile 

                85                  90                  95      





Met Pro Gly Leu Ile Asp Val His Ala His Leu Asp Glu Pro Gly Arg 

            100                 105                 110         





Ala Glu Trp Glu Gly Phe Ser Thr Gly Thr Arg Ala Ala Ala Ala Gly 

        115                 120                 125             





Gly Ile Thr Thr Leu Val Asp Met Pro Leu Asn Ser Phe Pro Ser Thr 

    130                 135                 140                 





Val Ser Glu Glu Thr Leu Lys Leu Lys Leu Glu Ala Ala Gln Asp Lys 

145                 150                 155                 160 





Leu Tyr Val Asp Val Gly Phe Trp Gly Gly Leu Val Pro Glu Asn Ala 

                165                 170                 175     





Phe Asn Pro Ser Ala Leu Glu Gly Leu Leu Asn Ala Gly Val Leu Gly 

            180                 185                 190         





Leu Lys Ser Phe Met Cys Pro Ser Gly Ile Asn Asp Phe Pro Met Thr 

        195                 200                 205             





Asn Ser Thr His Ile Glu Glu Gly Leu Val Thr Leu Ala Lys Tyr Lys 

    210                 215                 220                 





Arg Pro Leu Leu Ile His Ala Glu Arg Ile Pro Glu Ala Glu Asp Asp 

225                 230                 235                 240 





Asp Met Arg Glu Asp Glu Leu Asp Pro Arg Ser Tyr Met Thr Tyr Leu 

                245                 250                 255     





Lys Ser Arg Pro Pro Ser Trp Glu Glu Ser Ala Ile Arg Asp Leu His 

            260                 265                 270         





Arg Ala Met Lys Asp Thr Glu Ser Gly Gly Arg Ser Glu Gly Ala His 

        275                 280                 285             





Ile His Ile Val His Leu Ser Asp Ala Lys Thr Ser Leu Glu Leu Met 

    290                 295                 300                 





Lys Asp Ala Lys Arg Ser Gly Ala Ser Leu Ser Ile Glu Thr Cys Pro 

305                 310                 315                 320 





His Tyr Leu Ala Phe Ser Ser Glu Glu Val Pro Asp Gly Asp Thr Arg 

                325                 330                 335     





Phe Lys Cys Ser Pro Pro Ile Arg Asp Asp Thr Asn Arg Glu Asn Leu 

            340                 345                 350         





Trp Lys Ala Leu Leu Asp Gly His Ile Asp Met Leu Ser Ser Asp His 

        355                 360                 365             





Ser Pro Ser Thr Pro Asp Leu Lys Leu Met Glu Glu Gly Asn Phe Leu 

    370                 375                 380                 





Arg Ala Trp Gly Gly Ile Ser Ser Leu Gln Phe Val Leu Pro Val Thr 

385                 390                 395                 400 





Trp Ser Tyr Gly Arg Lys Tyr Gly Ile Thr Leu Asn Gln Leu Ser Ser 

                405                 410                 415     





Trp Trp Ser Glu Asn Pro Ala Lys Leu Ala Gly Gln Lys Asn Lys Gly 

            420                 425                 430         





Ala Ile Leu Pro Gly Tyr His Ala Asp Ile Val Val Trp Lys Pro Glu 

        435                 440                 445             





Thr Glu Phe Gln Leu Asp Asp Ser His Val Ile Tyr His Lys His Gln 

    450                 455                 460                 





Asn Ile Ser Ala Tyr Leu Gly Lys Gln Leu Ser Gly Lys Val Leu Ser 

465                 470                 475                 480 





Thr Phe Val Arg Gly Asn Leu Val Phe Ala Glu Asp Lys His Ala Asn 

                485                 490                 495     





Val Ala Cys Gly Val Pro Ile Leu Ala Lys 

            500                 505     





<210>  574

<211>  368

<212>  PRT

<213>  Sorghum bicolor



<400>  574



Met Val Met Gly Ala Ser Gly Ser Lys Leu Glu Lys Ala Leu Gly Asp 

1               5                   10                  15      





Gln Phe Pro Glu Gly Glu Arg Tyr Phe Gly Leu Glu Asn Phe Gly Asn 

            20                  25                  30          





Thr Cys Tyr Cys Asn Ser Val Leu Gln Ala Leu Tyr Phe Cys Ile Pro 

        35                  40                  45              





Phe Arg Glu Gln Leu Leu Glu Tyr Tyr Ala Asn Asn Lys Thr Pro Gly 

    50                  55                  60                  





Asp Ala Glu Glu Asn Leu Leu Thr Cys Leu Ala Asp Leu Phe Met Gln 

65                  70                  75                  80  





Ile Ser Gln Ala Lys Lys Lys Thr Gly Val Ile Ala Pro Lys Arg Phe 

                85                  90                  95      





Val Gln Arg Val Lys Lys Gln Asn Glu Leu Phe Arg Ser Tyr Met His 

            100                 105                 110         





Gln Asp Ala His Glu Phe Leu Asn Phe Leu Leu Asn Glu Leu Val Asp 

        115                 120                 125             





Ile Leu Glu Lys Glu Ser Ser Ala Ala Lys Asp Ser Pro Gln Leu Ser 

    130                 135                 140                 





Ser Pro Glu Lys Ala Pro Asn Gly Pro Val Gln Pro Leu Ala Asn Gly 

145                 150                 155                 160 





Val Lys Lys Glu Pro Pro Val Thr Leu Val His Lys Asn Phe Gln Gly 

                165                 170                 175     





Ile Leu Thr Asn Glu Thr Arg Cys Leu Arg Cys Glu Thr Val Thr Ala 

            180                 185                 190         





Arg Asp Glu Thr Phe Leu Asp Leu Ser Val Asp Ile Glu Gln Asn Ser 

        195                 200                 205             





Ser Ile Thr Ser Cys Leu Lys Asn Phe Cys Ser Thr Glu Thr Leu Asn 

    210                 215                 220                 





Ala Glu Asp Lys Phe Phe Cys Asp Lys Cys Cys Ser Leu Gln Glu Ala 

225                 230                 235                 240 





Gln Lys Arg Met Lys Ile Lys Lys Ala Pro His Ile Leu Val Ile His 

                245                 250                 255     





Leu Lys Arg Phe Lys Tyr Ile Glu Gln Leu Gly Arg Tyr Lys Lys Leu 

            260                 265                 270         





Ser Tyr Arg Val Val Phe Pro Met Glu Leu Lys Leu Ser Asn Thr Ser 

        275                 280                 285             





Asp Asp Val Asp Thr Glu Tyr Ser Leu Phe Ala Val Val Val His Val 

    290                 295                 300                 





Gly Ser Gly Pro Asn His Gly His Tyr Val Ser Leu Val Lys Ser His 

305                 310                 315                 320 





Asn His Trp Leu Phe Phe Asp Asp Glu Asn Val Glu Met Val Glu Glu 

                325                 330                 335     





Gln Thr Leu Gln Thr Phe Phe Gly Ser Ser His Glu Tyr Ser Gly Asn 

            340                 345                 350         





Thr Asp His Gly Tyr Ile Leu Phe Tyr Glu Gly Leu Gly Gly Lys Ser 

        355                 360                 365             





<210>  575

<211>  329

<212>  PRT

<213>  Zea mays



<400>  575



Pro Ser Thr Ala Pro Ala Pro Ala Arg Cys Gln Val Asp Gly Cys Asn 

1               5                   10                  15      





Val Asp Leu Thr Asp Val Lys Pro Ala Tyr Tyr Cys Arg His Lys Val 

            20                  25                  30          





Cys Lys Met His Ser Lys Glu Pro Arg Val Leu Val Asn Gly Leu Glu 

        35                  40                  45              





Gln Arg Phe Cys Gln Gln Cys Ser Arg Phe His Gln Leu Pro Glu Phe 

    50                  55                  60                  





Asp Gln Leu Lys Lys Ser Cys Arg Lys Arg Leu Ala Gly His Asn Glu 

65                  70                  75                  80  





Arg Arg Arg Arg Pro Pro Pro Gly Pro Leu Ala Ser Arg Tyr Gly Arg 

                85                  90                  95      





His Ala Ala Ser Leu Gly Glu Pro Gly Arg Leu Arg Ser Phe Met Leu 

            100                 105                 110         





Asp Phe Ser Tyr Pro Arg Val Ser Ser Ala Met Arg Gly Gly Phe Pro 

        115                 120                 125             





Ala Val Arg Pro Gly Gly Glu Arg Val Pro Gly Gly Ile Gln Trp Gln 

    130                 135                 140                 





Ala Gly Leu Asp Pro Arg His His Gln Gly Ala Val Ala Gly Tyr Gly 

145                 150                 155                 160 





Ala His Tyr Gly Ser Glu Gly Gly Ser Ser Ser Ser Ala Arg Pro Pro 

                165                 170                 175     





Val Phe Pro Gly Pro Glu Leu Pro Pro Gly Gly Cys Leu Ala Gly Val 

            180                 185                 190         





Pro Ala Asp Ser Ser Cys Ala Leu Ser Leu Leu Ser Thr Gln Pro Trp 

        195                 200                 205             





Asp Ala Ala His Ser His Ser His Ser His Ala Ala Pro Thr Ala Gly 

    210                 215                 220                 





Phe Asp Gly Gly Ser Pro Val Ala Pro Ser Leu Met Ala Ala Ser Ser 

225                 230                 235                 240 





Tyr Ile Ala Pro Ser Pro Trp Thr Glu Thr Asp Ser Trp Gly His Glu 

                245                 250                 255     





Gly Gly Arg Ser Val Pro Gln Leu Pro Pro Asp Asp Val Pro Leu Gly 

            260                 265                 270         





Glu Val His Ser Gly Ser Ser Ser His His Gly Gln Phe Ser Gly Glu 

        275                 280                 285             





Leu Glu Leu Ala Leu Gln Gly Asn Arg Pro Ala Pro Gly Ser Ala Ala 

    290                 295                 300                 





Pro Pro Ala Pro Arg Asn Asn Gln Gly Ser Ala Gly Thr Phe Asp Gln 

305                 310                 315                 320 





Ala Gly Asn Thr Met Asp Trp Ser Leu 

                325                 





<210>  576

<211>  2718

<212>  DNA

<213>  Sorghum bicolor



<400>  576

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga tccccaactt ctccagcgcc     2520



ttccaccagg ccaaaggcag ggcatgaatc aacttcttcc tccatttgtt gattgatttg     2580



ccaaaccaga ctgagtgtct gtgtacgctg atatatataa attgtgtatg tatgcatata     2640



tgtccatggc gcatgcacat tcattttgtt gatccgtgcg tctttgtgtt tataaaacca     2700



ccattccatt gatttggg                                                   2718





<210>  577

<211>  2483

<212>  DNA

<213>  Sorghum bicolor



<400>  577

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aggtcttgca aggtcaagaa ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatctga     2220



tctgttggaa aagttgtcct gaaggctgta ttgtgtagtg tggatagtca ggtggttgat     2280



gatccggtat gatgaaggtg gatggatcaa cgacgctgat caaacatgta tcctagttgt     2340



agctgttaga gcactttgta tgacaaccgt gagtgctcca tgttatcagc atttgttgct     2400



gcttacaact tgcctctatg tttataagcc gtatgctatg acaaacccat ttatagagtg     2460



tttatttgca ttggcatagt tct                                             2483





<210>  578

<211>  2418

<212>  DNA

<213>  Sorghum bicolor



<400>  578

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat aagaactgct     1560



ggcatgtatc aacctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatctgat ccatatggcg ttcttgtaga cgatgcagaa atgacaaccg actgcaactt     2160



tcatggcctg aaccacatcc tggatgaaag atagctaaaa ggtgaccaga tgattcttgg     2220



aacacggatg tttgacaaat ttgtaatgtt cttttgggct ttgaatatct tattatttta     2280



agcttcctag taatcagcac ttgtatctta aggtgcgcgt tatcgcaagt tcttttagag     2340



ggcttgtttg gattagcacc atttcccaat tactcgtcgc attgtttttt ttgcccccgg     2400



taaacaagcc cgtttctt                                                   2418





<210>  579

<211>  1839

<212>  DNA

<213>  Zea mays



<400>  579

ctgattctga ttctgattcc agccaccctg accggcgaag cgcggctgac atttcccccc       60



caccataccg ccaccacctg agaagagatc gatccaatca gattaaccaa ttagcaggga      120



gggaggagag gggcaaaggc aatggccggg acggaggtgg aggacccgcc ggcggcggcg      180



ttggaggtgc ccgcgaaacg cggccttctg cggtacaact cgccgctggc gcaggtgtcc      240



ctgctgggcc tcatctgctt ctgctgcccc ggcatgttca acgcgctgtc gggcctcggc      300



ggcggaggcc aggtcgaccc caccatcgcc gacaacgcca acaccgcgct ctacgcctgc      360



ttcgcggtgt tcggcgtgct gggcggcgcc gcgcacaacc tgctgggccc gcgcgcgacg      420



ctgctggccg gcgcgctcac gtacccgctc tacgccggct ccttcctcta ctacaaccac      480



cgcccgggct cgcaggtgtt ccccgtcacg gcgggcgccc tgctcggcgc cggcgcgggc      540



ttcctctggg cggcgcaggg cgccgtcatg acgtcgtacc cgccgcccaa ccgccggggc      600



acctacatct ccctcttctg gtgcctcttc aacctgggcg gcgtcctcgg cggcctcctc      660



cctttcgccc tcaactacaa ccgcggggac aagaaaggga gcgtcagcga cggcacgtac      720



atcgccttca tggcattcat gctcgtcggc gccgcgctca ccgtgctcgt gctgccgccc      780



gccaggatcg tccgcgacga cggcaccagg gccaccaggg tcaccttctc ctccccggcc      840



accgagggcg ccgagatcct caagctcttc gccaactgga agatgctgct cgcgctgccg      900



gccgcctggg ccagcaactt cttctacacc taccagttca acaacgtcaa cagcggcctc      960



ttcacgctcc gcaccagggg cctcaacaac gtcttctact ggggcgcgca gatgatcggc     1020



tccgccggca tcggctactt cctcgacttc ggcttcgcca gccgccgaaa gagggggctg     1080



ttcggggtcg ccgccgtcgc cgccgtcgga acggccatct ggggaggcgg tctggccaac     1140



cagctcagct acaatgccgt gccggtgccc gaccccatcg atttcaagga cggccaccgc     1200



tacgccgggc ccttcctgct ctacttcagc tacggactgc tagatgccat gttccagagc     1260



cttatctact ggatcatcgg cgcactcgcc aacgactccc aaatcctcag caggtacgtc     1320



gggttctaca agggggtgca gagtgcggga gcggcggtgg catggcaggt ggacaggcgc     1380



cacacgcccc tcatgtccca gctgatcgtc aactgggggc tcatgaccat cagctacccc     1440



ttgcttgcgc tgctggtgtt cctggccgtg aaggacgaga gctactcggt ttcgtcggtg     1500



gaggacggcc gggagaagga cagcaagctg tccgcgccga ccagcttcca ctgatgaaga     1560



agaagaagga tagaccaaga tgcacgtcac tgtaattgta acacggtgtt tccatccaag     1620



taagttttag tagtagaaat caagaaacaa ctggagcata ctcagggtgt ggcgttcgtt     1680



tttaagtaag ttgtagtagt attcgttttg gtgattgtta tttattatag cacctctggg     1740



ttagcttgag catcatgctt ccttgtcagt ggtgtgacca agaaattgga tagaatctat     1800



atgaaggaat tcttttgcta tttaaaattg ttctctctc                            1839





<210>  580

<211>  2096

<212>  DNA

<213>  Zea mays



<400>  580

gcaactctgg atagctgctt atcggagcct agagctagag gttgaaccag tccatcatca       60



actagcgtgg ccggccatgg cgatctcctc tgctcttcca tgctcctccc tcctcatggc      120



ggctgcccaa ctgaagctcc tcgcctccgt tgtcgtccaa gtgcaaggca tcacgaggca      180



ctacgacttc aatgtgacca tggcgaacgt gacgcggctg tgcgccacca agagcatcgt      240



cacggtgaac gggcagttcc ccggccccaa gatcgtcgcg agggaaggcg accgcctcat      300



catccgcgtc accaaccagg cccagcacaa catctcgctg cactggcacg gtatccggca      360



gctgcgcacg gggtgggcgg acgggccggc gtacatcacg cagtgcccga tccagacggg      420



gcagagctac gtgtacaact acaccgtcgc cgggcagcgc ggcacgctgt ggtggcacgc      480



gcacatctcc tggctgcgcg ccaccgtcta cgggcccctc gtcgtcctgc ccaggcccgg      540



cgtcccctac ccgttcccgg cgccgtacaa ggaggtcccc gtcatcttcg gtgagtggtg      600



gctggcggac acggaggtgg tggtcgagca ggcgctccag ctcggcgctg gcccgaacgt      660



ctccgacgcc cacaccatca acggcctgcc aggaccgctc tacaattgct ctgccaaaga      720



cacgtacaag ctgaaggtga agccagggaa gacgtacatg ctccgcctca tcaacgcggc      780



gctcaacgac gagctcttct tctccgtcgc caaccactcg ctcaccgtcg tcgaggtcga      840



cgccgtctac gtcaagccct tcaccgtcga caccctgccc atcgccccgg gccagaccac      900



caacgtgctc ctcgcagcca agcccttcta cccgggcgcc aactactaca tgtccgccaa      960



gccctactcc accgccaggc cggccacctt cgacaacacc accgtcgccg gcatcctcga     1020



gtacgagtac cccgacgcgc catcctcctc cgcggcgagc ttcgacaagg ccctgccgct     1080



ccacaggccg accctgccgc agctgaacga caccagcttc gtcggcaact tcacggccaa     1140



gctccgcagc ctcgcgacgc cgcagtaccc ggcggccgtg ccgcggacgg tggacagagc     1200



gttcttcttc acggtggggc tcggcacgca cccgtgcccc gggaacgcca cgtgcctggg     1260



ccccaccaac acgacgcagt tcgcggcggc cgtgaacaac gtctccttcg tgctcccgac     1320



cagggcgctc ctgcactcgc acttcgccgg cctgtccagc ggcgtctact cgtcggactt     1380



ccccgtcgcg cccctcacgc cgttcaacta cacggggacg ccgccaaaca acaccaacgt     1440



ggccagcggg accaagctga tggtcgtccc gtacggcgcc aacgtggagc tggtgttgca     1500



gggcaccagc atcctcggcg tcgagagcca cccgctgcac ctgcacggct tcaacttctt     1560



cgtcgtcggc caaggctacg gcaactacga cccggtgaac gacccgccca agttcaacct     1620



cgtcgacccc gtcgagcgga acaccgtcgg cgtgccagcc ggcggctggg tggccatccg     1680



cttccttgcc gacaaccccg gggtatggtt catgcactgt cacttggagg tgcacacaac     1740



atggggcctc aggatggcat ggttggtgct cgacggcagc ctcccgcacc agaagctgct     1800



cccaccgccg tccgatcttc ccaaatgttg attagactcc cctctatata tcctgtgctg     1860



gtcgcttcaa agggaactgt gaattagact tgatcacaat gttgattttt ttgtttactt     1920



tcttcattgc caattgcaat tctttcaact tccattttaa ctagtccgtt ctattcccat     1980



ctgacctgga ctttttgtaa ttttttcttc catttgctta ccaccctgta atgataaatg     2040



tgtttggtac actattttga gaacaacgaa tggcgcggct tgcaccagag atccat         2096





<210>  581

<211>  2192

<212>  DNA

<213>  Zea mays



<400>  581

aacacacaca tcgttcttct tcttcttcct ccgtctcttc gatcgcctgg ccggccgtgt       60



cgtcccccct ctactagacc tcaagagcaa ctctggatag ctgcttatcg gagcctagag      120



ctagaggttg aaccagtcca tcatcaacta gcgtggccgg ccatggcgat ctcctctgct      180



cttccatgct cctccctcct catggcggct gcccaactga tgctcctcgc ctccgtcgtc      240



gtccaagtgc aaggcatcac gaggcactac gacttcaatg tgaccatggc gaacgtgaca      300



cggctgtgcg ccagcaagag catcatcacg gtgaacgggc agttccccgg gcccaagatc      360



gtggcgaggg aaggcgaccg gctcgtcatc cgcgtcacca accacgccca gcacaacatc      420



tcgctgcact ggcacggcat ccggcagctg cgcacggggt gggcggacgg gccggcgtac      480



atcacgcagt gcccgatcca gacggggcag agctacgtgt acaactacac cgtcgtgggg      540



cagcgcggca cgctgtggtg gcacgcgcac atctcctggc tgcgcgccac cgtctacggg      600



cccctcgtca tcctgcccaa gctcggcgtc ccctacccgt tcccggcgcc ctacaaggag      660



gtccccgtca tcttcggtga gtggtggctg gcggacacgg aggtggtgat caagcaggcg      720



cttcagctcg gcgctggccc caatgtctct gacgcccaca ccatcaacgg cctgccaggg      780



ccgctctaca actgctctgc caaagacacg tacaagctga aggtgaagcc cgggaagacg      840



tacatgctgc gcctcatcaa cgcggcgctc aacgacgagc tcttcttctc cgtcgccaac      900



cactcgctca cggtcgtcga ggtcgacgcc gtctacgtca agcccttcac cgtcgacacg      960



ctgctcatcg cgccgggcca gaccaccaac gtgctgctcg ccgccaagcc atcctacccg     1020



ggcgccaact actacatgtc cgccgcgccc tactccacgg ccaggccggc caccttcgac     1080



aacaccaccg tcgccggcat cctcgagtac gagctgtacc ccgacgcgcc ccggccctcc     1140



gcctccgcgg ggagcttcaa cgaggccctg ccgctctaca gaccgaccct gccgcagctc     1200



aacgacacca gcttcgtcgg caacttcacg gccaagctcc gcagcctcgc gacgccgcgg     1260



tacccggcgg ccgtgccgcg gacggtggac aggcggttct tcttcgcggt cgggctcggc     1320



acgcacccgt gccccgccaa cgccacgtgc cagggcccca ccaacaccac gcagttcgcg     1380



gcgtccgtca acaacgtctc cttcgtgctc cccaccaagg cgctgctgca ctcccacttc     1440



accggcctgt ccagcggcgt ctactcgccg gacttccccg tcgcgcccct ggcgccgttc     1500



aactacacgg ggacgccgcc caacaacacc aacgtggcca gcgggaccaa gctcatggtc     1560



gtcccgtacg gcgccaacgt ggagctcgtc atgcagggca ccagcatcct cggcgtcgag     1620



agccacccgc tgcacctgca cggcttcaac ttcttcgtgg tcggccaagg gtacggcaac     1680



tacgaccccg tcaacgaccc gtccaagttc aacctcgtcg accccgtcga gcgcaacacc     1740



gtcggcgtgc cggccggcgg atgggtggcc atccgcttcc tcgccgacaa ccccggggtc     1800



tggttcatgc attgccattt ggaggcgcac acaacatggg gcctcaggat ggcatggttg     1860



gtgctcgacg gcagcctccc gcaccagaag ctgctcccgc cgccgtcaga cttacccaaa     1920



tgttgattag actcttcctc tatctctatc ctgccggtcg cttcaaatta aagggaattg     1980



tgaattagac aaatgtttgt ttgttttttt gtttactttc ttcattgcca attgcaattt     2040



tttcaacttg cattttaact agtccgttcc gttcctagct gacctggact tttttgtaat     2100



ttttttcttc catttgtttg ccaccacaaa tgtttttgta cactcctctg aaaataaaga     2160



atggcgtgac ttgcaccaga taaaaaaaaa aa                                   2192





<210>  582

<211>  263

<212>  DNA

<213>  Zea mays



<400>  582

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagcgcgtg aaggagtcgg cggcgctcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat tta                                              263





<210>  583

<211>  1616

<212>  DNA

<213>  Zea mays



<400>  583

ctgcctcctc ctacccttcc ctcgctgaag ccctctcgcg cctcctccca ctcccactgg       60



acagagagga ggttagtgga aggcgggcta ggaggctacg ccgccacaga cgcgaagcga      120



tagcgtcggg gggaagcaag gaagcgggtg gcaatggcga ccggcggcgg cggtgggagc      180



gacgacttcc acgggctcac gttcggccag aagatctact tcgagcagga cgcgggcgcc      240



gccgggggga gcgcgacggg cggcaggaag gggaagggcg ccgcggcgtc cgcgagcgcc      300



gcccagccgc cgcggtgccg ggtggacggg tgcggcgtgg atctgagcgc cgtcaagcag      360



tactactgcc ggcacaaggt gtgctacatg cactccaagg agccgcgcgt cttcgtcgcc      420



ggcatcgagc agcgcttctg ccagcagtgc agcaggttcc accagttacc tgaatttgac      480



caagggaaac gaagctgccg ccgccgcctc attggtcaca acgagcgccg gaggaagcca      540



ccacctggac cactcacctc acgatacggc ccgcttgctg catcactagt tcaagagcct      600



ggtaggttca ggagcttcct gctcgacttc tcgtacccga gggttccaag cagcgtgaga      660



gatgatgcgt ggcaatggca agggatgcag catggcggcg acaggatgct gctgggtacc      720



gccagcgcca tccagtggca tgggaaccaa gaacctcacc caccacatcg cagcgcagct      780



gcgggctatg gcaaccatgc gtacaacaac tgccatggtg gcggcggctt ggtagcagca      840



gcagcggggg cgtcaatgct ctcctctgcc ttcgagcccc cgcctggcgg tggcggatgt      900



gtcgcaggag ctaccgcggc cgactccagc tgtgctctct ctcttctgtc aactcagcca      960



tgggatacgc ccacccaaag tggcagcagc caccacaacc ggtccccagc gatgtccgcg     1020



gctgcaggcg ccttcgaagt ggcgccgtcg tccgtcgtgg cgagcagcta cacggcgtcg     1080



agctcctggt ctggctcacg ggaccctgcc gacggcgcca ggaaaaacgc gcagcgtcac     1140



gatgatggcc tgcacctggt ccatccacca ggccccgtcc accacggcca cttctccggc     1200



gagctcgagc tcgccctgca gggaagcggc ccgccgcatg tcgaccatgg cggcggcacc     1260



tgcttcagcc attctgacac caacgcgatg aattggtccc tgtagggaca acaacttttg     1320



ccgccactgc cttgatccgg tcggcacgcc acgagacatg gagcacttgg gattgggaca     1380



ccctggtttt gtgcccctga ccttgccgtt ctggtttttc agggtggaac taactgggat     1440



tccctaggcg tagatcatga atcccctttc cccgtgtaac ccattgcgtc catgaagtcg     1500



gcccaacacc ggatcatata taattctaca actcccataa cctaaatcat tcttcagttg     1560



tgaagatata tgcttgtcaa gtgacctggt tttattttat ctgccatcaa ttcatc         1616





<210>  584

<211>  1590

<212>  DNA

<213>  Zea mays



<400>  584

cactgccgcc taccctcgtt gaagcgcgct ctctcgctct cgctctcctc gcgcttcctc       60



ccactcccac tggacagaga ggagggttag tggagggcgg ggtaggaagc taccgccgcc      120



acagtaacag cgttagctag gggggaagca cggaagcggg aagcaatggc gaccggcggc      180



ggcagcagca ggagcgacga cgtgcgcggg ctcaagtttg gcaagaagat ctacttcgag      240



caggacggcg ggagcgggag cggggcgggg gcggtgggcg gcaggaaggg gaagggcgtg      300



gccaccggtg gcgcgaggcc ggcgtccgcc gcctccgcag cccagccgcc gaggtgccag      360



gtggacgggt gcggcgtgga tctgagcgcc gtcaagcagt actactgccg gcacaaggtg      420



tgcaacatgc actccaagga gccgcgcgtc ttcgtcgccg gcatcgagca gcgcttctgc      480



caacagtgca gcaggttcca ccagctacat gaatttgacc aagggaaacg tagctgccgc      540



cgccgcctca tcggtcacaa cgagcgccgg aggaagccac cacctggacc tctcacttca      600



cgatatggcc ggctcgctgc atcacttcaa gagcctggca ggttcagaag cttcctgctc      660



gacttctcgt acccaagggt tccaagcagc gtgagggatg cgtggccagg aatccagcac      720



ggtggcgaca ggatgctggg caccgtccag tggcatgggc accaagaacc tcctcaccca      780



caccgcagtg cagctgctgg ctatggcaac catgctgcat acaactgcca tggcggcttg      840



gtagcaggcg gggccccaat gctctcctct gccgcctttg agctcccgcc tggcggatgt      900



gtcgcgggag ttgccgccga ctccagctgt gctctctctc ttctgtcaac tcagccatgg      960



gacacgacct cccacgacca ccggtcccca gcaatgcccg cggccggcgc cttcgacggc     1020



accccggtgg cgccgtccgt catggcgagc agctacgcgg cgtcgagcgc ctggacgggc     1080



tcgcgggacc ccgctgccga cggcgccagg aacgcgcagc gtctcgacga tgctctgcac     1140



ctggtccacc caggctccgc ggcggtccac ttctccggcg agctcgagct cgccctgcag     1200



ggaagcggcg ggccgccaca cctgccgcgc gtcgaccatg gcggctccgg cggcggcacc     1260



ttcaaccatt ccaccaccag cgcgatgaac tggtccctgt agcagcactg cctgccttca     1320



tccggtcgcc acgccacgag atgtggaggg agcacttttg cattggacac caccctggtt     1380



ttgtgcgcct taccttgccg ttctcgtttt ttcagggtgg agaaactggg attcctaacc     1440



atagtagatc taccgtgaat tcccttcccg tgtagtagcg cattgcgtcc atgaactcat     1500



ttgatcgatc gtcgtgtcac cgtgtgcgta actgcgtatc tgtttggcgt aactgcgtat     1560



ctgtttgttg aatctttccg aacattgcgg                                      1590





<210>  585

<211>  1878

<212>  DNA

<213>  Zea mays



<400>  585

ccgcctttca caaaaccaaa caaaacgcac ccgcaatata aagaggagac caaggcgtga       60



agtggaggag gcagaggtgg acgaggcgcg ccaccgcccg agccgaatcg agctgcagaa      120



accaccttgg catggcgaca caggccgctt tcctcgcagg gttctcgcag ctcgccgcgc      180



agccgggccg cgaccgcgcc gtggcggtgg cggtggcgcc ggcgccgggc ccggcccggg      240



tggccgttgc ggcggtgggt agcgccaagt tgggcgtgaa ggcggggacg tccaggaccg      300



cggcggtggc gcgcctcggg gtgcggtgcc gggccagcct gatcgagccc gacggcgggc      360



ggctggtgga cctggtggcg cccgaggagg gcgggcggcg cgcggcgctg cggcgggagg      420



cggcggagct gccgcaccgg ctgcgcttgg gccgcgtcga caaggaatgg gtccacgtcc      480



tcagcgaagg gtgggcgagc ccgctgcaag ggttcatgcg cgagcatgag ttcctccaag      540



cacttcattt caatgccatc cgcggccagg atggcaggat ggtcaacatg tccgtcccca      600



tcgtgctctc tgtcggggac gcacagcgaa gggccatcca ggccgacggc gccacgcgcg      660



tcgcgctcgt tgacgagcgc gaccgcccca tcgccgtcct cagcgacatt gagatctata      720



agcataataa ggaagaaagg gtagcacgga catgggggac aactgcacct ggattacctt      780



atgtcgagga ggcaattacc aatgctggtg actggttggt tggtggggac ttggaggtta      840



tagaaccaat caagtacaac gatggtctag atcagtatcg cctgtctcca gcacagctgc      900



gtgaagagtt tgccaggcgc aatgctgatg cagtatttgc ctttcagctt cgcaatcctg      960



tacacaatgg gcatgctctt cttatgaccg acacacgcaa acgtctcctt gagatgggtt     1020



ataaaaaccc tgttcttctg ctccatccac tgggaggatt cacaaaagca gatgatgtgc     1080



ctcttagttg gagaatgaag caacatgaga aggttcttga ggaaggtgtc ctcaacccag     1140



aatcaactgt tgttgcgatc tttccctctc caatgcatta tgctgggcca actgaggtgc     1200



agtggcatgc taaggctcgt attaatgctg gtgcaaattt ctatattgtt ggaagggatc     1260



ctgctggtat gagccatccc acggagaaaa gggacctcta tgatgctgac cacgggaaga     1320



aggttttgag catggctcct ggcctcgaga ggctcaacat ccttcctttc aaggtggctg     1380



catatgacac aaagcaaaag aaaatggatt tcttcgatcc atcaaggaaa gatgatttcc     1440



tcttcatctc tggcacaaag atgcgcactc ttgccaagaa ccgcgagagt cccccggatg     1500



gttttatgtg cccgggtggc tggaaagtgc tcgttgaata ctatgacagc ttggtgccat     1560



ccgagggcag cagcaagctg cgcgagccag ttgcagcctg aaatatggga agcgcttcag     1620



ataaggaacc gtactatgtc agcacaagcg gttctttgcg acatagaacc gttgttgtat     1680



gattgtatac tggcttgtaa gacttaaaaa cactgggctt gatttggacg ttaatgtgtg     1740



cattgtaact ggtgtgccct atctgctgac agtgttgcac atcacatgtt tggtgttaat     1800



aaggacagac tatgtatcat ctgccagatt gttgtacata tacattgtgg tgatataaac     1860



atgaagctgt cttctgct                                                   1878





<210>  586

<211>  1878

<212>  DNA

<213>  Zea mays



<400>  586

ccgcctttca caaaaccaaa caaaacgcac ccgcaatata aagaggagac caaggcgtga       60



agtggaggag gcagaggtgg acgaggcgcg ccaccgcccg agccgaatcg agctgcagaa      120



accaccttgg catggcgaca caggccgctt tcctcgcagg gttctcgcag ctcgccgcgc      180



agccgggccg cgaccgcgcc gtggcggtgg cggtggcgcc ggcgccgggc ccggcccggg      240



tggccgttgc ggcggtgggt agcgccaagt tgggcgtgaa ggcggggacg tccaggaccg      300



cggcggtggc gcgcctcggg gtgcggtgcc gggccagcct gatcgagccc gacggcgggc      360



ggctggtgga cctggtggcg cccgaggagg gcgggcggcg cgcggcgctg cggcgggagg      420



cggcggagct gccgcaccgg ctgcgcttgg gccgcgtcga caaggaatgg gtccacgtcc      480



tcagcgaagg gtgggcgagc ccgctgcaag ggttcatgcg cgagcatgag ttcctccaag      540



cacttcattt caatgccatc cgcggccagg atggcaggat ggtcaacatg tccgtcccca      600



tcgtgctctc tgtcggggac gcacagcgaa gggccatcca ggccgacggc gccacgcgcg      660



tcgcgctcgt tgacgagcgc gaccgcccca tcgccgtcct cagcgacatt gagatctata      720



agcataataa ggaagaaagg gtagcacgga catgggggac aactgcacct ggattacctt      780



atgtcgagga ggcaattacc aatgctggtg actggttggt tggtggggac ttggaggtta      840



tagaaccaat caagtacaac gatggtctag atcagtatcg cctgtctcca gcacagctgc      900



gtgaagagtt tgccaggcgc aatgctgatg cagtatttgc ctttcagctt cgcaatcctg      960



tacacaatgg gcatgctctt cttatgaccg acacacgcaa acgtctcctt gagatgggtt     1020



ataaaaaccc tgttcttctg ctccatccac tgggaggatt cacaaaagca gatgatgtgc     1080



ctcttagttg gagaatgaag caacatgaga aggttcttga ggaaggtgtc ctcaacccag     1140



aatcaactgt tgttgcgatc tttccctctc caatgcatta tgctgggcca actgaggtgc     1200



agtggcatgc taaggctcgt attaatgctg gtgcaaattt ctatattgtt ggaagggatc     1260



ctgctggtat gagccatccc acggagaaaa gggacctcta tgatgctgac cacgggaaga     1320



aggttttgag catggctcct ggcctcgaga ggctcaacat ccttcctttc aaggtggctg     1380



catatgacac aaagcaaaag aaaatggatt tcttcgatcc atcaaggaaa gatgatttcc     1440



tcttcatctc tggcacaaag atgcgcactc ttgccaagaa ccgcgagagt cccccggatg     1500



gttttatgtg cccgggtggc tggaaagtgc tcgttgaata ctatgacagc ttggtgccat     1560



ccgagggcag cagcaagctg cgcgagccag ttgcagcctg aaatatggga agcgcttcag     1620



ataaggaacc gtactatgtc agcacaagcg gttctttgcg acatagaacc gttgttgtat     1680



gattgtatac tggcttgtaa gacttaaaaa cactgggctt gatttggacg ttaatgtgtg     1740



cattgtaact ggtgtgccct atctgctgac agtgttgcac atcacatgtt tggtgttaat     1800



aaggacagac tatgtatcat ctgccagatt gttgtacata tacattgtgg tgatataaac     1860



atgaagctgt cttctgct                                                   1878





<210>  587

<211>  2808

<212>  DNA

<213>  Sorghum bicolor



<400>  587

ccccgacccg aacctgctcg ccgtcgcctc cgcttggtct cgctctcgcc gcattcgtct       60



tccccgcccg tcccgtcccg tcccctgatc tcagatccag accaaacgaa ctccgcacta      120



aaccccccct tgccccaggc ggcgcacgca tgaaacccta gtgaccccat acagatctcc      180



gcgtccggat cactgcgcgg cgccaccatg gcgacctctg cgctggactc cctcccggcg      240



ccgctccggt cgctgcggct caagacgaag cagcaggagc tcctgctccg cgtctcggcg      300



ctggcgctca tctacgtgct cgccttcgcc gtccgcctct tctccgtcct ccgctacgag      360



tccatgatcc acgagttcga cccctacttc aactaccgca ccacgctctt cctcaccgag      420



aacggcttca gcgagttctg gaactggttc gactccgaga gctggtaccc gctcggccgc      480



gtcgtcgggg gcacgctctt cccgggtctc atggtgaccg ccgcactgct ccaccgcctc      540



ctccgcgcgc tctccctcgc cgtccacatc cgcgaggtct gcgtactcac ggcgcccttc      600



ttcgccgcca acaccacgct cgtcgcctac gccttcggcc gcgagatctg ggactccggg      660



gcggggctcg tcgccgccgc gctcatcgcc atcgttcctg gctacatctc ccgctccgtt      720



gcggggtcct acgataacga gggcgtcgcc atcttcgccc tgctgctcac cttctacctc      780



ttcgtgcgcg ccgtcaacac ggggtcgctc gcctgggcgc ttgcctcggc gttcggctac      840



ttctacatgg tgtcggcgtg gggaggctac gtgttcatca tcaatctaat cccactctac      900



gtgcttgtgc tgcttgtcac tgggaggtat tcgcagaggc tctacgtggc ctacaattgc      960



atgtatgtgc ttgggatgtt gcttgcgatg cagatccgtt ttgttggatt ccagcatgtg     1020



cagtccgggg agcacatggc tgctatggga gtcttcttcc tcttgcaggt tttcttcttc     1080



ttggactggg tgaaatacct gctaaatgat gccagactat tcaagtcatt ccttcgaact     1140



actcttacat gtgtgattac tgttggcacc ctggctcttg gaattggtac tgcatcaggt     1200



tacatctccc cttggacagg acggttttac tccctgcttg atcctaccta tgcaaaggac     1260



catataccaa tcattgcgtc tgtttctgag catcagccaa cagcatggtc atctttcatg     1320



tttgacttcc acatcctcct tttcctgttc ccagctggcc tttatttctg tttcaaacgc     1380



ctgtcagatg ccactatatt cattgttatg tatggcctca cgagtatgta ctttgctggt     1440



gtgatggtcc ggttaattct tgtggcagca ccagccgttt gtcttattag tgctattgct     1500



gcatctgcta caataaagaa tctgaccact ttgatccggg caaagagcag aagtccacag     1560



actacttctg gaaaaacaac tggctcaaag gcagctgcaa agggtgcagt tgatcaaagt     1620



ttaccattcc aacacaatgc agctattgct cttcttctgg gtgcctttta cttgctaagt     1680



aggtatgcca tacactgcac ttgggtgaca tctgaggctt attcttctcc atctatagtt     1740



ttggccgcaa ggggtcataa tggtggaaga gtcatctttg atgattatcg tgaggcatac     1800



tattggcttc gtcagaacac tcctcctgat gctaagatta tgtcttggtg ggactatgga     1860



taccaaatta cagctatggg taacagaact gtcattgttg ataataatac atggaataac     1920



acacacatag ctacagttgg acgtgctatg tcatcttatg aagatgaagc atatgagatc     1980



atgcaatcac ttgatgtgaa ctacgtgctt gttgtatttg gaggtgttac cggatattct     2040



tcagatgata tcaacaagtt cttatggatg gtacgcattg gtggaggagt tttccctgta     2100



atcaaagagc cagattacct tgttaatggg gagtatcgta ttgacaaggg ggcagcacca     2160



aaaatgctga actgcctaat gtacaagctt tgttactacc gatttggaga acttaccacg     2220



gaatatggaa agcctccagg gtatgatcgt gtaagaggag tggagattgg caacaaagac     2280



ataaaacttg aatacttgga ggaggcattt acaacttcaa actggatagt gcgcatatac     2340



aaggtgaaac ccccaaagaa caggtcctga ggcatcttcg ctagtgaaat ggttagagct     2400



attacctcag acaagtacat tattgtcaaa aatctgagtg gcagatggcg gggtggttgt     2460



tattggcacc tgctttggcg agactgacta gtagccatag catcagttca gctcaaaagt     2520



caagaagatc tttcccctca tttggtttag gtgtgatggg tgtcattcag aaccaagtgt     2580



gacaacagcg agtacttttt gattgttaag catgtcatga ccgaactttg aaagtttttg     2640



taggcgcagt gacatatttg agtagaaaac ttgtctttga tcaatgcaag gcaatgcaaa     2700



ttttccagca ctaaacacaa aatatgaact gttggttctg ttctctctat tatgtgttta     2760



catcatccag tgtaggcgca ttgagcagtt tttatgctgt ctttcgtc                  2808





<210>  588

<211>  2265

<212>  DNA

<213>  Sorghum bicolor



<400>  588

ctcagacgca gtgttccatt ccaacattta gctagccaac aaggatcatc ggagctcggg       60



ctcaagtact tgttcttagc tgacttcttc attgtaggaa acaatggcta cctcctatct      120



gctgccttgc tatgtcctca tcactgtgct cgtgctcttc ttctccgtcg acgttacgga      180



aggggccatc agggagtacc agttcgatgt gcaaatgacg aatgtgacgc ggctgtgcag      240



cagcaagagc atcgtgacgg tgaacggtca gttcccgggg ccgccggtgt tcgctaggga      300



gggcgacttc gtcgtcatcc gcgtcgtcaa ccacgtcccc tacaacatga gcatccactg      360



gcacggcgtc cggcagctgc ggagcgggtg ggcggacggg ccggcgtaca tcacgcaatg      420



cccgatccag agcgggcaga gctacgtgta caagttcacc atcacggggc agcgcggcac      480



gctgtggtgg cacgcgcaca tctcctggct gcgcgccacc gtctacggcg ccatcgtcat      540



cctgcccaag cccggcgtcc cttacccgtt cccggcgccc tacaaggagg tccccgtcat      600



cttcggcgag tggtggacgg cggacacgga ggcggtgatc agccaggcgc tccagaccgg      660



cggaggaccc aacgtctccg acgccttcac catcaacggg ctgcctggcc cgctctacaa      720



ctgctctgca aaagacacgt tcaagctgaa ggtgaagccc gggaagacgt acatgctccg      780



catcatcaac gctgcgctca atgacgagct cttcttctcc atcgccggcc acccactcac      840



cgtcgtcgac gtcgacgcgg tctacatcaa gcccatcacc gtcgacacca tcctcatcac      900



ccccgggcag accaccaacg tgctcctcac caccaagccg tcctaccccg gcgccaccta      960



ctacatgctg gccgcgccct actccaccgc caggccgggc accttcgaca acaccaccgt     1020



ggccggcatc ctcgagtacg aggaccccac gtcccctccc ccgcacgcgg ccttcaacaa     1080



gaacctcccg gcgctgaagc cgacgctgcc gcagatcaac gacacgagct tcgtcgccaa     1140



ctacacggcc aagctccgca gcctcgccac cgcggagtac cccgccgccg tgccgcagga     1200



ggtggaccgg cggttcttct tcacggtcgg gctgggcacg cacccgtgcg ccgtgaacgg     1260



gacgtgccag ggccccacca acagcagccg gttcgcggcg tccgtgaaca acgtctcctt     1320



cgtgctcccg acgacggcgc tgctgcagtc gcacttcgcc ggaaagtcca agggggtgta     1380



ctcgtccaac ttccccgccg cgccgctcgt cccgttcaac tacacgggga cgccgcccaa     1440



caacaccaac gtggccaacg gcaccaagct ggtggtgctg ccgtacggcg ccagcgtgga     1500



gctggtgttg cagggcacca gcatcctcgg cgccgagagc cacccgctgc acctccacgg     1560



cttcaacttc ttcgtggtcg gccaagggtt cggcaacttc gaccccgcca aggacccggc     1620



caagtacaac ctcgtcgacc ccgtcgagcg gaacaccgtc ggcgtgccgg cggccggctg     1680



ggtggccatc cggttccgcg cagacaatcc aggggtatgg tttatgcatt gccacttgga     1740



ggttcacgtc agctggggcc tgaaaatggc atggctggtg ctggacggag accgccccaa     1800



cgagaagctg ctgcctccgc cgtctgatct ccccaggtgc tgaggcagac gacacgagga     1860



attgctgccc ggcctgcagg tcgccatcaa cggccgtgat cgattgggcc cggccggccg     1920



tcttggaaca gggattgcgt gctctctaat ttgcatagga tatcttaatc atcttttggt     1980



tgtgctgggg ttggtgttat gcgatgcttt cattaataga ggtgtgcttt tccgggttga     2040



gtcgtcgtct ggttagctgt gtgagtgaga gtcacacggg caggaaggtt cataccactt     2100



actcagtata aggcaaacgc catgtatttt ttgattgttt atgagttact gtactaccat     2160



cttttgtaaa tcagattctt gtcgtcgggg aactggatag tgtatccagg cgtgcctccc     2220



aaataatatg tttacgacta tcagcattgt tggaatttat ttttg                     2265





<210>  589

<211>  1026

<212>  DNA

<213>  Zea mays



<400>  589

ctttctgcca atcgcccata gcacccagcc gcttggcctc cctggtactc gctctccctc       60



agtgctctgg ctcctgcttc cctcgccagc gcgctccaat cccctgcacg cggagcttct      120



cctctgccag tgctcctcca tgtgtgcacg gtccatcgct ctcgcgtcgc tcggtctgcg      180



cgtccctgcg tccggatcct ctccctccag ctcggcgccc atccatgctg cgtcgccctc      240



tctctcatct ccaagccgag accctcgccg tgaagcttcc atgtggccgc gcgtactccc      300



tctgcttctc cctcgtggcg ctcaaccttg ccgagcttcc ttgccatggc tcttccacag      360



cccggctctg ccccatcgtc gatcgcccat ctccatggtc gcgcgccctc cagttctatg      420



gccgtgccgc gcgtcctgga gctcaccgcg cccggccaag ctcccctgtg cacgcccagc      480



cactcctctc tcccttgcag cgcgcgtccc tctgcttgcc aaagcaccag ctcggtcgct      540



ccgttcgtgc ttccgcggag gccgcagctc ttcctctggt gcgcgcgccc catctccctg      600



gtgctcggcc agctcaccca tggcgcgccg tgctcctctg ctctccccgc cggcccgagc      660



tccctatggc gtgcatctcc ctggcaaaag ctctctcttc cctctcccat ggcgcgtctc      720



gagctccacc tcgggtcgtc gtctccgagc tcgaccccaa actgttgtgc gtcctatcct      780



atctccgagt cgaggttcct gaaagtcgcc tatagagggt gaatagggtg aatctgaaat      840



ttacaaactt aagcacaaac tacaagccag gttagcgtta gaaatagaaa cgagtccgat      900



agagagggcg caaaacaaat cgtgagcgaa taaagagcga gacacgatga tttgttttac      960



cgaggttcga tttttgtaaa cctaatcccc gttgaggtgg tcacaaaaac tggatctctt     1020



tcaacc                                                                1026





<210>  590

<211>  1631

<212>  DNA

<213>  Zea mays



<400>  590

cgcgtgcaca ggaccacgcc ctccctgctc catcttccca tcgctcgctc ctcaagttcc       60



tagcgcccag ctgaattccc ctgcgcgcgc cctatcttcc accatgtgcc ctgctcgccc      120



atggcgccag ccacagctcg gagctccctc tgcatcccca ggcctgcgcc tgctgcttgc      180



cccagcttgg agctcgctcg acctccagct ccggcgcccg gctgagctcc ctggctgccg      240



cgccctgctc tcttttgctg ctcaccggtg ctccagctcg cggcgcccct gcttttctct      300



ctcctcctct actcccgcca tggcgcgcgt ctctgctccc tcccccacgg cgtgcccctc      360



aagctcgtcc aggccgcgac ctcgtcgtgg accttcctcg ccggcgctcc tccctgctca      420



gctctccagc gcgcgcccca tctcgctgcg ctcggccccc agctcggtct tcctcggtcg      480



cgctcgctct ggtcgtggac accgtcgagc tcagggccct gctcgccgta tgtccacgca      540



tcatgcgtgg agcaatgggg gaaatctata gcctaacagc ttgttcgctg cggcttgctg      600



cggctgcaat ccggctgcgg ctgcggcttc tacagtattt ttctctctat ggattgcagc      660



tgcagcagtc caaacagctg caacagtgtc ggcttgcagc ctgccgaaca cgccctaagc      720



cttggtcaat gtctgtgtgg atttgggaaa gaagacggag atatggttgt agaagacagt      780



gaagtcggct tgtgtcgcac gtctggtgct cgacgaaaag ctcaaacatg agaccgtcat      840



cgattcggtt gtcgtccatc tcaccaacat attttatccg tcgtggttta gctcgccatg      900



ggcctgctca ttgtccctat tttgccttcc ccaagaagcc acgtggatgg ccttgccctc      960



gccatcatcg ttcggtcacc tcgccttaat gccagcccct atatgatgcc tccgacttgt     1020



gttcacgccg acaaaagaat cccaagagga tgtggagaag caagcccctg gtcgatgccc     1080



ccaagtgctc agcgaaaggc ctgaacaagg atcatcgtca tttttgcgaa gttctagtac     1140



tatggagaga ttccaagaat tgtggattga ggagaaagtg aagctcagtt caatactcgt     1200



ctggtgtttg atcgaagact tcaatcggag actgtcgtcg ttctcgcaaa tattgagtca     1260



agttaattat ggtgagccga ttcagtattt ttactattga ttttatgatc gggaaataag     1320



acgcttagtt tgcgtatgaa gtttaagtta gaaataccag tgatgcgagg tgtgcttcga     1380



tgagtttagt tgccgagtat attcgaacta gttctatttt gcagagtgta gtgtctcggt     1440



gacgcgtagg ttaagtttag tattttaagc aattatcgat aagtctgtcg atgctaattg     1500



tgttcagtgc gcgtatgatg aaatcgatgt cctgtgctag tagttagtat catctatgtt     1560



tgtgatcgat aatgttggag tcggatattg attagttaga ttgatagcta tgaataaata     1620



gttgttatct g                                                          1631





<210>  591

<211>  1187

<212>  DNA

<213>  Zea mays



<400>  591

accaacgcca ccaaaaccaa cactccgatg gatgttttca ccaagcaact cctccccatg       60



cctcaccagc gggaccccaa ctacccttcc tcttccacct cttcctcctc gtcgtcgtcc      120



tcctccacgc ccccatctcg ccctcaccac cgtgcgcaac cccagcccca caacctcccc      180



cagtccccca gacccgtccc gcgcaccatc gacaccaccc cgttccccac caccttcgtc      240



caggccgaca ccacctcgtt caagcaggtc gtccagatgc tcaccggcgc cgagcagccg      300



gccaacaacg acgcgacgac ggcgggcgca gccgctgccg ctgccgccaa cggcggtggc      360



gccggcgccc aggcggccag cggtggaccg tgctgccggc ccaagaagcc gtcgttcaag      420



ctgtacgagc ggcggagcag cctgaagaac ctgaagatga tcgcgccgct ggcgatgggc      480



tcgccgccgt cgccgtcgcc gcggagggcg gcgccggaga tcctgtcgcc gagcgtgctg      540



gacttcccgt ccctcacgct cagcccggtg acgccgctcg ccggcgaccc ctttaaccgc      600



tcgccggcgt cggcgtcgtc ctccgaggag gccgagcgcg cggccatcgc cgagaggggc      660



ttcttcctcc acccgtcccc gaggggcgcc gagcccccgc gcctgctccc gctcttcccc      720



gtcgtctcgc cccggatggc cggcgccgcg gcggcgccgt cgtccgagtg aagatccccc      780



gacgcgggcg cgcgcctgct ctaccgtagc cgccgccgcc gccaccacca ccaccatcag      840



tactactact actacaacaa ccgtcgccgt cgccgtaccg tccgtccttg tttcgtgagg      900



tgcttgcttt gctgttcttc ttgatcgacg ccgctgtaat ttttgccccc ttcttgcttt      960



tcttggaacg ggcgaggaag ggagttctct ctctctctct cttttttttt gcttcgtttc     1020



ggagcggcga cacgcgagcg atcagcgatc tgacgatcca ggctcgctcg gttcctgatc     1080



gctcgcgtcg cgggagcctc cggccgggat gaaatgatgg gatggatgaa ttagacagtt     1140



aataattaat gaagcctaat ctgaagattt gaaaaaaaaa aaaaaaa                   1187





<210>  592

<211>  1283

<212>  DNA

<213>  Zea mays



<400>  592

ttcttgcgtg gatgctcccc tcttggctat ttgtttgttt cttgcagagg aattttttcc       60



tgaacttgtc ctcgccgtct tgaaggtttc ttgtttggga gcaggcggag gcgtttcttt      120



ccttcttcgc cggcggcggc atggactggg cagcggcgtc cgggtctccg tcgtggggcg      180



cggcggcgac ggaccccggt ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg      240



ccgacgccga ggtgcggctc caggatttcg ccgcgggtct tgcccagagc tcgcggccga      300



ctggggcggc gccgggagcc gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg      360



aggcgtgctc cgtcgacggc tgccgctctg atctcagccg gtgccgcgag taccaccggc      420



ggcataaggt ctgtgaggca cactccaagg cgccggtggt ggtcgtcggc ggacaggagc      480



ggcgcttctg ccagcaatgc agccggtttc acatgctgtc cgagtttgac gaggaaaaaa      540



gaagttgccg gaagcgtctg gatggccata ataggcgtcg aagaaagcca cagcatgatc      600



tgacaaatct agggggtttc tttccatacc accaagtgaa tcagtttgag ttctacccac      660



aaacaattcc aacagttggc cagaattcgg acgccgtgca cttggtgggc cgtcagcagc      720



ctttctccat atcgttctca agaacaccag acgagttccc tttcccacag ggtggcggta      780



gcagtgtgct gcaccacctc catgcagccc gccctggcca tcacgctgaa ggcagcagcc      840



acactggaag cagcacacgc gacaacgctc tctccggcac actgggcccc gagtgtgctc      900



tctctcttct gtcatcgtcg ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc      960



aaccccaggt tactgcctct tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg     1020



ccactgctgc attcgcggcc agtgctggcc accatgtgtt tgttcctgat gctatgtttg     1080



aggatccatc acaggcactg ccattctctt ggcagtagga ttgttttgtt gtcctgtttt     1140



tatgtgctcc tgttgtgttc tcgatcgata ctctagtgtc tgatggctgg gaattcgggg     1200



tacctgtgca cttgcagact caggttgtgg tccgtcagag atgtatacaa gtgacacgac     1260



gactagtgct ggcatctgaa agg                                             1283





<210>  593

<211>  3129

<212>  DNA

<213>  Zea mays subsp. mays



<400>  593

atagctatgt tcccactact agtgacacac tagacgttgg tctgtgctgt acggagaacg       60



aaggtataaa caaatgcgtt gcaaaagtgc agttcgacga cgatagatgt atatgtatac      120



tccacaaaag cccgagctgt cttttgtttt tggagaaaaa ataaataacg tgtggttcag      180



gaacaaaagc tagcggggtt gctactaatt gctactgttg ttgataaaca cgtcctgatc      240



agacgccact tgcttggatc tgtattatta ttattattat tattattatt attattatta      300



ttattattat tattattatt attatttcct ttgctttctt tttttgaact gattttttgt      360



gtgttgcaat aataatgtta aaagacaaaa gtaacggcag ggagttgcag atagacctaa      420



tatcaaaggc tgtcagggcc cttttggaac gcagggattt tcacttcaca ggtgcttttt      480



tttatgaaaa tgaaccggtt cttatgattt ctttttttct atgtttcatc atacgagtgg      540



aactcgaaca tccatcccaa atattagaag acaaaagtaa cagtaggaga gctgagaagc      600



ctgagataga cccaatatca attaattaaa gacttttata gcaaatccaa aaggatgcaa      660



aaacaccccc gtcaaaaaaa taattattag ggacaggtta catttttttg gaggcaaata      720



tggtgcatac ttcaacagtt ttattcaaaa caaaggctaa aagaccgtaa accgagccta      780



tattttttta aaaaaaaact agatccatct gccccattcc gcaaacgatt ggggagacac      840



tacgtcgctc aaatatgtgt gggggggggg gggggggaga acataggttg aaagcgggtt      900



accgtatttt tccaacaatg atgtgatccg tcgggcatat ttggtgacaa ggagatccca      960



gaaggattgg aggggattga gggggaaatg aactaatttc cccctccatt atcttgggag     1020



cccgggtcac caaatcaact ctaaatctgt ctttcgggtt gttttaagtg tttttggagt     1080



tactcttata cgaatatgag tcatttttaa aaaaaaaaga taaatcaaaa tatacattag     1140



tctgtacata gagtgactgc tctgaaaaaa ataaaaaaac tgtagagaca ccttagcccc     1200



aataattgta gcacaggcaa caggtgcaca gcacaacata gccccttgca tgcatggctg     1260



cagtgtgaca catggcggtg gggccctgcc cactgttcct ccttcaggga cggaaaggtt     1320



ggttgcggcc ccaccatggc gccaagtaat atcgccgctg ctctctctct cttttcatgc     1380



acacgctcct ctctccctcc ctcccaccat tgctacagtc gcagctgtct gtgtctgcaa     1440



agtactgact gctcccactc cactccaccc ccagttccgg gccactcggg catcgtttct     1500



gttgctgcaa atctttgttg gctgctggct gctgctgcct tgctatctat ctatacaccg     1560



cccgcacctt ccattcctcc tcctccgaag cagcaggcag cagctgcatc gcacctcaca     1620



cctctcgtgt ccatcgatcc agccgccgcc gcagctgcag ctctcacttc actgttgctg     1680



tgccacctcc tcgtcgcctg tagtgtctgt cgacagagaa acgcccgcgg aatgagaggg     1740



aaggagcgga agctgcagcg ggcgcgcgcg tgcaagggct aggattagga gtagcggttg     1800



caacgtcggc gcgcacggcg tacgtcgggc atggattggg atctcaaggc ggcgggcgcg     1860



tgggacctcg cggagctgga gcaggaccac gcggccgcgg cgccgtcgtc ggggggccac     1920



gccgccaatg ctgccgcggc gggcacgggg acggagagcc gcccgccggc gcccggggca     1980



gcaggggcac ccgccgagtg ctccgtggac ctgaagctgg gcgggatggg cgagtgcgag     2040



cccggcgcgg cccgcaggga gagggaggcc gcggcggggg cggcgaagcg gccgcgcccc     2100



gccgggcccg gcgggcagca gcagcagcag tgcccgtcgt gcgcggtgga cgggtgcagg     2160



gcggacctgg gcaagtgccg cgactaccac cggcggcaca aggtgtgcga ggcgcactcc     2220



aagacccccg tcgtcgtcgt cgccggccgc gagatgcgct tctgccagca gtgcagcagg     2280



ttccatctac ttgcagagtt cgacgccgac aagcgcagct gcagaaagcg tctggacggg     2340



cacaatcgcc gccgcaggaa gccacagcca gacaccatgg cttctgctag ctttatcgca     2400



agccagcaag gcacgcgatt ctcaccattt gcgcatccaa gactggaggc gagctggccg     2460



ccgggggtga tgaaaaacga ggagagtcca tatcacatca ctcaccaaat ccctctggga     2520



tccagcagca gcggcaacag gcagcagcat ttcgtggctc tgggagccgc cacgcctgcc     2580



tacgccaagg aaggccggcg cttccctttc ctgcaggagg gcgagataag cttcgccacc     2640



ggcgtggtgc tggagccgcc cgcgtcggct ccagcgtgcc agccgctcct caggacggga     2700



gcaccatccg agagcagcgg cgcaggcggc agtaagatgt tctccgatca ggggctggct     2760



cgcgtgctcg actcggactg tgctctctct cttctgtcag cgccggccaa ctcctccggc     2820



atcgacgtca gcaggatggt ccgcccgact gaacacgtcc ccatggccca gcagcccgtg     2880



gttccgggcc tgcagttcgg cagcgcgtcg tggttcccgc gcccccaggc ttccacgggc     2940



ggctccttcg tcccctcctg ccccgccgcg gtggagggcg agcagcagct gaacgccgtg     3000



ctgggcccca acgacagcga ggtgagcatg aactacggcg ggatgttcca cgtcggcggc     3060



ggcagcggcg gcggcgaggg ctcctcggac ggcggcacct cgtcgtcgat gcccttctcg     3120



tggcagtag                                                             3129





<210>  594

<211>  1900

<212>  DNA

<213>  Zea mays



<400>  594

gcgcactcgc ataaaaaaat gttcgccacc tttctcctgc tgctgtggtc ccatgccccg       60



gcgccggcgc tctcgctgcc gccgcgccct ccggtacgct gcagcgatgg cgggaccacg      120



ggctgcgtgc tctccaacgc ctacggcgcg tggtcgagcg accgcgccga ctgccccgtc      180



tcctccgtcg cgtacccggc gtccgagcag gaggtggtcg cggccgtggc gcgcgccagc      240



gccagcggcg cccgcgtcaa ggtcgtgagc ggcttcgcgc acaccattcc gaagctcgcc      300



tgccccggcg gcggcaacgg cactaccacc accctgctca tcagcctcac ggcggcgccg      360



tactgggagg gcgtcagcgt cgcggggctc gtgagcacag ggtcccacgg cagctcgtgg      420



tggggccgcg gcggtgccgt gcacgaccac gttgtggggc tcaggctcgt cgttaccgcc      480



ggggaggctg acggctgggc cagggtcctg acgctgcgca gaggcgacga gctcttcccg      540



gctgcgcttg tctcgctcgg gctgcttggg gtcgtctcca agatcacgct gtcactggaa      600



ccgaggttca agcgcagcat caccttcgac tacaggaacg attccacctt ccaggacgac      660



ttcgccgctc acgcggcgag ccacgagttc gccgacatca cctggtaccc gtcccagcac      720



acggccgtgt accgcatcga cgaccgcgcg ccggccaacg cgcctgggga cggcgtcaac      780



gacttcatcg gcttccaggc gacgcccatc gctgtcaccg ccgggctcag agtggtagaa      840



acttcactgg agcggtccaa gaacatgaag ggcaagtgtg cgatggcggc ggcggagggc      900



gtggcgaagc ggctggtcgg caacgggctg aagaacaacg gcctgctgtt cacggggtac      960



cccgtggtgg ggtaccaggg gaagatgcag acgtcgggct cctgcgcgcg ctcctcggcg     1020



gcggacctgc tcagcgcgtg cgggtgggat cccaggttcc acggcctctt cttctacgag     1080



agcacggcga tcttctcgcc ggcccggttc cgggacttca tcctcgacgt gaagcgcctg     1140



cgggacctcg ccggctcgga cagcctctgc ggcgtcgacg tgtacaacgg cctcctggtc     1200



cggttcgtga aggcgtccgc ggcgcacctc ggccagccgg aggactccgt cgtggtggac     1260



ttcaactatt accgcgcgtc ggactcggcg gcgccgcggc tgagccagga cgtgtgggag     1320



gaggtggagc agctggcgtt cgtcaagcac ggcgccaggc cacactgggc caagaaccgt     1380



ttggtggcgt tcgccggcgt gcggggcaag tacccgcggt ggggccagtt tgcggcggct     1440



aagcggcagc tggacccccg gggcttgttc gacagcccgt ggtcggacga ggtcgtcggc     1500



ggggtggagc tggccaaggg cgacgggtgc gcgctggacg gccggtgcgt gtgctccgag     1560



gacaggcact gcagccccga gcaggggtac tactgcaggc cggggctcgt gtttacggac     1620



gccagggtct gcaggtactc ggggtcgcag aaccagtgag tcaccatatt tctctgtgga     1680



ttggtttcga gcttgactga aagctgtgag ccgtgtggat aatagatttc acatttaaag     1740



agtgcttgta gctatacgtt agggtcataa tacaaaaagg agaagaattt ctgtaatatt     1800



ggcattctag aaattaaatc agtgacaatg aagaagttac atgtatcaaa tatccttata     1860



aaggaaggga atcctaagaa tatatgattt aaaatgctac                           1900





<210>  595

<211>  2234

<212>  DNA

<213>  Zea mays



<400>  595

cagagatggg gattgatctc aacgccgtgg gggaggacga cccggcgggc gcggtgtgcg       60



cggagctgtg gcacgcgtgc gcgggggctg gagtggcgct gccgcggcgg ggcagcgccg      120



tggtgtacct gcctcaggcg cacctcgcgg cgggcggctg cgacggtggt ggggtgtcgg      180



cgccggcccc gccgcgcgtg ccgccgcacg tggtgtgtcg cgtcgtcgac gtcgagctac      240



gcgcggatgc ggccacggac gaggtgtacg cgcggcttgc gctggtggcg atggatacga      300



tgtttggccg aaacatcaat gatggtgaaa ctgaagagaa gaatggcgag gaagaggatg      360



gcgacggaga aaagaagcac gcatcacaca tgttctgcaa gacactcaca gcttctgata      420



ccagcacaca tgggggattc tctgttccac ggcgagctgc agaggactgc tttccaccat      480



tggactatga gcagcttagg ccttcccaag agcttattgc caaggatttg catggcatga      540



aatggaggtt ccgtcatatc tatagaggtc aacctcgaag gcatcttctg acaactggat      600



ggagttcatt tatcaataag aagaaactag tctcagggga tgcagtcttg tttcttagag      660



gtaatgatgg tgagctaaga ttgggtgtga ggagagcagt tcaactgaaa aatgaagctc      720



tacttgaagc tgtcaactgt actgattcga agctacttat gctgtctgct gtggccaatt      780



ctttggacaa cagaagtata tttcacatct gtttcaaccc aagggttggt gcatcagaat      840



ttattgtgcc gtattgcaag ttcttgaaga gcttgaacta tcacttttca gttggaacca      900



gatttaaagt tggctgcgag aatgaagatg ctaacgagag gtcctttgga ttgatcatag      960



gtattagtga agttgatccc atacactggc ctggatcaaa atggaaatct ctcctgataa     1020



agtgggatgg tgctactaag tacagccacc agaatagagt atctccatgg gacatcgagg     1080



gagttggcag ctcagtttca gttactcacc gactttcctc ttctgtttcg aagcgaacaa     1140



aactgtgctt ccctccaagc gatttggaca cgccaattct agatggaaac ggtcgtccag     1200



actcagtgga aactgaacgt ttccacaggg tcttgcaagg tcaagaattg gtgcactcta     1260



gtattcatgg tactgcatgc tctcattcat cagatagccc cagatgtcaa ggctcttatg     1320



gcaggagatt ctctgctgat gcgtggaact gcaagatgaa tgatgtaatg agtgggcctc     1380



gacacctaaa tgccactggg tttgcttacc agcccctagg cttcagtgaa tctgtcaaat     1440



tctcagaggt cttgcaaggt caagaaatgt ctcaggcggt tccttccttc atgagatctg     1500



ctttcaactc tggcacgcag aatggcaggg ttcgaccatt tgattatgtg cagagatcag     1560



atgcaactca aggatacgct ctccagcagt ttaatctgcc agcaacagaa gtgcattcgc     1620



cctcttctgt tcttatgttt aaccaaacca tggtaccaca tgctgagcta gatggtgcga     1680



ccaaccgtga agaagtacat ggcagcaggt acttgtcatc caatgcaata gggagagaag     1740



ctgaaccatg gccatccatg cagcagcaaa gagcgagtgt aaatggaagc gagcctctcg     1800



acacaactga agcctcagct cctgcaagga acgctgaatc tggatcggtc ggcaggggcg     1860



cggggcgaag caactgtaag ctttttggtt tctccctgac tgagaagatc cttggaacgg     1920



atggtggtgg tgtgaaagaa gggaactacg aagtggaccg tcaaactccc cgggtgctag     1980



acttgtttgg gcacggttct acgcctggag ctctgcatgc tctctgtgct gctcccttgg     2040



gaatatgatg ctgttctgcc tagttttaca acagttagat ttatgtaatc cttcagccat     2100



tttcatcgcg ttgtacttga ccaatatgtc cagcgtatga tttccagttt taattgtatg     2160



ctgatgctac atatcctctc ttgagatcca tgcatgagaa ttctggcaga atgaacagag     2220



gtaaattgat gtcc                                                       2234





<210>  596

<211>  2043

<212>  DNA

<213>  Zea mays



<400>  596

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaggtcttgc aaggtcaaga aatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040



tga                                                                   2043





<210>  597

<211>  803

<212>  DNA

<213>  Oryza sativa Japonica Group



<400>  597

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acaacaactg      300



cacaacttgc aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720



tgaccagaaa aacattgttt tgctacaccc ttgtatgctg aagggatact atttgctgtc      780



aagagttgat actcagatca aga                                              803





<210>  598

<211>  723

<212>  DNA

<213>  Zea mays



<400>  598

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acaacaactg      300



cacaacttgc aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720



tga                                                                    723





<210>  599

<211>  1950

<212>  DNA

<213>  Sorghum bicolor



<400>  599

gagccgctga ggatagggga ggcatgcatg atagagacct caaaggccag gtgagagctc       60



agtcgacggt aatgctgtcg cagctccttt agttgccaga cgattggcat gccacgattc      120



ctggtttcat ctcgctgagt tagtttgact tcaaggcttg tgcggtgttg ctgattggca      180



acaagaggtt caggaatagg cggaggattt ggttgtgttc tttctgtttc gtcagggaaa      240



gggatttgag ttctgccagc tttcacatac acaggttggg ggagcagttg agattttcta      300



attcttcttc ttggcaggat tgagatcttc agttctggta atgggttctt tcgggatgaa      360



ctggaatcag aagaactcca tggtgtggga ttgggaacat ctagtgccat ctgtctcgaa      420



tgcagttaca aggcatggat ctgctaattc atctggtggt actcttactt ctagctcaga      480



gctagggcat ggttcatcca agagctctat ttcagcatcc attgattcac catctggagt      540



agggaacagc ttagagttca attttgccgc tgttcaaagg catgttaaga acacgggcac      600



caatggcaga gtcgatgact cagggaattc tccatcgtca atgatagcct tcagccaagg      660



agagccactg atcagcctca agcttggaaa aagggcttac ttcgaaaatg tctgtggagg      720



acaggaggcc aaggtttctg caccttcaga tgttacttct gcagtcaccg tggtcaagaa      780



gactaaggtg tctcagcaga atgcaaagaa ctggtactgt caggttgaag gttgcaaagt      840



tgacctgtct tctgctaaag attacaaccg caagcacaaa gtctgtgtag ctcattctaa      900



agctcccaag gtggttgttg ctggtctaga gcgccggttt tgccaacagt gtagccggtt      960



tcatggtttg gcggagtttg atcagaacaa acgaagctgt cgtaggcgtc ttactcatca     1020



taatgcacga aggaggaagc cacaggcaga tgcaatttca ttcaattcat cacggctctc     1080



gtcaatgttt tatgatacaa gccaccggac aaatcttttc tttagtcaac ctctctatgg     1140



ccaagtgaga agcaatgcag tatctccgtg ggataactcg ggaggcttca aatttatgga     1200



aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc ctggatgagc tgcatttctc     1260



aaccccccag atatcaacta gtgttgtggc gcacactgga catcatcata acttcgatag     1320



gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac caagtttcag gtgtggaagc     1380



ttcggcgacc gcttccaact ctaataacgg agccccagaa cctgggcgtg ctctctctct     1440



tctgtcagac ggttcttggg gctcaaattc agccgtcatc cagcagcctc cttctcacgc     1500



agatgctggt gcattgccgc ccctcgccac cgttgctgtc tccaacaccg ccgccaggca     1560



tcctcttgac ccgtccctgg gaaggttctg gcaagacgat catcccccac tcgacggacc     1620



tgcacctcag attcaggaac tggcgcacct ccgaacatgg tgaaagtgaa agataaatgt     1680



atctgatgcc atctcgagga cctggttggg aacttctggc taggcatttt gatggcaatc     1740



tgtggctctg gtttgaattt gccggtgaca gtctttggac aatgtttaat ttagctgttt     1800



tgatcagaac gggcacagac atgtttgcac aatgtgagtt cctctatcat tggggatgag     1860



tgaggtgaag atgcaggaac aataggagac aaaatcttaa tttttttgct cgttttccca     1920



ccagtatttg aattattaat tactaggacc                                      1950





<210>  600

<211>  2027

<212>  DNA

<213>  Zea mays



<400>  600

gtgaaattga ggaactgaac cccggcggcc ggagttcctc atttgatttc gctcagaaaa       60



gtagaaaacg ccagccgaac acaccggtcc gccgcccacg ccagcgctga gctcaccagg      120



aaaccgtctt cttccactgg cgcgggctag gagcgtcgcc gccgcgtcgc ggttatgggt      180



acggcggctg tcgtggagga cacgatacgc gtcgtcctca cctgcctccc tgatccgccc      240



ttccgcacca ccggttcctc ccgtccctac cagagtccca gcggcggcgg cggcggcggg      300



gaccgcatca gccgcctctc agacgcggtg ctctctaaca tcgtggcgcg tctccccgcc      360



aaggacgcag cgcgcactac cgcgctctcc aggcgctggc gccgcgtctg ggcctccact      420



ccactcgtcc tcgacgactc cgacctcctc gtcttccacg acgacggcgg ctgctctacg      480



cccaactggt tagccgtcac agacaccgtg tcccacgtcc tctcctccca cagggggccc      540



atccgctttg tgcgcctcac ctgctgctac atggcgctgg cctcgcacaa cggcgcgctc      600



cagtactggc tccgggtcct cgctgcgggg ggagtcgagg atctcgtcct cgtcaaccgc      660



ccattaccca cctccgtggg cctccccatc gacgtcctcc acctcgcctc cctccgcacc      720



ctctacctcg gtttctggtg cttcccggac accgccaccc tcccgcgagg ccgcgccacc      780



gtgttcccct gcctccagga gattggactc tgcgctaccg tcatccacgc cagggacatc      840



gaccacctgc tcgcctgcag ccccgtgctc gagaagttcg ccagcatcac cagcatctac      900



ttcacagacc ctgtccggat ccgcagctgc agcctccggt gccttgtctt ctgggagtcc      960



ctggccaatg agctcgactt ggtcgtcgcc ccgcgcctcc agcgcctaat cctgtggcag     1020



tcgcgccaat ggatgatcgg ctccgtccat ttccgcagca ggatcaggat tggctccgcc     1080



accgaactca aggtgctcgg ctacctggag ccaagcatcc accagctcga gattggcggc     1140



accataattg atagtggaac aaagatgacc ccatctaaca tggttccaag tgtcaagatc     1200



ttggccttga agatgcagtt cagaatccgc aaggaagtca agatgctgcc caccttcctg     1260



agatgctttc ccaatgtgga gacattgcat gttctgtcac atgaaactga tgagcaaaat     1320



ggcaagttca atttgaagtt ctgggaggag gttggctcca tcagctgcct agagacacgc     1380



atcaccaagg tggtgtttga cagattcaga ggagagcgtt gtgagctcgc gttcctcaag     1440



ttcgtcctag agagggcaga atcgctgctg aagcttgtgg ttgtattggc caatggagat     1500



caagcctcag tggatgagat gcttgctaag ttgaagtctc tgaccacggt gaaacgagcc     1560



agcgatttcc ctactctgtt ggcagttgcc cgtgagggtg acagcgcctg gtactttgag     1620



agagcatccg atctttctgt tactgacccc ttcgatttgt gaagctcaag gcgatgacat     1680



attccatgac caattctatt gttctcctga gccaatcagt tgttctttgt cattcagggt     1740



atacttgcta ggcattccct agaatcttgt ctcgtcttgt gttgactgta aatgtgagta     1800



cagttctgag tgaatcagga gaggtatata gtttatggaa agcgctgctt gacatttcgc     1860



tattgaaaat ataggttctg catagctgct cttgagttga ctacctccaa atgctgtcac     1920



tggctagttt ctcagttgtg atgtactgca tactgggcat agttggaact ggaaaatatc     1980



gtattggtaa ccccagattc tgtgtatcgt tgatatgatt ctggttt                   2027





<210>  601

<211>  2398

<212>  DNA

<213>  Sorghum bicolor



<400>  601

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggccag aaggtttgac      780



aaggtcaaga ttgtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggtta ggcatgatga     1860



agacattctg ttccaagtgt gagctggtcg agtttgctta ttatcatgga ggctgctgta     1920



gttctcttct ccaccgcaac cttttttcct aaggaatggg cgctgttatt ttcggaagct     1980



tttcccccca tcagcgctga aagcatggtg tgcgcgtgaa ctatggctct atgggagtca     2040



ctctaaagct agctgtttga gtactatgct acgctgctcc cgggagctgc attcacatct     2100



tgaggtgggt cgccagggag gcttcttgat cagacagcct cgcttgacac cgacgcaatc     2160



acgcaaggcc tcccctggac agtcctggac tacgctgggt ttgacatgag aacgaccact     2220



gtgtttgtca tatcgtaact agaggaacat ctagctttat ggtagaacgt aatcacaatg     2280



tatcaccatt cctacggaat tatggatgcg tcttgtaaat aggccggata aagcgcttct     2340



atgttcgcga gcttcttttg tttaccatga ttccaaagtg cgccttttct tttctcgc       2398





<210>  602

<211>  1744

<212>  DNA

<213>  Zea mays



<400>  602

ccttccctcg ctgaagccct ctcgcgcctc ctcccactcc cactggacag agaggaggtt       60



agtggaaggc gggctaggag gctacgccgc cacagacgcg aagcgatagc gtcgggggga      120



agcaaggaag cgggtggcaa tggcgaccgg cggcggcggt gggagcgacg acttccacgg      180



gctcacgttc ggccagaaga tctacttcga gcaggacgcg ggcgccgccg gggggagcgc      240



gacgggcggc aggaagggga agggcgccgc ggcgtccgcg agcgccgccc agccgccgcg      300



gtgccgggtg gacgggtgcg gcgtggatct gagcgccgtc aagcagtact actgccggca      360



caaggtgtgc tacatgcact ccaaggagcc gcgcgtcttc gtcgccggca tcgagcagcg      420



cttctgccag cagtgcagca ggttccacca gttacctgaa tttgaccaag ggaaacgaag      480



ctgccgccgc cgcctcattg gtcacaacga gcgccggagg aagccaccac ctggaccact      540



cacctcacga tacggcccgc ttgctgcatc actagttcaa ggtatcaagt gccacatcat      600



cttgttatgt agctacaggt gtagacacgc gttacatact ttactcgtta ttttcagatg      660



catatgccaa tccgctgttt cccgaatcta ctgttttttt tttggtcaga gcctggtagg      720



ttcaggagct tcctgctcga cttctcgtac ccgagggttc caagcagcgt gagagatgat      780



gcgtggcaat ggcaagggat gcagcatggc ggcgacagga tgctgctggg taccgccagc      840



gccatccagt ggcatgggaa ccaagaacct cacccaccac atcgcagcgc agctgcgggc      900



tatggcaacc atgcgtacaa caactgccat ggtggcggcg gcttggtagc agcagcagcg      960



ggggcgtcaa tgctctcctc tgccttcgag cccccgcctg gcggtggcgg atgtgtcgca     1020



ggagctaccg cggccgactc cagctgtgct ctctctcttc tgtcaactca gccatgggat     1080



acgcccaccc aaagtggcag cagccaccac aaccggtccc cagcgatgtc cgcggctgca     1140



ggcgccttcg aagtggcgcc gtcgtccgtc gtggcgagca gctacacggc gtcgagctcc     1200



tggtctggct cacgggaccc tgccgacggc gccaggaaaa acgcgcagcg tcacgatgat     1260



ggcctgcacc tggtccatcc accaggcccc gtccaccacg gccacttctc cggcgagctc     1320



gagctcgccc tgcagggaag cggcccgccg catgtcgacc atggcggcgg cacctgcttc     1380



agccattctg acaccaacgc gatgaattgg tccctgtagg gacaacaact tttgccgcca     1440



ctgccttgat ccggtcggca cgccacgaga catggagcac ttgggattgg gacaccctgg     1500



ttttgtgccc ctgaccttgc cgttctggtt tttcagggtg gaactaactg ggattcccta     1560



ggcgtagatc atgaatcccc tttccccgtg taacccattg cgtccatgaa gtcggcccaa     1620



caccggatca tatataattc tacaactccc ataacctaaa tcattcttca gttgtgaaga     1680



tatatgcttg tcaagtgacc tggttttatt ttatctgcca tcaattcatc atcatcactt     1740



cttt                                                                  1744





<210>  603

<211>  2547

<212>  DNA

<213>  Zea mays



<400>  603

gtgaccaccg ccctctagct cgtcgcctcg tcggcgtgcc cagcttctgg tccagcgcgt       60



cgcctccgct gctgctgggc ccgacgccca actaccgtgc cgaggtccca ggcaggaagc      120



atcttggcgt acgtgccgcc ggcgacaagc acccaccaca ccagtcaaat gaatagttga      180



tttcatttca agcaattcct gaacaactat attacagtca tgaagtcgtt agccaagcaa      240



gagacacagc caaaatcgcg gctcattgtg cgccttggtg tattccttgc atctcaccac      300



attctgttca gtgttatatg ctgctatgca ggcattatcg cgctactact ccttccttca      360



cttgcaaaaa acacatacct ctcggagaat gctcttatac ctggctctgc aaatccatta      420



ttttctactg aagatgccat tgaagcaaac agatttatga aagcaattga agctgtggct      480



agagactcaa gcagtgtaat aggcatggca aatttcatag cacaacaaat agaagatcta      540



ggtgcagaag tgtgttacca aaagtttctc cctcatggca agaattttca ccctctgaag      600



ttcttcacct ccatgacaaa tgatattgca attcaaccta atggcactgc caccaatttt      660



gggataaata ctatcggcat tttacgagct cctcgtggcg atggaaaaga agcaatagtg      720



ctggttactc cttataattc tcaaagagtt cagtcgaatg aattattatc gctggctctt      780



ggtttctctg tcttctctct cttaagtcga gcagcatggc tgtccaagga tgttgtgtgg      840



ttatctgcag actcacagtt tggagagtat gctgcagtct ctgcatggct aaaccagtat      900



cataatcccg tgtttttgag tcactcagtg gtgtcacata ccaagatgta cggtgcaaac      960



aatatatatg atggtaattc agaaaaaaca gaagccacgg ctttcaaacg tgctggaaca     1020



atggctgctg ctctcatatt taaagttggg gaaaccagaa gatacagtga cagggatagt     1080



gttacgattt atgcagaggc atctaatgga caaatgccaa acttggacct tctgaatgtg     1140



gtgcactatt tggctgttca cagacaaggt tttcgtgtga acatcgctgc atttagttct     1200



ttgttgagct ctgcatggct cagggttatt gctgaaattt tgcatactat tggtagtgtg     1260



ttaagaaaaa taaatcctga ctggaagctt gatattgcag tccctgatta tgtggaaggg     1320



actgcaaatc tagctaactc tatgtacaac caggctcttg gagtgcccac agggtcccat     1380



ggtgctttcc gtgattatca agttgatgcg gtttctttag aattttcacc aacatttcat     1440



gtcaaaaatg agaatgctaa atctttgttt cttctgaagg gtggaaggtt aattgaagga     1500



gtggcacgtt ctgtgaacaa tctgcttgag aagttccatc agtccttttt cctgtacttc     1560



cttacaggtc caagcaagtt catttcggtt ggtgtgtata tgattccgtt tgcattgctt     1620



ttggcacctc tcccaatagt tgctgctgcc cttgctgatg gcagtagaag catggaaaaa     1680



acagcggata agttgatagg cgacggtaaa acagatggca ttgctgatat ttcgcagaac     1740



aagggtggat catggaaatg gcttcgagct gcaaaagtat tgcttgttgt ccaattatgg     1800



gcagtacttg tttcactact tccatattac attactcaga tacctgatgc cacacctacg     1860



caaagcacac tcatttgggt tgtgctctcc atcgtcgtac tgatctccct atctgtcttg     1920



tttggctcac catactcaac tggtgttgaa tggaaacttc tgaaggctac catgatcact     1980



tccatctcca tcggattggg gcttatgtcg ataataaatt tcgccactgc tcagcttggt     2040



gctctgatag tgatcccaat gtgtttgttt tctcggcctc tgaaggcatc agggatgaat     2100



ttccttcctc gggcagtttt gttggcttca aatgtagctt ttgctgtgtt gggttttcct     2160



ccagttgcgt tgctgattat gaaaggagtg tccaagggat cgaggtcgtg gacaatagat     2220



gttggagatt tctgggtatg gatggagttc ctgtgggaaa ggagcagcgc gacgtatctt     2280



tacctatttc ttgtacatct tccctgctgg cttttgtgcg tccttgtgtt cctgcaccca     2340



tgtcaccaat cagaatataa gctgaagcag gaatagctgt ttggcatcca tagtcttgtc     2400



tttttggatg gtaaatcttg tagactagtg tagaaatttc tcactttcac aaacttttgg     2460



ttacccataa ttcggaaatt attcacccag ttggagacga cttgtagacg atgtatcctg     2520



cctaatgtac tgtctgcaac attttcg                                         2547





<210>  604

<211>  1476

<212>  DNA

<213>  Sorghum bicolor



<400>  604

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccggggtact ccacggccga cttccgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gattga                               1476





<210>  605

<211>  1348

<212>  DNA

<213>  Zea mays



<400>  605

caaaaccaaa ctgtaagcgc accgcccaaa accctataaa ccatctccca tctctctggc       60



tcgctcgtct agcagatgca cagcagcagg cgtcccctgt cttcgtcctt ccgaaatccc      120



aatcctccct ccgagtcccc catcccaaaa ctcggagctc cgaagctggc actggcatcg      180



cggcaatgcc gaggccgccc acaatggtga tccaggacga ctacatcgac atggacctga      240



ccccggcagc cacaccggag ccctcgccag cctcgccccg cttcgagttc cagagcgccg      300



gcgccggcgc cgccggcgac aggcataggg aggcggcgtt cgcgtccccc gcggacgagc      360



tgttctacaa gggcaacctg ctgccgctcc acctgccgcc gcggctgcag ctcgtgcaga      420



ggctcctcca ggaccaggag cagccgccgc cgctgcgagg ggcgaagcgg gatgcggagt      480



cggatgccac ggcggcggcg gcggcagagc gaggagacgc cgacgctgcc gctgccgcca      540



gcaaggtgtg cgccgccaag aagccgtctt gggccaagaa gctcaaggtg gttaagcggt      600



gggcgtcgaa ggagtacatc cggtcgctct tcctggccag gccgccgttg ccgagcgaca      660



tcgtcgccgc cgccggtggc gccagcgcca gcggccacgg catcggcagc gtcagcgcga      720



gggggagcgt cctagagcag gaggaggtgt gccagtgcca gcaccgcaag tccttctccg      780



gcatcatccg ccgggtgcgc ctcgtggcga ccaaggcgcc tgggacctcg ccgctgtgct      840



cctcctcgtc ctcgtcctcc tcgtcgtcca cgccgtcgtg ccgcaacgca aacgggttct      900



tcttccggac gccggcgtcg gcggcggggg cgacgccggc gctgaagcgg agcagcagcg      960



ccgggtcgtc cgaggagggc gccatccagg gcgccatcgc gcactgcaag cgttcccagc     1020



tgctgcagcc cgggatggtg gcctcggcgg cggcgcggag gagcgtcagc gacgtcatgt     1080



tctactcggt gaccaacacg cccagagcct cttccgtgac cgccggcgag gtggcgcagg     1140



agaggaggca ggagatgtgc aggggctgat gatggccgat gacatgccac ccatggatca     1200



aaagcgacat tcttttgttt cttttctttt ttgtttattt tgcttgtgaa gatgatgagc     1260



aatgtgatgt gggttgctct ggtgatgatc aggacgcaat gtgctgtgac tgtttccccg     1320



gttcccttga ttctttgcga tcttctcc                                        1348





<210>  606

<211>  1294

<212>  DNA

<213>  Zea mays



<400>  606

ttttgcttgg ctccgcaccc gcgcccggct cgtcgtcaat ccacccatcc atctactgcg       60



ccgaaggaac gccccgccgc tccggcggcg tacgcgggga gaggagagga gatgagacga      120



agtgcgacgg ggtgggcatg aggtgcaaga agcacccgta ccaggtcggc ggcggtggcg      180



tctgtgccac gtgcctccgc gaccgcctga tcgcgctgga ggccgcgcag aacggcgacg      240



cgtcgtcgtc gccgccgccg cccgccgcgg cgcccgcgtt cccgaggtcg gtgtccccgt      300



acgtgtcccg caggaagtcg gacacgtcgg gcgggggcgg cgcgctcagg caccacccga      360



gcctgctctt cttccggacg ccgcaggtag ggcccgccta cggcggcggc gcgttggagg      420



aaggcgacat aggctacgag tacaagaggc ggcgcgccgg caagttctcc gtgctcgcca      480



cgctcttcgg ccaccaccac ggtcacagat cggaagagac gcaccaggaa ggcgccacgg      540



agcggaagaa acattcttgg ttcgccgcga tcatgccgcg ccgccgcaag aagcaggcgg      600



cgccggcctc gatcacctcg ccacggtcag ccccgccgag gcgctcctgc cgcgtggtca      660



gcaaccgggg gctgtcgccg gagcgggaca gccacggcag cggcgacgag agcagctcgc      720



ccgccgcgga tcccccgtgg cggccgtccc cgtcccccat gcggaggacc cgctgccggc      780



gccgccagac gaacagcatg ccgtcgggtt tcgccgtctg cctcagcccg ctcgtgcggc      840



ccagcccggg gcgccgccgc cacgtccagc cgccggaccc gggctccttc tcctccgagt      900



tccggccgtc gccgctccac agtctctcgt ctgctgcctc cgttacgcgc tgtcgctcca      960



ggaagctcgc cgacgtcggc cgcttccggt gatgattgct tccaccttca ccattttcgt     1020



ccttccattc catgcaccaa atccagatta gtccacgttt taaaatttct ttttgttttt     1080



tttttttttt tttttttgga tttattacat tttgtctatc cgtgaagaag aagagtatgc     1140



aagactggca cacacacccc aaaccaagtc caaaacaccc ccgttgacat atatactact     1200



gcgtagttta gtactgcttg tcggcccaac attttgtggc gatgtaacga gctgcttgta     1260



ctgcttccaa gtaactacat attcatgttt gtac                                 1294





<210>  607

<211>  1389

<212>  DNA

<213>  Zea mays



<400>  607

gctccctaga gcctcctcgc cgcgtgccca gccgtcgagt tcccctgcgc gcggagcttt       60



tccctccctg ctcgctcctc cactgcgcgt gccgctcctt tttccccgcg cgtgcaacct      120



cctctgctgg tcgtccctgg tgctccctgc tcgtgccgtg tccctgtttt tctttccctc      180



tctgctcgtc ctccacttag ctcatggcgc atgtccctgc tcggatctct gccttccgcc      240



atggccacgt ccaccacttt tagctgccgc tgtttttcct ctggtgctcg cccctgcgtt      300



ggtcatgcgc ctggttgccg agtccctgct tcctgcgccc tggcgcccaa ccccacgcgg      360



cctccctgct cggaccgcgt tcttggctcc agctcggctc tgtcttgtgc cggcgtcctc      420



tactccatct ttttccctag cgcgccctgg tattcgctcg ctgctgcgcg cgctctcccc      480



tgtctgctcg tcgtggacgc gggccgctgc ccatgccgag ctcccttcag ttctccagcg      540



tcgcgagctc tccgtggtcg acgctcccag ccctctactc accgagctcc gtgcaggtgc      600



gccccatccc gcctgcactc ggaccgcgcc ctcgctgctg gtgctcgccg accgcggttg      660



tcctgcaccc tgttgcgctc gtccaggtcg ccgctgtcga gtccctgtgt gcgcagccat      720



gtccctctgc tcgccgtgct agccgtctac gtcatcgccg gacttgtctc cccgaccatc      780



gtgatgttgt tatttcctgc tgcgccgtga catcgtcaag ctccagtgct tagcgtcgag      840



gtcgctgcgc tgttgtcgct ctaacttcct tgttcttgcg cggcgtgtgg cggtcgtgtt      900



cacatcagcg gcatcgatca gcgtccccat ccccatcgcc gttgaactcc cagacatgtt      960



cctctctgtt tgcttgtcct cggttccggc gcgcgtgatt ttaaagctct acgcgttcgt     1020



cgtgccgcgc tatcatcacc tcctatcgta aactcgatcc ccgttgtcgt tgcttcaccg     1080



tactcgttgg tcgtacgccc ttggagctcc ctgttgagta aaataaatga accggagatc     1140



atcgtggtct ctcatctacc aagccgattc ggttatggta agccgattta tttttacggt     1200



taattagatt gtttagttat attgtggcga tgctctggaa agaatacatt tctcatttct     1260



tttgtgtgtt atatgttgcc ataaggtatt gtagaaatat ttcccatgca gtagtcatgt     1320



catgtgctat tagacttgta tgcaaggcac gattaaatta ataatgtaag aagtgggatt     1380



aacattttt                                                             1389





<210>  608

<211>  1169

<212>  DNA

<213>  Zea mays



<400>  608

gtggtagtcc gggctcctcc tgagagaata atagttctgt tttgaatttg aaatttgttt       60



gatcaggttt cacttgctcg cggagtttga cgaggccaag cgcagctgta gaaagaggct      120



cgatgggcac aaccggcgtc gcaggaagcc gcagccagat accatgagct ctgggagctt      180



tatgacgagt caacaaggga cgaggttctc gtcgttcccg gttccaaggc cggagccgag      240



ctggcccgga gtcatcaaat ccgaggacag cggctcatac tacgcgcacc agcgccaccc      300



ggtcctaagc agcaggccgc acttcgccgg cgggggctcc acgccgccgg cctactcgtc      360



caaggaaggc cggcgcttcc cgttcctcca ggacggctgc gaccagcagc aggtcggcgg      420



cttcagcgcg ggcgcggggg cgcagcagct cgaggtctct tccacgtcca cggtgtgcca      480



gcccctcctc aaggccgccg ccgccgccgc cccaccgccg ccgccagaga gcagcagcag      540



caacaagatg ttctccgacg ggctcgcccc cgccgtgctc gactcggatt gtgctctctc      600



tcttctgtca tcccccgcca actcctccag cgtcgacgtg ggccggatgg tcgtccacca      660



gcccgcggag cacatcccca tggcgcagcc cctcgtcccc ggcggcctcc agcagcagca      720



gcagcaccac ccgttcggcg gctcccccgc ctggttcgcc tgctcccagg ccggctccag      780



cgccgtctcc gccggcggtt tcgcctgccc cccgggcgtg gagagcgagc agctcaacac      840



cgtgctggtg ccgagctccg acggtggcgg ccacgacatg aacatgaact accacggcat      900



attccacgtc ggcggcgacg gctcctccga cgggacgtcc ccttcgctcc cgttctcgtg      960



gcagtagcta gctttccaat tcaagcgtcc agcagtctat cgtttcagct gtactagtgg     1020



tcgttttatt tatttattcg ctgctccctc gctccgtttt aacttgtcct gtcgtttgct     1080



cgtttcttcg ttttgcatgc ctgatgcata tgcggcctgg aaaaaaactc gcataaaatt     1140



actgagaccg tccgtgtgtc tggttctgg                                       1169





<210>  609

<211>  1851

<212>  DNA

<213>  Zea mays



<400>  609

gacaaatagg cggtcccagt atttgttgag agcaaacaaa attcgagaaa aaaagccacg       60



aagagttcac aaggtctccg gtagtagaat gcaaagtagt agatcgctgc cttattagta      120



ttctgtactg taagtcagaa agagtttagt gtgtttctga atcgagtaca gattaaacat      180



gatgaaaggg gtttttcccc cattgtgagc agctgatgct tctcatgtac tagcagggaa      240



ttgccttcta ttatccttta gccgtgcaca tcacatgcgc acatagaaaa ttctagtccc      300



tgacctgcag tagagggcgt ctgacctgca gtagaggccg tctcagaaag acagaaaatg      360



ttcaggcaaa atttcatata gtccctctat tctaaaatta tgagatgtat ttttactaaa      420



aatatatagt ttatacataa atctgtagaa aataatatgt atctagaaaa gctaaaacat      480



tttatgatct aaaatagttt attaaatcat aagcttgttc cacttactta catatgcatg      540



ttactttata ctcatacact tttatactag tatgtaatcg gcagacttgc actctctgta      600



agactgtaac ggaagattaa ctgcatggta ggagtagtta ctggagtact ctcacagagt      660



gtagagtaga gtacagtagc agcattactg caatgagccg gtgcacgtga actcgcatta      720



ctccaatgag atttgtagcg agaaatccgg ggctcatgga tgggtattgg gtagggcctg      780



cagcatgatc tgctccagaa cgccatgccg ggacctttat tctcactttc actttggccg      840



ctgcctttac cactcagcgt ctggactcga gacgctcctt ttctttccac tcatctcttt      900



ttttttcacc tagaaagcat cgcagtcaca gagcctccat taccccccct cgggactgca      960



ccgagtcatc tgcttttgct actaatctga ccgtgagctt tacgaccgtg aaggacgaca     1020



gagatgtcga gcccatttca tctgccttgt tttactacgg agcatgttgc tgcggcctgg     1080



acatggacgc accatgtcac cgtgcgtggt cacatgagga ttcagagttc ccgagaaagc     1140



agcttgtgat agcagtgaca tcacgccgat tccgcgtgcg ccaactgttc cgagagcgat     1200



ggcacgagga ccgccattgc catggccggt ggccccgtcc tctctcggag tcttgtgtcc     1260



tttacctccg caggaatctc tgtcctttcg cgatgtaaaa aattaccgtc gctgttaatt     1320



tgtttactga ctccctgtac tgggtttcct gggctgcagc tgggtgggag gagcaacgcc     1380



acgtcgtcgg cgaaggcgaa gcaggagcac cgcgaggact gccacctcat gggcctgaca     1440



tggctgctga accggaaccc cacgcggtac cgcgaggcgg ccacggcggt catccaggcg     1500



ctcatggcgg ccgacgaggc cggcgcgggc cacccggcca cctgctcgct ccccgccgac     1560



gatgagctac cagtggccgt tgcctcctcg cagattaacg gcgccacgtc cgcatcgatg     1620



tcctccgccc atggcagtct gcttctggtg gtcctcgctg ctgccgtcat tgtcttgtcc     1680



tgctgatcct aatagaatgc ttccaaatcg atgtgtcgca tcgcatggtc tctttattac     1740



tactagtacg tacctttttt tctttgttcg gtctagttga gacaagattt agaattaaga     1800



cgctggtttt gggtggacct cgttaatgat gtaattatat atttgttcct t              1851





<210>  610

<211>  1836

<212>  DNA

<213>  Zea mays



<400>  610

gcattgcatt gcagtgtagc aggcatctcc gtgggcaatt gctggctggc ctagctagct       60



agaagtatct catatccggg tataggagta tctctctcgc tttctctagc catgacgctg      120



gtgaggatgc cttgccgcct ctgctgcttc ctgctcgtcg tcgccgcctc cgccgtctcc      180



gggcgggggc gggtggtcac caccctcccg ggctacgagg gccgcctccc cttccacctc      240



gaaacagggt atgtggaggt ggacgaggac gccggcgcgg agctcttcta ctacttcgtc      300



cgggccgagt ccggcgccga cgacagcgac accccgttcg tcctccggat ccccggcggc      360



caacgctgct ccgccttcag cggcctcgcc tacgagatag gtcccatcat gttcgtcgtg      420



gagccctaca acggcagctt gccgcgcctg cgctacaacc caaactcgtg gacaaaggtg      480



gcgcatattc tttttgtgga ttcgccagtt ggggccgggt tttccttctc cagagatgcc      540



aaaggctaca acgctggagc ggtatcaacc acgctgcact tggcgaagtt cctcaacaag      600



tggttcaacg accatcctga gtaccatgca aatcctttct acatcgatgg agaatcatac      660



gctggaaaaa ttgtaccatt ccttgcacag atgatttcag aaggtattgg agcaggaatg      720



aagtcggcac ctcgtctcaa gggctatcta gtgggcaacc cgtccacaga ggagcgtatt      780



gatgttagcg ctagagtgcc ttgtgctcac gggtttggga ttatatcaca tcagttgtat      840



gagatgatat tggggcattg ccatggagag gactactcca atcctgcaaa agagttgtgt      900



ggtcaggcac tgaagacctt caatgatctc acctcggaag ttgcgcaagg ccatgtactg      960



caggagaaat gcgtcgcggc gtcgtcgtct cctgtgctga acgcaaacag cagggtggcc     1020



ggcggctcgt cgtcgtgggc ctcagatggc aggaagatcc tacgggagga agaaatggtg     1080



ggacgacgcg gagtactggg caagctattt catccaccgg ctcttcctcc attcagttgc     1140



agagtttacc ggtactacct gtcgtatttc tgggcaaacg acaggcgcac ccgggatgct     1200



cttgggatca aggagggcac cgtggatgag tgggtcagat gccacaacga cgaccaagag     1260



ttgccttacg agagcgagct gaagagtgtc gtcaagtacc accggaacct gacgtccaga     1320



ggctaccgag ccatggtata cagcggcgac catgacctgc tggtgccaca tctgggcacc     1380



caggcctggg tcaggtcgct caacttcccc gtcgtggacg actggagggc gtggcatctc     1440



ggtggccagt cagctggatt tacaataact tactcaaaca acatgacatt cgcgacgatc     1500



aagggcgccg ggcatacagc acctgagtac gagccggaga ggtgtttcgc catgttcagc     1560



cgttggatcc tcaaccggcc actctaatcc atcggtgaat gaagagattc gtgtgtaaat     1620



ctttcttcac gaaactactg gctataagat gtacgtggat ggaataaaat gctggctatg     1680



aacccttgat gctgatgata tatactccat cagtgtggtg aagccagata tgtattgtag     1740



gaataaataa aagtacaaaa cggatgtaca aaggtacgta cagtgccctc tagctacgct     1800



acattagcaa tatacacgtt catatacata attttc                               1836





<210>  611

<211>  1849

<212>  DNA

<213>  Zea mays



<400>  611

atctccgtgg gcaattgctg gctggcctag ctagctagaa gtatctcata tccgggtata       60



ggagtatctc tctcgctttc tctagccatg acgctggtga ggatgccttg ccgcctctgc      120



tgcttcctgc tcgtcgtcgc cgcctccgcc gtctccgggc gggggcgggt ggtcaccacc      180



ctcccgggct acgagggccg cctccccttc cacctcgaaa cagggtatgt ggaggtggac      240



gaggacgccg gcgcggagct cttctactac ttcgtccggg ccgagtccgg cgccgacgac      300



agcgacaccc cgttcgtcct ccggatcccc ggcggccaac gctgctccgc cttcagcggc      360



ctcgcctacg agataggtcc catcatgttt gtcgtggagc cctacaacgg cagcttgccg      420



cgcctgcgct acaacccaaa ctcgtggaca aaggtggcgc atattctttt tgtggattca      480



ccagttgggg ccgggttttc cttctccaga gatgccaaag gttacaacgc tggagcggta      540



tcaaccacga tgcacttggc gaagttcctc accaagtggt tcaatgacca tcccgagtac      600



catgcaaatc ctttctacat cgatggagaa tcatacgctg gaaaaattgt accattcctt      660



gcacagatga tttcagaagg tattgaagca ggaatgaagt cggcacctcg tctcaagggc      720



tatctagtgg gcaacccgtc cacagaggag cgtattgatg ttagcgctag agtgccttgt      780



gctcacgggt ttgggattat atcacatcag ttgtatgaga tgatattggg gcattgccat      840



ggagaggact actccaatcc tgcaaaagag ttgtgtggtc aggcactgaa gaccttcaat      900



aatctcacct ccgaagttgc gcaaggccat gtactgcagg agaaatgcgt cgcggcgtcg      960



tcgtctcctg tgccgaacgc aaacagcagg gtggccggcg gctcgtcgtc gtgggcctca     1020



gatggcagga agatcctacg ggaggaagaa atggtgggac gacgcggagt agtactgggc     1080



aagctatttc atccaccggc tcttcctcca ttcagttgca gggtttaccg gtactacctg     1140



tcgtatttct gggcaaacga caggcgcacc cgggatgctc ttgggatcaa ggagggcacc     1200



gtggatgagt gggtcagatg ccacaacgac gaccaagagt tgccttacga gagcgagctg     1260



aagagtgtcg tcaagtacca ccggaacctg acgtccagag gctaccgcgc cctggtatac     1320



agcggcgacc atgacctgct ggtgccacat ctgggcaccc aggcctgggt caggtcgctc     1380



aacttccccg tcgtggacga ctggagggcg tggcatctcg gtggccagtc agctggattt     1440



acgacaactt actcaaacaa catgacattc gcgacgatca agggcgccgg gcatacggcg     1500



cctgagtacg agccggagag gtgtttcgcc atgttcagcc gttggatcct caaccggcca     1560



ctctaatcca tatgtgcctt ctcgcatcga agatccatca gtgaatgaag agattcgtgt     1620



gtaaatcttt cttcacgaaa ctactggcta taagatgtac gtggatggaa taaaatgctg     1680



gctatgaacc cttgatgctg atgatatata tatactccat cagtggtgaa gccagatatg     1740



tattgtagga ataaataaaa gtacaaaacg gatgtacaaa ggtacgtaca gtgccctcta     1800



gctacgctac attagcaata tacacgttca tacaaaaaaa aaaaaaaaa                 1849





<210>  612

<211>  2127

<212>  DNA

<213>  Zea mays



<400>  612

cttgagagga aagccaccag cagcaagcga agaccaccag cagcagcgca gcggcgacgt       60



gtttcgctct cgccatggcg tcgtcgtcct cgtcccggct gctgctcctc ctcctcccgt      120



gcctcgcgct cacgctgctc ggcgcggcag acgccgaagt gcaccaccac gagttcgtta      180



tccaagagac gccggtgaag aggctgtgca agacgcacaa catcatcacg gtgaacgggc      240



agtacccggg gccgacgctg gaggtcaggg agggtgacac gctcgtcatc aacgtcgtca      300



accgggcgca gtacaacgcc accatccact ggtacgtacg tcgttgaagc tcgtttttct      360



caaccgtgag tgacatgaca tgacatgaca tcgatcgtct ggtctgtcta tactctctcc      420



cgttcatggc cggctgtctc gatcaatgcg cgctgcatgc atggcgtgtg caggcacggc      480



atccgccaga taaggactgg gtgggcggac gggccggagt tcgtgacgca gtgccccatc      540



aggcccggcg gcagctacaa gtaccggttc accatccagg ggcaggaggg cacgctgtgg      600



tggcacgcgc acagctcctg gctcagggcc accgtctacg gcgcgctcat catccgcccc      660



agggagaaca agacctaccc attcgccaag ccctcgcgag aagtccccgt catcctcggt      720



gagtggtggg atgcgaaccc gatcgacgtc atccgggagg cgcagaggac cggcggcggt      780



cccaacgtct ccgacgcgtt caccatcaac ggccagcccg gcgacctgta caaatgctcc      840



aacaaagaga ctacggccat cccggtgaag gccggcgaga cggcgctgct gcggttcatc      900



aacgccgcgc tcaaccacga gctgttcgtc accatcgcgc agcacaagat gacggtcgtc      960



gccaccgacg cgtcctacac caagcccttc accacctcgg tgctcatgct cgcgccgggc     1020



cagaccaccg acgtcctcgt caccatggac cagccgccca cccgctacta cgtcgccgcg     1080



cgcgcctacg tctccggcca gaacgtggcc ttcgacaaca ccaccaccac ggccgtcctc     1140



gagtacgact gcggctgcgc ctccgacttc ggccccaaga tacagccggc gttcccggcg     1200



gcgctaccgg ccttcaacga cacgtccgcc gccaccgcct tcgccgccgg gatcaggagc     1260



cccgaccggg tcaaggtcca cgagaacgtc gacgagtacc tcttcttcac cgtcggcctc     1320



ggcctcttca actgcaagcc gggccagctc tgcgccgggc ccaacaacaa cacccgcttc     1380



gcggccagca tgaacaacgt ctccttcgtc ttcccgcaga ccgactccct cctccacgcg     1440



cactactaca agatccccgg cgtcttcacc accgacttcc cggcataccc gcccgtgcag     1500



ttcgactaca cggggcagaa cgtcagccag gccctgtggc agccggtccc cgccaccaag     1560



ctgtacccgc tcaggttcgg ctccgtggtg cagctcgtcc tgcaggacac cagcatcgtc     1620



acgcccgaga accaccccat ccacatccac ggctacgatt tcttcatcct cgccgagggc     1680



ttcggcaact tcgaccccaa gaaggacgtc gagaagttca actacgtcga cccgccccag     1740



aggaacaccg tggcggtgcc tgtcaacggt tgggcggtca tccagttcgt cgccgacaac     1800



cctggtgtgt ggctcatgca ttgccatctg gacgtgcaca tcacctgggg cctggcaatg     1860



gctttcctag tggaggacgg ctatggcgaa ctgcagtcgc tggagccgcc cccagttgat     1920



cttcccatgt gctagtggag gacggatatt tgtgttgagg aagaaagcct ggtcacgttg     1980



tatgttaatt gttactcttt tttggtggag gggggcgtgt tcgtgatctt aaattcttag     2040



gggacttaat tttccagctt gttggtttga agtttcttct gtaaatctat gtaattttca     2100



atgacattca gcatattatt tgagaat                                         2127





<210>  613

<211>  1798

<212>  DNA

<213>  Sorghum bicolor



<400>  613

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ctcccgcacg accacttctg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaagta acatgcaggt ggatccagag ctgccattgt tgatgatccg     1560



tagtgtatac aatcgtatgc accatgtcaa tttgttggtt gctcttgtat attttttaaa     1620



caaactgcag aagctctgcc cctcaattaa gagaggagta aaagagtttt atgtacaggt     1680



tatagatgaa ctgcaaggga aaacagagaa ggccaacaag agtggcaaat attagcagaa     1740



acccgggtag aacacattaa atgtcattgt tgtgtagtag cagtctaaag gtattggc       1798





<210>  614

<211>  1834

<212>  DNA

<213>  Sorghum bicolor



<400>  614

aaacagcaag aaccaccaag gcgactccga tctaaatcaa gcgagtcctc ccgtttcatc       60



gcctgcgaaa aaggcgagaa atccccaacg gaaggagcag cagcgccagt gctactgcta      120



gcagcagaag cagcagcgat tcgttcctca atcctcgtac ctctcgccgc gctcgcccac      180



tcggatcgaa acccctaggg tttcgcatcg gcctcccgcc acttcctatc cctccccctc      240



ccctccctcc gccgcgcgcg cgcggcgagt caccaaaccc taggacggca aatccggtgc      300



gatcgcccac ggtggaggcc tcctcggctg ccgagaggag ccgctcaggg ctcgggtcag      360



ggttccggta cctcgccggc gccgcctctg ggtggtggga ccggtggatg gtcatgggag      420



ccagcggctc caagcttgag aaggccctcg gtgaccagtt cccggaaggc gagcgctact      480



tcggcctcga gaacttcggc aacacctgct actgcaacag tgtccttcag gcactctatt      540



tttgcattcc atttagggag cagttactgg aatattatgc aaataacaaa actccaggtg      600



acgctgaaga aaatcttttg acctgtttgg ccgacctttt tatgcagata agccaagcaa      660



agaaaaagac tggcgttatt gctccaaaac gttttgttca gagagtgaag aaacagaatg      720



agttgtttcg cagctacatg caccaggatg cacacgagtt cttaaatttc cttttgaatg      780



aacttgttga tattctggaa aaagagtcaa gtgctgccaa ggattcaccc caattgtcat      840



ctcctgaaaa agctccaaat ggcccagttc aacctttagc caatggagtt aaaaaagaac      900



ctccagttac tctggtccat aaaaatttcc agggcatatt gaccaacgaa acaagatgct      960



taagatgtga aacagtaact gcaagggatg aaacatttct tgatcttagt gttgacattg     1020



aacaaaatag ttctatcaca agctgcctga aaaatttctg ttctactgag actttaaatg     1080



cagaggataa attcttctgc gacaaatgct gcagtttgca agaagcacag aagagaatga     1140



agatcaagaa ggctccccac atattggtga tccatctaaa gcgtttcaag tacattgagc     1200



agcttggccg gtataagaag ctttcatacc gggttgtatt ccccatggaa ctgaagctca     1260



gtaatacatc cgacgatgta gacactgagt actccctctt tgctgtcgtg gtccatgtcg     1320



gaagtggccc caaccatggg cattatgtaa gccttgtcaa aagccacaac cactggttgt     1380



tcttcgacga cgaaaacgtc gagatggttg aagagcagac cctacaaaca ttcttcggtt     1440



cctcacatga atactcagga aacacagacc atgggtatat cttattttac gaggggcttg     1500



gcgggaagag ttagatgggg tttattcacc ttccctgttc cttttctcct ttttctcttt     1560



ggagcttgca agttcactct tgtacctaca cagctactat ttcattacct ccatggaatc     1620



gaagaggttg tatgaggtga ggacgccaga ttttgggtgg tttcagtgta caggggataa     1680



tggaatctag ctcccaacga tgaaataagg tgtaattttt aagttcgcct gaccagtttc     1740



ttctcagggc taacatcttt tgttaaagag tgggacttta ctattggaca cactgtacat     1800



caattctagt tcataactct gcgcatttac cagt                                 1834





<210>  615

<211>  1304

<212>  DNA

<213>  Zea mays



<400>  615

gcccctcgac ggcgcccgcg cccgcccgct gccaggtcga cggctgcaac gttgacctca       60



ccgacgtcaa gcccgcctac tactgccgcc acaaggtgtg caaaatgcac tccaaggagc      120



cccgcgtcct cgtcaacggc ctcgagcagc gcttctgcca gcagtgcagc aggttccacc      180



agctgcctga attcgaccag ctaaagaaga gctgccgcaa acgcctcgca ggccacaacg      240



agcgccggag gaggccgccg cctggacccc ttgcgtcacg atacggccgt cacgctgcgt      300



cgctcggcga gcccggcagg ctcagaagct tcatgctgga tttctcgtac ccgagggtct      360



caagcgccat gaggggtggg tttccggcgg tgaggcccgg tggtgaaagg gtgcctggcg      420



gtatccagtg gcaagcgggc ttggatcctc gtcaccacca aggcgcggtc gcgggatacg      480



gcgcccacta tgggagcgag ggtggtagct cgtcgtcggc gaggccgccg gtgttccctg      540



gcccggagct gcccccaggt ggatgccttg caggagtccc cgcggactcc agctgtgctc      600



tctctcttct gtcaactcag ccatgggatg ctgcccacag ccacagccac agccacgctg      660



cgccaacagc gggtttcgac ggcggcagcc ctgtggcgcc ctccctcatg gcggcgagta      720



gctacatcgc gccgagcccc tggaccgaga ccgactcctg gggccacgaa ggcgggcgga      780



gcgtgcctca gctgccacct gacgacgtcc ccctcggcga ggtgcactcc ggctcgagca      840



gccaccacgg ccagttctca ggtgagctcg agctcgccct gcagggaaac aggccagcgc      900



cagggtcggc ggcaccgcca gcgccgcgca ataatcaggg ctccgcgggc acgttcgacc      960



aggctggcaa cacgatggac tggtcgctct aggccggggg ccgaaataaa gcgcagcaga     1020



tcctagccgc gcagggagat ggaggaggct gaaagtctga tgctgcacgc tgcttgctta     1080



gcttagagca tccagcatga taagagtgat gaactgatgc ggtgtcagga gactagttta     1140



ttctgtgctt caccatgaac tcgtctgtcg cggcgtctat gtagacagac gtcacggcag     1200



acgtccgtgg tttgaagtta ccagtatgct tgtcgtggac tttgctcgcg atgcattaat     1260



ctcattgttc accatccaga aaaaaaaaaa aaaaaaaaaa aaaa                      1304





<210>  616

<211>  2154

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  616

atgaagtcgt tagccaagca agagacacag ccaaaatcgc ggctcattgt gcgccttggt       60



gtattccttg catctcacca cattctgttc agtgttatat gctgctatgc aggcattatc      120



gcgctactac tccttccttc acttgcaaaa aacacatacc tctcggagaa tgctcttata      180



cctggctctg caaatccatt attttctact gaagatgcca ttgaagcaaa cagatttatg      240



aaagcaattg aagctgtggc tagagactca agcagtgtaa taggcatggc aaatttcata      300



gcacaacaaa tagaagatct aggtgcagaa gtgtgttacc aaaagtttct ccctcatggc      360



aagaattttc accctctgaa gttcttcacc tccatgacaa atgatattgc aattcaacct      420



aatggcactg ccaccaattt tgggataaat actatcggca ttttacgagc tcctcgtggc      480



gatggaaaag aagcaatagt gctggttact ccttataatt ctcaaagagt tcagtcgaat      540



gaattattat cgctggctct tggttttagc gtatttagct tactctcacg agcagcatgg      600



ctgtccaagg atgttgtgtg gttatctgca gactcacagt ttggagagta tgctgcagtc      660



tctgcatggc taaaccagta tcataatccc gtgtttttga gtcactcagt ggtgtcacat      720



accaagatgt acggtgcaaa caatatatat gatggtaatt cagaaaaaac agaagccacg      780



gctttcaaac gtgctggaac aatggctgct gctctcatat ttaaagttgg ggaaaccaga      840



agatacagtg acagggatag tgttacgatt tatgcagagg catctaatgg acaaatgcca      900



aacttggacc ttctgaatgt ggtgcactat ttggctgttc acagacaagg ttttcgtgtg      960



aacatcgctg catttagttc tttgttgagc tctgcatggc tcagggttat tgctgaaatt     1020



ttgcatacta ttggtagtgt gttaagaaaa ataaatcctg actggaagct tgatattgca     1080



gtccctgatt atgtggaagg gactgcaaat ctagctaact ctatgtacaa ccaggctctt     1140



ggagtgccca cagggtccca tggtgctttc cgtgattatc aagttgatgc ggtttcttta     1200



gaattttcac caacatttca tgtcaaaaat gagaatgcta aatctttgtt tcttctgaag     1260



ggtggaaggt taattgaagg agtggcacgt tctgtgaaca atctgcttga gaagttccat     1320



cagtcctttt tcctgtactt ccttacaggt ccaagcaagt tcatttcggt tggtgtgtat     1380



atgattccgt ttgcattgct tttggcacct ctcccaatag ttgctgctgc ccttgctgat     1440



ggcagtagaa gcatggaaaa aacagcggat aagttgatag gcgacggtaa aacagatggc     1500



attgctgata tttcgcagaa caagggtgga tcatggaaat ggcttcgagc tgcaaaagta     1560



ttgcttgttg tccaattatg ggcagtactt gtttcactac ttccatatta cattactcag     1620



atacctgatg ccacacctac gcaaagcaca ctcatttggg ttgtgctctc catcgtcgta     1680



ctgatctccc tatctgtctt gtttggctca ccatactcaa ctggtgttga atggaaactt     1740



ctgaaggcta ccatgatcac ttccatctcc atcggattgg ggcttatgtc gataataaat     1800



ttcgccactg ctcagcttgg tgctctgata gtgatcccaa tgtgtttgtt ttctcggcct     1860



ctgaaggcat cagggatgaa tttccttcct cgggcagttt tgttggcttc aaatgtagct     1920



tttgctgtgt tgggttttcc tccagttgcg ttgctgatta tgaaaggagt gtccaaggga     1980



tcgaggtcgt ggacaataga tgttggagat ttctgggtat ggatggagtt cctgtgggaa     2040



aggagcagcg cgacgtatct ttacctattt cttgtacatc ttccctgctg gcttttgtgc     2100



gtccttgtgt tcctgcaccc atgtcaccaa tcagaatata agctgaagca ggaa           2154





<210>  617

<211>  2154

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  617

atgaagtcgt tagccaagca agagacacag ccaaaatcgc ggctcattgt gcgccttggt       60



gtattccttg catctcacca cattctgttc agtgttatat gctgctatgc aggcattatc      120



gcgctactac tccttccttc acttgcaaaa aacacatacc tctcggagaa tgctcttata      180



cctggctctg caaatccatt attttctact gaagatgcca ttgaagcaaa cagatttatg      240



aaagcaattg aagctgtggc tagagactca agcagtgtaa taggcatggc aaatttcata      300



gcacaacaaa tagaagatct aggtgcagaa gtgtgttacc aaaagtttct ccctcatggc      360



aagaattttc accctctgaa gttcttcacc tccatgacaa atgatattgc aattcaacct      420



aatggcactg ccaccaattt tgggataaat actatcggca ttttacgagc tcctcgtggc      480



gatggaaaag aagcaatagt gctggttact ccttataatt ctcaaagagt tcagtcgaat      540



gaattattat cgctggctct tggtttcagc gtattcagct tactctcacg agcagcatgg      600



ctgtccaagg atgttgtgtg gttatctgca gactcacagt ttggagagta tgctgcagtc      660



tctgcatggc taaaccagta tcataatccc gtgtttttga gtcactcagt ggtgtcacat      720



accaagatgt acggtgcaaa caatatatat gatggtaatt cagaaaaaac agaagccacg      780



gctttcaaac gtgctggaac aatggctgct gctctcatat ttaaagttgg ggaaaccaga      840



agatacagtg acagggatag tgttacgatt tatgcagagg catctaatgg acaaatgcca      900



aacttggacc ttctgaatgt ggtgcactat ttggctgttc acagacaagg ttttcgtgtg      960



aacatcgctg catttagttc tttgttgagc tctgcatggc tcagggttat tgctgaaatt     1020



ttgcatacta ttggtagtgt gttaagaaaa ataaatcctg actggaagct tgatattgca     1080



gtccctgatt atgtggaagg gactgcaaat ctagctaact ctatgtacaa ccaggctctt     1140



ggagtgccca cagggtccca tggtgctttc cgtgattatc aagttgatgc ggtttcttta     1200



gaattttcac caacatttca tgtcaaaaat gagaatgcta aatctttgtt tcttctgaag     1260



ggtggaaggt taattgaagg agtggcacgt tctgtgaaca atctgcttga gaagttccat     1320



cagtcctttt tcctgtactt ccttacaggt ccaagcaagt tcatttcggt tggtgtgtat     1380



atgattccgt ttgcattgct tttggcacct ctcccaatag ttgctgctgc ccttgctgat     1440



ggcagtagaa gcatggaaaa aacagcggat aagttgatag gcgacggtaa aacagatggc     1500



attgctgata tttcgcagaa caagggtgga tcatggaaat ggcttcgagc tgcaaaagta     1560



ttgcttgttg tccaattatg ggcagtactt gtttcactac ttccatatta cattactcag     1620



atacctgatg ccacacctac gcaaagcaca ctcatttggg ttgtgctctc catcgtcgta     1680



ctgatctccc tatctgtctt gtttggctca ccatactcaa ctggtgttga atggaaactt     1740



ctgaaggcta ccatgatcac ttccatctcc atcggattgg ggcttatgtc gataataaat     1800



ttcgccactg ctcagcttgg tgctctgata gtgatcccaa tgtgtttgtt ttctcggcct     1860



ctgaaggcat cagggatgaa tttccttcct cgggcagttt tgttggcttc aaatgtagct     1920



tttgctgtgt tgggttttcc tccagttgcg ttgctgatta tgaaaggagt gtccaaggga     1980



tcgaggtcgt ggacaataga tgttggagat ttctgggtat ggatggagtt cctgtgggaa     2040



aggagcagcg cgacgtatct ttacctattt cttgtacatc ttccctgctg gcttttgtgc     2100



gtccttgtgt tcctgcaccc atgtcaccaa tcagaatata agctgaagca ggaa           2154





<210>  618

<211>  2154

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  618

atgaagtcgt tagccaagca agagacacag ccaaaatcgc ggctcattgt gcgccttggt       60



gtattccttg catctcacca cattctgttc agtgttatat gctgctatgc aggcattatc      120



gcgctactac tccttccttc acttgcaaaa aacacatacc tctcggagaa tgctcttata      180



cctggctctg caaatccatt attttctact gaagatgcca ttgaagcaaa cagatttatg      240



aaagcaattg aagctgtggc tagagactca agcagtgtaa taggcatggc aaatttcata      300



gcacaacaaa tagaagatct aggtgcagaa gtgtgttacc aaaagtttct ccctcatggc      360



aagaattttc accctctgaa gttcttcacc tccatgacaa atgatattgc aattcaacct      420



aatggcactg ccaccaattt tgggataaat actatcggca ttttacgagc tcctcgtggc      480



gatggaaaag aagcaatagt gctggttact ccttataatt ctcaaagagt tcagtcgaat      540



gaattattat cgctggctct tggtttttct gtattttctt tactctcacg agcagcatgg      600



ctgtccaagg atgttgtgtg gttatctgca gactcacagt ttggagagta tgctgcagtc      660



tctgcatggc taaaccagta tcataatccc gtgtttttga gtcactcagt ggtgtcacat      720



accaagatgt acggtgcaaa caatatatat gatggtaatt cagaaaaaac agaagccacg      780



gctttcaaac gtgctggaac aatggctgct gctctcatat ttaaagttgg ggaaaccaga      840



agatacagtg acagggatag tgttacgatt tatgcagagg catctaatgg acaaatgcca      900



aacttggacc ttctgaatgt ggtgcactat ttggctgttc acagacaagg ttttcgtgtg      960



aacatcgctg catttagttc tttgttgagc tctgcatggc tcagggttat tgctgaaatt     1020



ttgcatacta ttggtagtgt gttaagaaaa ataaatcctg actggaagct tgatattgca     1080



gtccctgatt atgtggaagg gactgcaaat ctagctaact ctatgtacaa ccaggctctt     1140



ggagtgccca cagggtccca tggtgctttc cgtgattatc aagttgatgc ggtttcttta     1200



gaattttcac caacatttca tgtcaaaaat gagaatgcta aatctttgtt tcttctgaag     1260



ggtggaaggt taattgaagg agtggcacgt tctgtgaaca atctgcttga gaagttccat     1320



cagtcctttt tcctgtactt ccttacaggt ccaagcaagt tcatttcggt tggtgtgtat     1380



atgattccgt ttgcattgct tttggcacct ctcccaatag ttgctgctgc ccttgctgat     1440



ggcagtagaa gcatggaaaa aacagcggat aagttgatag gcgacggtaa aacagatggc     1500



attgctgata tttcgcagaa caagggtgga tcatggaaat ggcttcgagc tgcaaaagta     1560



ttgcttgttg tccaattatg ggcagtactt gtttcactac ttccatatta cattactcag     1620



atacctgatg ccacacctac gcaaagcaca ctcatttggg ttgtgctctc catcgtcgta     1680



ctgatctccc tatctgtctt gtttggctca ccatactcaa ctggtgttga atggaaactt     1740



ctgaaggcta ccatgatcac ttccatctcc atcggattgg ggcttatgtc gataataaat     1800



ttcgccactg ctcagcttgg tgctctgata gtgatcccaa tgtgtttgtt ttctcggcct     1860



ctgaaggcat cagggatgaa tttccttcct cgggcagttt tgttggcttc aaatgtagct     1920



tttgctgtgt tgggttttcc tccagttgcg ttgctgatta tgaaaggagt gtccaaggga     1980



tcgaggtcgt ggacaataga tgttggagat ttctgggtat ggatggagtt cctgtgggaa     2040



aggagcagcg cgacgtatct ttacctattt cttgtacatc ttccctgctg gcttttgtgc     2100



gtccttgtgt tcctgcaccc atgtcaccaa tcagaatata agctgaagca ggaa           2154





<210>  619

<211>  2154

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  619

atgaagtcgt tagccaagca agagacacag ccaaaatcgc ggctcattgt gcgccttggt       60



gtattccttg catctcacca cattctgttc agtgttatat gctgctatgc aggcattatc      120



gcgctactac tccttccttc acttgcaaaa aacacatacc tctcggagaa tgctcttata      180



cctggctctg caaatccatt attttctact gaagatgcca ttgaagcaaa cagatttatg      240



aaagcaattg aagctgtggc tagagactca agcagtgtaa taggcatggc aaatttcata      300



gcacaacaaa tagaagatct aggtgcagaa gtgtgttacc aaaagtttct ccctcatggc      360



aagaattttc accctctgaa gttcttcacc tccatgacaa atgatattgc aattcaacct      420



aatggcactg ccaccaattt tgggataaat actatcggca ttttacgagc tcctcgtggc      480



gatggaaaag aagcaatagt gctggttact ccttataatt ctcaaagagt tcagtcgaat      540



gaattattat cgctggctct tggttttagc gtctttagct tactctcacg agcagcatgg      600



ctgtccaagg atgttgtgtg gttatctgca gactcacagt ttggagagta tgctgcagtc      660



tctgcatggc taaaccagta tcataatccc gtgtttttga gtcactcagt ggtgtcacat      720



accaagatgt acggtgcaaa caatatatat gatggtaatt cagaaaaaac agaagccacg      780



gctttcaaac gtgctggaac aatggctgct gctctcatat ttaaagttgg ggaaaccaga      840



agatacagtg acagggatag tgttacgatt tatgcagagg catctaatgg acaaatgcca      900



aacttggacc ttctgaatgt ggtgcactat ttggctgttc acagacaagg ttttcgtgtg      960



aacatcgctg catttagttc tttgttgagc tctgcatggc tcagggttat tgctgaaatt     1020



ttgcatacta ttggtagtgt gttaagaaaa ataaatcctg actggaagct tgatattgca     1080



gtccctgatt atgtggaagg gactgcaaat ctagctaact ctatgtacaa ccaggctctt     1140



ggagtgccca cagggtccca tggtgctttc cgtgattatc aagttgatgc ggtttcttta     1200



gaattttcac caacatttca tgtcaaaaat gagaatgcta aatctttgtt tcttctgaag     1260



ggtggaaggt taattgaagg agtggcacgt tctgtgaaca atctgcttga gaagttccat     1320



cagtcctttt tcctgtactt ccttacaggt ccaagcaagt tcatttcggt tggtgtgtat     1380



atgattccgt ttgcattgct tttggcacct ctcccaatag ttgctgctgc ccttgctgat     1440



ggcagtagaa gcatggaaaa aacagcggat aagttgatag gcgacggtaa aacagatggc     1500



attgctgata tttcgcagaa caagggtgga tcatggaaat ggcttcgagc tgcaaaagta     1560



ttgcttgttg tccaattatg ggcagtactt gtttcactac ttccatatta cattactcag     1620



atacctgatg ccacacctac gcaaagcaca ctcatttggg ttgtgctctc catcgtcgta     1680



ctgatctccc tatctgtctt gtttggctca ccatactcaa ctggtgttga atggaaactt     1740



ctgaaggcta ccatgatcac ttccatctcc atcggattgg ggcttatgtc gataataaat     1800



ttcgccactg ctcagcttgg tgctctgata gtgatcccaa tgtgtttgtt ttctcggcct     1860



ctgaaggcat cagggatgaa tttccttcct cgggcagttt tgttggcttc aaatgtagct     1920



tttgctgtgt tgggttttcc tccagttgcg ttgctgatta tgaaaggagt gtccaaggga     1980



tcgaggtcgt ggacaataga tgttggagat ttctgggtat ggatggagtt cctgtgggaa     2040



aggagcagcg cgacgtatct ttacctattt cttgtacatc ttccctgctg gcttttgtgc     2100



gtccttgtgt tcctgcaccc atgtcaccaa tcagaatata agctgaagca ggaa           2154





<210>  620

<211>  2154

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  620

atgaagtcgt tagccaagca agagacacag ccaaaatcgc ggctcattgt gcgccttggt       60



gtattccttg catctcacca cattctgttc agtgttatat gctgctatgc aggcattatc      120



gcgctactac tccttccttc acttgcaaaa aacacatacc tctcggagaa tgctcttata      180



cctggctctg caaatccatt attttctact gaagatgcca ttgaagcaaa cagatttatg      240



aaagcaattg aagctgtggc tagagactca agcagtgtaa taggcatggc aaatttcata      300



gcacaacaaa tagaagatct aggtgcagaa gtgtgttacc aaaagtttct ccctcatggc      360



aagaattttc accctctgaa gttcttcacc tccatgacaa atgatattgc aattcaacct      420



aatggcactg ccaccaattt tgggataaat actatcggca ttttacgagc tcctcgtggc      480



gatggaaaag aagcaatagt gctggttact ccttataatt ctcaaagagt tcagtcgaat      540



gaattattat cgctggctct tggtttcagc gtattcagct tactctcacg agcagcatgg      600



ctgtccaagg atgttgtgtg gttatctgca gactcacagt ttggagagta tgctgcagtc      660



tctgcatggc taaaccagta tcataatccc gtgtttttga gtcactcagt ggtgtcacat      720



accaagatgt acggtgcaaa caatatatat gatggtaatt cagaaaaaac agaagccacg      780



gctttcaaac gtgctggaac aatggctgct gctctcatat ttaaagttgg ggaaaccaga      840



agatacagtg acagggatag tgttacgatt tatgcagagg catctaatgg acaaatgcca      900



aacttggacc ttctgaatgt ggtgcactat ttggctgttc acagacaagg ttttcgtgtg      960



aacatcgctg catttagttc tttgttgagc tctgcatggc tcagggttat tgctgaaatt     1020



ttgcatacta ttggtagtgt gttaagaaaa ataaatcctg actggaagct tgatattgca     1080



gtccctgatt atgtggaagg gactgcaaat ctagctaact ctatgtacaa ccaggctctt     1140



ggagtgccca cagggtccca tggtgctttc cgtgattatc aagttgatgc ggtttcttta     1200



gaattttcac caacatttca tgtcaaaaat gagaatgcta aatctttgtt tcttctgaag     1260



ggtggaaggt taattgaagg agtggcacgt tctgtgaaca atctgcttga gaagttccat     1320



cagtcctttt tcctgtactt ccttacaggt ccaagcaagt tcatttcggt tggtgtgtat     1380



atgattccgt ttgcattgct tttggcacct ctcccaatag ttgctgctgc ccttgctgat     1440



ggcagtagaa gcatggaaaa aacagcggat aagttgatag gcgacggtaa aacagatggc     1500



attgctgata tttcgcagaa caagggtgga tcatggaaat ggcttcgagc tgcaaaagta     1560



ttgcttgttg tccaattatg ggcagtactt gtttcactac ttccatatta cattactcag     1620



atacctgatg ccacacctac gcaaagcaca ctcatttggg ttgtgctctc catcgtcgta     1680



ctgatctccc tatctgtctt gtttggctca ccatactcaa ctggtgttga atggaaactt     1740



ctgaaggcta ccatgatcac ttccatctcc atcggattgg ggcttatgtc gataataaat     1800



ttcgccactg ctcagcttgg tgctctgata gtgatcccaa tgtgtttgtt ttctcggcct     1860



ctgaaggcat cagggatgaa tttccttcct cgggcagttt tgttggcttc aaatgtagct     1920



tttgctgtgt tgggttttcc tccagttgcg ttgctgatta tgaaaggagt gtccaaggga     1980



tcgaggtcgt ggacaataga tgttggagat ttctgggtat ggatggagtt cctgtgggaa     2040



aggagcagcg cgacgtatct ttacctattt cttgtacatc ttccctgctg gcttttgtgc     2100



gtccttgtgt tcctgcaccc atgtcaccaa tcagaatata agctgaagca ggaa           2154





<210>  621

<211>  2160

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  621

atggcgacct ctgcgctgga ctccctcccg gcgccgctcc ggtcgctgcg gctcaagacg       60



aagcagcagg agctcctgct ccgcgtctcg gcgctggcgc tcatctacgt gctcgccttc      120



gccgtccgcc tcttctccgt cctccgctac gagtccatga tccacgagtt cgacccctac      180



ttcaactacc gcaccacgct cttcctcacc gagaacggct tcagcgagtt ctggaactgg      240



ttcgactccg agagctggta cccgctcggc cgcgtcgtcg ggggcacgct cttcccgggt      300



ctcatggtga ccgccgcact gctccaccgc ctcctccgcg cgctctccct cgccgtccac      360



atccgcgagg tctgcgtact cacggcgccc ttcttcgccg ccaacaccac gctcgtcgcc      420



tacgccttcg gccgcgagat ctgggactcc ggggcgggat tagtagcagc agcattaata      480



gccatcgttc ctggctacat ctcccgctcc gttgcggggt cctacgataa cgagggcgtc      540



gccatcttcg ccctgctgct caccttctac ctcttcgtgc gcgccgtcaa cacggggtcg      600



ctcgcctggg cgcttgcctc ggcgttcggc tacttctaca tggtgtcggc gtggggaggc      660



tacgtgttca tcatcaatct aatcccactc tacgtgcttg tgctgcttgt cactgggagg      720



tattcgcaga ggctctacgt ggcctacaat tgcatgtatg tgcttgggat gttgcttgcg      780



atgcagatcc gttttgttgg attccagcat gtgcagtccg gggagcacat ggctgctatg      840



ggagtcttct tcctcttgca ggttttcttc ttcttggact gggtgaaata cctgctaaat      900



gatgccagac tattcaagtc attccttcga actactctta catgtgtgat tactgttggc      960



accctggctc ttggaattgg tactgcatca ggttacatct ccccttggac aggacggttt     1020



tactccctgc ttgatcctac ctatgcaaag gaccatatac caatcattgc gtctgtttct     1080



gagcatcagc caacagcatg gtcatctttc atgtttgact tccacatcct ccttttcctg     1140



ttcccagctg gcctttattt ctgtttcaaa cgcctgtcag atgccactat attcattgtt     1200



atgtatggcc tcacgagtat gtactttgct ggtgtgatgg tccggttaat tcttgtggca     1260



gcaccagccg tttgtcttat tagtgctatt gctgcatctg ctacaataaa gaatctgacc     1320



actttgatcc gggcaaagag cagaagtcca cagactactt ctggaaaaac aactggctca     1380



aaggcagctg caaagggtgc agttgatcaa agtttaccat tccaacacaa tgcagctatt     1440



gctcttcttc tgggtgcctt ttacttgcta agtaggtatg ccatacactg cacttgggtg     1500



acatctgagg cttattcttc tccatctata gttttggccg caaggggtca taatggtgga     1560



agagtcatct ttgatgatta tcgtgaggca tactattggc ttcgtcagaa cactcctcct     1620



gatgctaaga ttatgtcttg gtgggactat ggataccaaa ttacagctat gggtaacaga     1680



actgtcattg ttgataataa tacatggaat aacacacaca tagctacagt tggacgtgct     1740



atgtcatctt atgaagatga agcatatgag atcatgcaat cacttgatgt gaactacgtg     1800



cttgttgtat ttggaggtgt taccggatat tcttcagatg atatcaacaa gttcttatgg     1860



atggtacgca ttggtggagg agttttccct gtaatcaaag agccagatta ccttgttaat     1920



ggggagtatc gtattgacaa gggggcagca ccaaaaatgc tgaactgcct aatgtacaag     1980



ctttgttact accgatttgg agaacttacc acggaatatg gaaagcctcc agggtatgat     2040



cgtgtaagag gagtggagat tggcaacaaa gacataaaac ttgaatactt ggaggaggca     2100



tttacaactt caaactggat agtgcgcata tacaaggtga aacccccaaa gaacaggtcc     2160





<210>  622

<211>  2160

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  622

atggcgacct ctgcgctgga ctccctcccg gcgccgctcc ggtcgctgcg gctcaagacg       60



aagcagcagg agctcctgct ccgcgtctcg gcgctggcgc tcatctacgt gctcgccttc      120



gccgtccgcc tcttctccgt cctccgctac gagtccatga tccacgagtt cgacccctac      180



ttcaactacc gcaccacgct cttcctcacc gagaacggct tcagcgagtt ctggaactgg      240



ttcgactccg agagctggta cccgctcggc cgcgtcgtcg ggggcacgct cttcccgggt      300



ctcatggtga ccgccgcact gctccaccgc ctcctccgcg cgctctccct cgccgtccac      360



atccgcgagg tctgcgtact cacggcgccc ttcttcgccg ccaacaccac gctcgtcgcc      420



tacgccttcg gccgcgagat ctgggactcc ggggcggggt tagtagcagc agcattaata      480



gccatcgttc ctggctacat ctcccgctcc gttgcggggt cctacgataa cgagggcgtc      540



gccatcttcg ccctgctgct caccttctac ctcttcgtgc gcgccgtcaa cacggggtcg      600



ctcgcctggg cgcttgcctc ggcgttcggc tacttctaca tggtgtcggc gtggggaggc      660



tacgtgttca tcatcaatct aatcccactc tacgtgcttg tgctgcttgt cactgggagg      720



tattcgcaga ggctctacgt ggcctacaat tgcatgtatg tgcttgggat gttgcttgcg      780



atgcagatcc gttttgttgg attccagcat gtgcagtccg gggagcacat ggctgctatg      840



ggagtcttct tcctcttgca ggttttcttc ttcttggact gggtgaaata cctgctaaat      900



gatgccagac tattcaagtc attccttcga actactctta catgtgtgat tactgttggc      960



accctggctc ttggaattgg tactgcatca ggttacatct ccccttggac aggacggttt     1020



tactccctgc ttgatcctac ctatgcaaag gaccatatac caatcattgc gtctgtttct     1080



gagcatcagc caacagcatg gtcatctttc atgtttgact tccacatcct ccttttcctg     1140



ttcccagctg gcctttattt ctgtttcaaa cgcctgtcag atgccactat attcattgtt     1200



atgtatggcc tcacgagtat gtactttgct ggtgtgatgg tccggttaat tcttgtggca     1260



gcaccagccg tttgtcttat tagtgctatt gctgcatctg ctacaataaa gaatctgacc     1320



actttgatcc gggcaaagag cagaagtcca cagactactt ctggaaaaac aactggctca     1380



aaggcagctg caaagggtgc agttgatcaa agtttaccat tccaacacaa tgcagctatt     1440



gctcttcttc tgggtgcctt ttacttgcta agtaggtatg ccatacactg cacttgggtg     1500



acatctgagg cttattcttc tccatctata gttttggccg caaggggtca taatggtgga     1560



agagtcatct ttgatgatta tcgtgaggca tactattggc ttcgtcagaa cactcctcct     1620



gatgctaaga ttatgtcttg gtgggactat ggataccaaa ttacagctat gggtaacaga     1680



actgtcattg ttgataataa tacatggaat aacacacaca tagctacagt tggacgtgct     1740



atgtcatctt atgaagatga agcatatgag atcatgcaat cacttgatgt gaactacgtg     1800



cttgttgtat ttggaggtgt taccggatat tcttcagatg atatcaacaa gttcttatgg     1860



atggtacgca ttggtggagg agttttccct gtaatcaaag agccagatta ccttgttaat     1920



ggggagtatc gtattgacaa gggggcagca ccaaaaatgc tgaactgcct aatgtacaag     1980



ctttgttact accgatttgg agaacttacc acggaatatg gaaagcctcc agggtatgat     2040



cgtgtaagag gagtggagat tggcaacaaa gacataaaac ttgaatactt ggaggaggca     2100



tttacaactt caaactggat agtgcgcata tacaaggtga aacccccaaa gaacaggtcc     2160





<210>  623

<211>  2160

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  623

atggcgacct ctgcgctgga ctccctcccg gcgccgctcc ggtcgctgcg gctcaagacg       60



aagcagcagg agctcctgct ccgcgtctcg gcgctggcgc tcatctacgt gctcgccttc      120



gccgtccgcc tcttctccgt cctccgctac gagtccatga tccacgagtt cgacccctac      180



ttcaactacc gcaccacgct cttcctcacc gagaacggct tcagcgagtt ctggaactgg      240



ttcgactccg agagctggta cccgctcggc cgcgtcgtcg ggggcacgct cttcccgggt      300



ctcatggtga ccgccgcact gctccaccgc ctcctccgcg cgctctccct cgccgtccac      360



atccgcgagg tctgcgtact cacggcgccc ttcttcgccg ccaacaccac gctcgtcgcc      420



tacgccttcg gccgcgagat ctgggactcc ggggcggggt tagtagcagc agcattaata      480



gccatcgttc ctggctacat ctcccgctcc gttgcggggt cctacgataa cgagggcgtc      540



gccatcttcg ccctgctgct caccttctac ctcttcgtgc gcgccgtcaa cacggggtcg      600



ctcgcctggg cgcttgcctc ggcgttcggc tacttctaca tggtgtcggc gtggggaggc      660



tacgtgttca tcatcaatct aatcccactc tacgtgcttg tgctgcttgt cactgggagg      720



tattcgcaga ggctctacgt ggcctacaat tgcatgtatg tgcttgggat gttgcttgcg      780



atgcagatcc gttttgttgg attccagcat gtgcagtccg gggagcacat ggctgctatg      840



ggagtcttct tcctcttgca ggttttcttc ttcttggact gggtgaaata cctgctaaat      900



gatgccagac tattcaagtc attccttcga actactctta catgtgtgat tactgttggc      960



accctggctc ttggaattgg tactgcatca ggttacatct ccccttggac aggacggttt     1020



tactccctgc ttgatcctac ctatgcaaag gaccatatac caatcattgc gtctgtttct     1080



gagcatcagc caacagcatg gtcatctttc atgtttgact tccacatcct ccttttcctg     1140



ttcccagctg gcctttattt ctgtttcaaa cgcctgtcag atgccactat attcattgtt     1200



atgtatggcc tcacgagtat gtactttgct ggtgtgatgg tccggttaat tcttgtggca     1260



gcaccagccg tttgtcttat tagtgctatt gctgcatctg ctacaataaa gaatctgacc     1320



actttgatcc gggcaaagag cagaagtcca cagactactt ctggaaaaac aactggctca     1380



aaggcagctg caaagggtgc agttgatcaa agtttaccat tccaacacaa tgcagctatt     1440



gctcttcttc tgggtgcctt ttacttgcta agtaggtatg ccatacactg cacttgggtg     1500



acatctgagg cttattcttc tccatctata gttttggccg caaggggtca taatggtgga     1560



agagtcatct ttgatgatta tcgtgaggca tactattggc ttcgtcagaa cactcctcct     1620



gatgctaaga ttatgtcttg gtgggactat ggataccaaa ttacagctat gggtaacaga     1680



actgtcattg ttgataataa tacatggaat aacacacaca tagctacagt tggacgtgct     1740



atgtcatctt atgaagatga agcatatgag atcatgcaat cacttgatgt gaactacgtg     1800



cttgttgtat ttggaggtgt taccggatat tcttcagatg atatcaacaa gttcttatgg     1860



atggtacgca ttggtggagg agttttccct gtaatcaaag agccagatta ccttgttaat     1920



ggggagtatc gtattgacaa gggggcagca ccaaaaatgc tgaactgcct aatgtacaag     1980



ctttgttact accgatttgg agaacttacc acggaatatg gaaagcctcc agggtatgat     2040



cgtgtaagag gagtggagat tggcaacaaa gacataaaac ttgaatactt ggaggaggca     2100



tttacaactt caaactggat agtgcgcata tacaaggtga aacccccaaa gaacaggtcc     2160





<210>  624

<211>  2160

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  624

atggcgacct ctgcgctgga ctccctcccg gcgccgctcc ggtcgctgcg gctcaagacg       60



aagcagcagg agctcctgct ccgcgtctcg gcgctggcgc tcatctacgt gctcgccttc      120



gccgtccgcc tcttctccgt cctccgctac gagtccatga tccacgagtt cgacccctac      180



ttcaactacc gcaccacgct cttcctcacc gagaacggct tcagcgagtt ctggaactgg      240



ttcgactccg agagctggta cccgctcggc cgcgtcgtcg ggggcacgct cttcccgggt      300



ctcatggtga ccgccgcact gctccaccgc ctcctccgcg cgctctccct cgccgtccac      360



atccgcgagg tctgcgtact cacggcgccc ttcttcgccg ccaacaccac gctcgtcgcc      420



tacgccttcg gccgcgagat ctgggactcc ggggcggggt tagtagcagc agcattaata      480



gccatcgttc ctggctacat ctcccgctcc gttgcggggt cctacgataa cgagggcgtc      540



gccatcttcg ccctgctgct caccttctac ctcttcgtgc gcgccgtcaa cacggggtcg      600



ctcgcctggg cgcttgcctc ggcgttcggc tacttctaca tggtgtcggc gtggggaggc      660



tacgtgttca tcatcaatct aatcccactc tacgtgcttg tgctgcttgt cactgggagg      720



tattcgcaga ggctctacgt ggcctacaat tgcatgtatg tgcttgggat gttgcttgcg      780



atgcagatcc gttttgttgg attccagcat gtgcagtccg gggagcacat ggctgctatg      840



ggagtcttct tcctcttgca ggttttcttc ttcttggact gggtgaaata cctgctaaat      900



gatgccagac tattcaagtc attccttcga actactctta catgtgtgat tactgttggc      960



accctggctc ttggaattgg tactgcatca ggttacatct ccccttggac aggacggttt     1020



tactccctgc ttgatcctac ctatgcaaag gaccatatac caatcattgc gtctgtttct     1080



gagcatcagc caacagcatg gtcatctttc atgtttgact tccacatcct ccttttcctg     1140



ttcccagctg gcctttattt ctgtttcaaa cgcctgtcag atgccactat attcattgtt     1200



atgtatggcc tcacgagtat gtactttgct ggtgtgatgg tccggttaat tcttgtggca     1260



gcaccagccg tttgtcttat tagtgctatt gctgcatctg ctacaataaa gaatctgacc     1320



actttgatcc gggcaaagag cagaagtcca cagactactt ctggaaaaac aactggctca     1380



aaggcagctg caaagggtgc agttgatcaa agtttaccat tccaacacaa tgcagctatt     1440



gctcttcttc tgggtgcctt ttacttgcta agtaggtatg ccatacactg cacttgggtg     1500



acatctgagg cttattcttc tccatctata gttttggccg caaggggtca taatggtgga     1560



agagtcatct ttgatgatta tcgtgaggca tactattggc ttcgtcagaa cactcctcct     1620



gatgctaaga ttatgtcttg gtgggactat ggataccaaa ttacagctat gggtaacaga     1680



actgtcattg ttgataataa tacatggaat aacacacaca tagctacagt tggacgtgct     1740



atgtcatctt atgaagatga agcatatgag atcatgcaat cacttgatgt gaactacgtg     1800



cttgttgtat ttggaggtgt taccggatat tcttcagatg atatcaacaa gttcttatgg     1860



atggtacgca ttggtggagg agttttccct gtaatcaaag agccagatta ccttgttaat     1920



ggggagtatc gtattgacaa gggggcagca ccaaaaatgc tgaactgcct aatgtacaag     1980



ctttgttact accgatttgg agaacttacc acggaatatg gaaagcctcc agggtatgat     2040



cgtgtaagag gagtggagat tggcaacaaa gacataaaac ttgaatactt ggaggaggca     2100



tttacaactt caaactggat agtgcgcata tacaaggtga aacccccaaa gaacaggtcc     2160





<210>  625

<211>  2160

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  625

atggcgacct ctgcgctgga ctccctcccg gcgccgctcc ggtcgctgcg gctcaagacg       60



aagcagcagg agctcctgct ccgcgtctcg gcgctggcgc tcatctacgt gctcgccttc      120



gccgtccgcc tcttctccgt cctccgctac gagtccatga tccacgagtt cgacccctac      180



ttcaactacc gcaccacgct cttcctcacc gagaacggct tcagcgagtt ctggaactgg      240



ttcgactccg agagctggta cccgctcggc cgcgtcgtcg ggggcacgct cttcccgggt      300



ctcatggtga ccgccgcact gctccaccgc ctcctccgcg cgctctccct cgccgtccac      360



atccgcgagg tctgcgtact cacggcgccc ttcttcgccg ccaacaccac gctcgtcgcc      420



tacgccttcg gccgcgagat ctgggactcc ggggcgggac tcgtagcagc agcactcata      480



gccatcgttc ctggctacat ctcccgctcc gttgcggggt cctacgataa cgagggcgtc      540



gccatcttcg ccctgctgct caccttctac ctcttcgtgc gcgccgtcaa cacggggtcg      600



ctcgcctggg cgcttgcctc ggcgttcggc tacttctaca tggtgtcggc gtggggaggc      660



tacgtgttca tcatcaatct aatcccactc tacgtgcttg tgctgcttgt cactgggagg      720



tattcgcaga ggctctacgt ggcctacaat tgcatgtatg tgcttgggat gttgcttgcg      780



atgcagatcc gttttgttgg attccagcat gtgcagtccg gggagcacat ggctgctatg      840



ggagtcttct tcctcttgca ggttttcttc ttcttggact gggtgaaata cctgctaaat      900



gatgccagac tattcaagtc attccttcga actactctta catgtgtgat tactgttggc      960



accctggctc ttggaattgg tactgcatca ggttacatct ccccttggac aggacggttt     1020



tactccctgc ttgatcctac ctatgcaaag gaccatatac caatcattgc gtctgtttct     1080



gagcatcagc caacagcatg gtcatctttc atgtttgact tccacatcct ccttttcctg     1140



ttcccagctg gcctttattt ctgtttcaaa cgcctgtcag atgccactat attcattgtt     1200



atgtatggcc tcacgagtat gtactttgct ggtgtgatgg tccggttaat tcttgtggca     1260



gcaccagccg tttgtcttat tagtgctatt gctgcatctg ctacaataaa gaatctgacc     1320



actttgatcc gggcaaagag cagaagtcca cagactactt ctggaaaaac aactggctca     1380



aaggcagctg caaagggtgc agttgatcaa agtttaccat tccaacacaa tgcagctatt     1440



gctcttcttc tgggtgcctt ttacttgcta agtaggtatg ccatacactg cacttgggtg     1500



acatctgagg cttattcttc tccatctata gttttggccg caaggggtca taatggtgga     1560



agagtcatct ttgatgatta tcgtgaggca tactattggc ttcgtcagaa cactcctcct     1620



gatgctaaga ttatgtcttg gtgggactat ggataccaaa ttacagctat gggtaacaga     1680



actgtcattg ttgataataa tacatggaat aacacacaca tagctacagt tggacgtgct     1740



atgtcatctt atgaagatga agcatatgag atcatgcaat cacttgatgt gaactacgtg     1800



cttgttgtat ttggaggtgt taccggatat tcttcagatg atatcaacaa gttcttatgg     1860



atggtacgca ttggtggagg agttttccct gtaatcaaag agccagatta ccttgttaat     1920



ggggagtatc gtattgacaa gggggcagca ccaaaaatgc tgaactgcct aatgtacaag     1980



ctttgttact accgatttgg agaacttacc acggaatatg gaaagcctcc agggtatgat     2040



cgtgtaagag gagtggagat tggcaacaaa gacataaaac ttgaatactt ggaggaggca     2100



tttacaactt caaactggat agtgcgcata tacaaggtga aacccccaaa gaacaggtcc     2160





<210>  626

<211>  1737

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  626

atggctacct cctatctgct gccttgctat gtcctcatca ctgtgctcgt gctcttcttc       60



tccgtcgacg ttacggaagg ggccatcagg gagtaccagt tcgatgtgca aatgacgaat      120



gtgacgcggc tgtgcagcag caagagcatc gtgacggtga acggtcagtt cccggggccg      180



ccggtgttcg ctagggaggg cgacttcgtc gtcatccgcg tcgtcaacca cgtcccctac      240



aacatgagca tccactggca cggcgtccgg cagctgcgga gcgggtgggc ggacgggccg      300



gcgtacatca cgcaatgccc gatccagagc gggcagagct acgtgtacaa gttcaccatc      360



acggggcagc gcggcacgct gtggtggcac gcgcacatct cctggctgcg cgccaccgtc      420



tacggcgcca tcgtcatcct gcccaagccc ggcgtccctt acccgttccc ggcgccctac      480



aaggaggtcc ccgtcatctt cggcgagtgg tggacggcgg acacggaggc ggtgatcagc      540



caggcgctcc agaccggcgg aggacccaac gtctccgacg ccttcaccat caacgggctg      600



cctggcccgc tctacaactg ctctgcaaaa gacacgttca agctgaaggt gaagcccggg      660



aagacgtaca tgctcagaat aataaatgca gcattaaacg acgagctctt cttctccatc      720



gccggccacc cactcaccgt cgtcgacgtc gacgcggtct acatcaagcc catcaccgtc      780



gacaccatcc tcatcacccc cgggcagacc accaacgtgc tcctcaccac caagccgtcc      840



taccccggcg ccacctacta catgctggcc gcgccctact ccaccgccag gccgggcacc      900



ttcgacaaca ccaccgtggc cggcatcctc gagtacgagg accccacgtc ccctcccccg      960



cacgcggcct tcaacaagaa cctcccggcg ctgaagccga cgctgccgca gatcaacgac     1020



acgagcttcg tcgccaacta cacggccaag ctccgcagcc tcgccaccgc ggagtacccc     1080



gccgccgtgc cgcaggaggt ggaccggcgg ttcttcttca cggtcgggct gggcacgcac     1140



ccgtgcgccg tgaacgggac gtgccagggc cccaccaaca gcagccggtt cgcggcgtcc     1200



gtgaacaacg tctccttcgt gctcccgacg acggcgctgc tgcagtcgca cttcgccgga     1260



aagtccaagg gggtgtactc gtccaacttc cccgccgcgc cgctcgtccc gttcaactac     1320



acggggacgc cgcccaacaa caccaacgtg gccaacggca ccaagctggt ggtgctgccg     1380



tacggcgcca gcgtggagct ggtgttgcag ggcaccagca tcctcggcgc cgagagccac     1440



ccgctgcacc tccacggctt caacttcttc gtggtcggcc aagggttcgg caacttcgac     1500



cccgccaagg acccggccaa gtacaacctc gtcgaccccg tcgagcggaa caccgtcggc     1560



gtgccggcgg ccggctgggt ggccatccgg ttccgcgcag acaatccagg ggtatggttt     1620



atgcattgcc acttggaggt tcacgtcagc tggggcctga aaatggcatg gctggtgctg     1680



gacggagacc gccccaacga gaagctgctg cctccgccgt ctgatctccc caggtgc        1737





<210>  627

<211>  1737

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  627

atggctacct cctatctgct gccttgctat gtcctcatca ctgtgctcgt gctcttcttc       60



tccgtcgacg ttacggaagg ggccatcagg gagtaccagt tcgatgtgca aatgacgaat      120



gtgacgcggc tgtgcagcag caagagcatc gtgacggtga acggtcagtt cccggggccg      180



ccggtgttcg ctagggaggg cgacttcgtc gtcatccgcg tcgtcaacca cgtcccctac      240



aacatgagca tccactggca cggcgtccgg cagctgcgga gcgggtgggc ggacgggccg      300



gcgtacatca cgcaatgccc gatccagagc gggcagagct acgtgtacaa gttcaccatc      360



acggggcagc gcggcacgct gtggtggcac gcgcacatct cctggctgcg cgccaccgtc      420



tacggcgcca tcgtcatcct gcccaagccc ggcgtccctt acccgttccc ggcgccctac      480



aaggaggtcc ccgtcatctt cggcgagtgg tggacggcgg acacggaggc ggtgatcagc      540



caggcgctcc agaccggcgg aggacccaac gtctccgacg ccttcaccat caacgggctg      600



cctggcccgc tctacaactg ctctgcaaaa gacacgttca agctgaaggt gaagcccggg      660



aagacgtaca tgctccgcat aataaatgca gcattaaacg acgagctctt cttctccatc      720



gccggccacc cactcaccgt cgtcgacgtc gacgcggtct acatcaagcc catcaccgtc      780



gacaccatcc tcatcacccc cgggcagacc accaacgtgc tcctcaccac caagccgtcc      840



taccccggcg ccacctacta catgctggcc gcgccctact ccaccgccag gccgggcacc      900



ttcgacaaca ccaccgtggc cggcatcctc gagtacgagg accccacgtc ccctcccccg      960



cacgcggcct tcaacaagaa cctcccggcg ctgaagccga cgctgccgca gatcaacgac     1020



acgagcttcg tcgccaacta cacggccaag ctccgcagcc tcgccaccgc ggagtacccc     1080



gccgccgtgc cgcaggaggt ggaccggcgg ttcttcttca cggtcgggct gggcacgcac     1140



ccgtgcgccg tgaacgggac gtgccagggc cccaccaaca gcagccggtt cgcggcgtcc     1200



gtgaacaacg tctccttcgt gctcccgacg acggcgctgc tgcagtcgca cttcgccgga     1260



aagtccaagg gggtgtactc gtccaacttc cccgccgcgc cgctcgtccc gttcaactac     1320



acggggacgc cgcccaacaa caccaacgtg gccaacggca ccaagctggt ggtgctgccg     1380



tacggcgcca gcgtggagct ggtgttgcag ggcaccagca tcctcggcgc cgagagccac     1440



ccgctgcacc tccacggctt caacttcttc gtggtcggcc aagggttcgg caacttcgac     1500



cccgccaagg acccggccaa gtacaacctc gtcgaccccg tcgagcggaa caccgtcggc     1560



gtgccggcgg ccggctgggt ggccatccgg ttccgcgcag acaatccagg ggtatggttt     1620



atgcattgcc acttggaggt tcacgtcagc tggggcctga aaatggcatg gctggtgctg     1680



gacggagacc gccccaacga gaagctgctg cctccgccgt ctgatctccc caggtgc        1737





<210>  628

<211>  1737

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  628

atggctacct cctatctgct gccttgctat gtcctcatca ctgtgctcgt gctcttcttc       60



tccgtcgacg ttacggaagg ggccatcagg gagtaccagt tcgatgtgca aatgacgaat      120



gtgacgcggc tgtgcagcag caagagcatc gtgacggtga acggtcagtt cccggggccg      180



ccggtgttcg ctagggaggg cgacttcgtc gtcatccgcg tcgtcaacca cgtcccctac      240



aacatgagca tccactggca cggcgtccgg cagctgcgga gcgggtgggc ggacgggccg      300



gcgtacatca cgcaatgccc gatccagagc gggcagagct acgtgtacaa gttcaccatc      360



acggggcagc gcggcacgct gtggtggcac gcgcacatct cctggctgcg cgccaccgtc      420



tacggcgcca tcgtcatcct gcccaagccc ggcgtccctt acccgttccc ggcgccctac      480



aaggaggtcc ccgtcatctt cggcgagtgg tggacggcgg acacggaggc ggtgatcagc      540



caggcgctcc agaccggcgg aggacccaac gtctccgacg ccttcaccat caacgggctg      600



cctggcccgc tctacaactg ctctgcaaaa gacacgttca agctgaaggt gaagcccggg      660



aagacgtaca tgctccgcat aataaatgca gcattaaacg acgagctctt cttctccatc      720



gccggccacc cactcaccgt cgtcgacgtc gacgcggtct acatcaagcc catcaccgtc      780



gacaccatcc tcatcacccc cgggcagacc accaacgtgc tcctcaccac caagccgtcc      840



taccccggcg ccacctacta catgctggcc gcgccctact ccaccgccag gccgggcacc      900



ttcgacaaca ccaccgtggc cggcatcctc gagtacgagg accccacgtc ccctcccccg      960



cacgcggcct tcaacaagaa cctcccggcg ctgaagccga cgctgccgca gatcaacgac     1020



acgagcttcg tcgccaacta cacggccaag ctccgcagcc tcgccaccgc ggagtacccc     1080



gccgccgtgc cgcaggaggt ggaccggcgg ttcttcttca cggtcgggct gggcacgcac     1140



ccgtgcgccg tgaacgggac gtgccagggc cccaccaaca gcagccggtt cgcggcgtcc     1200



gtgaacaacg tctccttcgt gctcccgacg acggcgctgc tgcagtcgca cttcgccgga     1260



aagtccaagg gggtgtactc gtccaacttc cccgccgcgc cgctcgtccc gttcaactac     1320



acggggacgc cgcccaacaa caccaacgtg gccaacggca ccaagctggt ggtgctgccg     1380



tacggcgcca gcgtggagct ggtgttgcag ggcaccagca tcctcggcgc cgagagccac     1440



ccgctgcacc tccacggctt caacttcttc gtggtcggcc aagggttcgg caacttcgac     1500



cccgccaagg acccggccaa gtacaacctc gtcgaccccg tcgagcggaa caccgtcggc     1560



gtgccggcgg ccggctgggt ggccatccgg ttccgcgcag acaatccagg ggtatggttt     1620



atgcattgcc acttggaggt tcacgtcagc tggggcctga aaatggcatg gctggtgctg     1680



gacggagacc gccccaacga gaagctgctg cctccgccgt ctgatctccc caggtgc        1737





<210>  629

<211>  1737

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  629

atggctacct cctatctgct gccttgctat gtcctcatca ctgtgctcgt gctcttcttc       60



tccgtcgacg ttacggaagg ggccatcagg gagtaccagt tcgatgtgca aatgacgaat      120



gtgacgcggc tgtgcagcag caagagcatc gtgacggtga acggtcagtt cccggggccg      180



ccggtgttcg ctagggaggg cgacttcgtc gtcatccgcg tcgtcaacca cgtcccctac      240



aacatgagca tccactggca cggcgtccgg cagctgcgga gcgggtgggc ggacgggccg      300



gcgtacatca cgcaatgccc gatccagagc gggcagagct acgtgtacaa gttcaccatc      360



acggggcagc gcggcacgct gtggtggcac gcgcacatct cctggctgcg cgccaccgtc      420



tacggcgcca tcgtcatcct gcccaagccc ggcgtccctt acccgttccc ggcgccctac      480



aaggaggtcc ccgtcatctt cggcgagtgg tggacggcgg acacggaggc ggtgatcagc      540



caggcgctcc agaccggcgg aggacccaac gtctccgacg ccttcaccat caacgggctg      600



cctggcccgc tctacaactg ctctgcaaaa gacacgttca agctgaaggt gaagcccggg      660



aagacgtaca tgctccgcat aataaatgca gcattaaacg acgagctctt cttctccatc      720



gccggccacc cactcaccgt cgtcgacgtc gacgcggtct acatcaagcc catcaccgtc      780



gacaccatcc tcatcacccc cgggcagacc accaacgtgc tcctcaccac caagccgtcc      840



taccccggcg ccacctacta catgctggcc gcgccctact ccaccgccag gccgggcacc      900



ttcgacaaca ccaccgtggc cggcatcctc gagtacgagg accccacgtc ccctcccccg      960



cacgcggcct tcaacaagaa cctcccggcg ctgaagccga cgctgccgca gatcaacgac     1020



acgagcttcg tcgccaacta cacggccaag ctccgcagcc tcgccaccgc ggagtacccc     1080



gccgccgtgc cgcaggaggt ggaccggcgg ttcttcttca cggtcgggct gggcacgcac     1140



ccgtgcgccg tgaacgggac gtgccagggc cccaccaaca gcagccggtt cgcggcgtcc     1200



gtgaacaacg tctccttcgt gctcccgacg acggcgctgc tgcagtcgca cttcgccgga     1260



aagtccaagg gggtgtactc gtccaacttc cccgccgcgc cgctcgtccc gttcaactac     1320



acggggacgc cgcccaacaa caccaacgtg gccaacggca ccaagctggt ggtgctgccg     1380



tacggcgcca gcgtggagct ggtgttgcag ggcaccagca tcctcggcgc cgagagccac     1440



ccgctgcacc tccacggctt caacttcttc gtggtcggcc aagggttcgg caacttcgac     1500



cccgccaagg acccggccaa gtacaacctc gtcgaccccg tcgagcggaa caccgtcggc     1560



gtgccggcgg ccggctgggt ggccatccgg ttccgcgcag acaatccagg ggtatggttt     1620



atgcattgcc acttggaggt tcacgtcagc tggggcctga aaatggcatg gctggtgctg     1680



gacggagacc gccccaacga gaagctgctg cctccgccgt ctgatctccc caggtgc        1737





<210>  630

<211>  1737

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  630

atggctacct cctatctgct gccttgctat gtcctcatca ctgtgctcgt gctcttcttc       60



tccgtcgacg ttacggaagg ggccatcagg gagtaccagt tcgatgtgca aatgacgaat      120



gtgacgcggc tgtgcagcag caagagcatc gtgacggtga acggtcagtt cccggggccg      180



ccggtgttcg ctagggaggg cgacttcgtc gtcatccgcg tcgtcaacca cgtcccctac      240



aacatgagca tccactggca cggcgtccgg cagctgcgga gcgggtgggc ggacgggccg      300



gcgtacatca cgcaatgccc gatccagagc gggcagagct acgtgtacaa gttcaccatc      360



acggggcagc gcggcacgct gtggtggcac gcgcacatct cctggctgcg cgccaccgtc      420



tacggcgcca tcgtcatcct gcccaagccc ggcgtccctt acccgttccc ggcgccctac      480



aaggaggtcc ccgtcatctt cggcgagtgg tggacggcgg acacggaggc ggtgatcagc      540



caggcgctcc agaccggcgg aggacccaac gtctccgacg ccttcaccat caacgggctg      600



cctggcccgc tctacaactg ctctgcaaaa gacacgttca agctgaaggt gaagcccggg      660



aagacgtaca tgctccgcat aataaatgca gcattaaacg acgagctctt cttctccatc      720



gccggccacc cactcaccgt cgtcgacgtc gacgcggtct acatcaagcc catcaccgtc      780



gacaccatcc tcatcacccc cgggcagacc accaacgtgc tcctcaccac caagccgtcc      840



taccccggcg ccacctacta catgctggcc gcgccctact ccaccgccag gccgggcacc      900



ttcgacaaca ccaccgtggc cggcatcctc gagtacgagg accccacgtc ccctcccccg      960



cacgcggcct tcaacaagaa cctcccggcg ctgaagccga cgctgccgca gatcaacgac     1020



acgagcttcg tcgccaacta cacggccaag ctccgcagcc tcgccaccgc ggagtacccc     1080



gccgccgtgc cgcaggaggt ggaccggcgg ttcttcttca cggtcgggct gggcacgcac     1140



ccgtgcgccg tgaacgggac gtgccagggc cccaccaaca gcagccggtt cgcggcgtcc     1200



gtgaacaacg tctccttcgt gctcccgacg acggcgctgc tgcagtcgca cttcgccgga     1260



aagtccaagg gggtgtactc gtccaacttc cccgccgcgc cgctcgtccc gttcaactac     1320



acggggacgc cgcccaacaa caccaacgtg gccaacggca ccaagctggt ggtgctgccg     1380



tacggcgcca gcgtggagct ggtgttgcag ggcaccagca tcctcggcgc cgagagccac     1440



ccgctgcacc tccacggctt caacttcttc gtggtcggcc aagggttcgg caacttcgac     1500



cccgccaagg acccggccaa gtacaacctc gtcgaccccg tcgagcggaa caccgtcggc     1560



gtgccggcgg ccggctgggt ggccatccgg ttccgcgcag acaatccagg ggtatggttt     1620



atgcattgcc acttggaggt tcacgtcagc tggggcctga aaatggcatg gctggtgctg     1680



gacggagacc gccccaacga gaagctgctg cctccgccgt ctgatctccc caggtgc        1737





<210>  631

<211>  1410

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  631

atggccggga cggaggtgga ggacccgccg gcggcggcgt tggaggtgcc cgcgaaacgc       60



ggccttctgc ggtacaactc gccgctggcg caggtgtccc tgctgggcct catctgcttc      120



tgctgccccg gcatgttcaa cgcgctgtcg ggcctcggcg gcggaggcca ggtcgacccc      180



accatcgccg acaacgccaa caccgcgctc tacgcctgct tcgcggtgtt cggcgtgctg      240



ggcggcgccg cgcacaacct gctgggcccg cgcgcgacgc tgctggccgg cgcgctcacg      300



tacccgctct acgccggctc cttcctctac tacaaccacc gcccgggctc gcaggtgttc      360



cccgtcacgg cgggcgccct gctcggcgcc ggcgcgggct tcctctgggc ggcgcagggc      420



gccgtcatga cgtcgtaccc gccgcccaac cgccggggca cctacatctc cctcttctgg      480



tgcctcttca acctgggcgg cgtcctcggc ggcctcctcc ctttcgccct caactacaac      540



cgcggggaca agaaagggag cgtcagcgac ggcacgtaca tcgccttcat ggcattcatg      600



ttagtaggag cagcattaac agtgctcgtg ctgccgcccg ccaggatcgt ccgcgacgac      660



ggcaccaggg ccaccagggt caccttctcc tccccggcca ccgagggcgc cgagatcctc      720



aagctcttcg ccaactggaa gatgctgctc gcgctgccgg ccgcctgggc cagcaacttc      780



ttctacacct accagttcaa caacgtcaac agcggcctct tcacgctccg caccaggggc      840



ctcaacaacg tcttctactg gggcgcgcag atgatcggct ccgccggcat cggctacttc      900



ctcgacttcg gcttcgccag ccgccgaaag agggggctgt tcggggtcgc cgccgtcgcc      960



gccgtcggaa cggccatctg gggaggcggt ctggccaacc agctcagcta caatgccgtg     1020



ccggtgcccg accccatcga tttcaaggac ggccaccgct acgccgggcc cttcctgctc     1080



tacttcagct acggactgct agatgccatg ttccagagcc ttatctactg gatcatcggc     1140



gcactcgcca acgactccca aatcctcagc aggtacgtcg ggttctacaa gggggtgcag     1200



agtgcgggag cggcggtggc atggcaggtg gacaggcgcc acacgcccct catgtcccag     1260



ctgatcgtca actgggggct catgaccatc agctacccct tgcttgcgct gctggtgttc     1320



ctggccgtga aggacgagag ctactcggtt tcgtcggtgg aggacggccg ggagaaggac     1380



agcaagctgt ccgcgccgac cagcttccac                                      1410





<210>  632

<211>  1410

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  632

atggccggga cggaggtgga ggacccgccg gcggcggcgt tggaggtgcc cgcgaaacgc       60



ggccttctgc ggtacaactc gccgctggcg caggtgtccc tgctgggcct catctgcttc      120



tgctgccccg gcatgttcaa cgcgctgtcg ggcctcggcg gcggaggcca ggtcgacccc      180



accatcgccg acaacgccaa caccgcgctc tacgcctgct tcgcggtgtt cggcgtgctg      240



ggcggcgccg cgcacaacct gctgggcccg cgcgcgacgc tgctggccgg cgcgctcacg      300



tacccgctct acgccggctc cttcctctac tacaaccacc gcccgggctc gcaggtgttc      360



cccgtcacgg cgggcgccct gctcggcgcc ggcgcgggct tcctctgggc ggcgcagggc      420



gccgtcatga cgtcgtaccc gccgcccaac cgccggggca cctacatctc cctcttctgg      480



tgcctcttca acctgggcgg cgtcctcggc ggcctcctcc ctttcgccct caactacaac      540



cgcggggaca agaaagggag cgtcagcgac ggcacgtaca tcgccttcat ggcattcatg      600



ctcgtaggag cagcactcac agtgctcgtg ctgccgcccg ccaggatcgt ccgcgacgac      660



ggcaccaggg ccaccagggt caccttctcc tccccggcca ccgagggcgc cgagatcctc      720



aagctcttcg ccaactggaa gatgctgctc gcgctgccgg ccgcctgggc cagcaacttc      780



ttctacacct accagttcaa caacgtcaac agcggcctct tcacgctccg caccaggggc      840



ctcaacaacg tcttctactg gggcgcgcag atgatcggct ccgccggcat cggctacttc      900



ctcgacttcg gcttcgccag ccgccgaaag agggggctgt tcggggtcgc cgccgtcgcc      960



gccgtcggaa cggccatctg gggaggcggt ctggccaacc agctcagcta caatgccgtg     1020



ccggtgcccg accccatcga tttcaaggac ggccaccgct acgccgggcc cttcctgctc     1080



tacttcagct acggactgct agatgccatg ttccagagcc ttatctactg gatcatcggc     1140



gcactcgcca acgactccca aatcctcagc aggtacgtcg ggttctacaa gggggtgcag     1200



agtgcgggag cggcggtggc atggcaggtg gacaggcgcc acacgcccct catgtcccag     1260



ctgatcgtca actgggggct catgaccatc agctacccct tgcttgcgct gctggtgttc     1320



ctggccgtga aggacgagag ctactcggtt tcgtcggtgg aggacggccg ggagaaggac     1380



agcaagctgt ccgcgccgac cagcttccac                                      1410





<210>  633

<211>  1410

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  633

atggccggga cggaggtgga ggacccgccg gcggcggcgt tggaggtgcc cgcgaaacgc       60



ggccttctgc ggtacaactc gccgctggcg caggtgtccc tgctgggcct catctgcttc      120



tgctgccccg gcatgttcaa cgcgctgtcg ggcctcggcg gcggaggcca ggtcgacccc      180



accatcgccg acaacgccaa caccgcgctc tacgcctgct tcgcggtgtt cggcgtgctg      240



ggcggcgccg cgcacaacct gctgggcccg cgcgcgacgc tgctggccgg cgcgctcacg      300



tacccgctct acgccggctc cttcctctac tacaaccacc gcccgggctc gcaggtgttc      360



cccgtcacgg cgggcgccct gctcggcgcc ggcgcgggct tcctctgggc ggcgcagggc      420



gccgtcatga cgtcgtaccc gccgcccaac cgccggggca cctacatctc cctcttctgg      480



tgcctcttca acctgggcgg cgtcctcggc ggcctcctcc ctttcgccct caactacaac      540



cgcggggaca agaaagggag cgtcagcgac ggcacgtaca tcgccttcat ggcattcatg      600



ctcgtaggag cagcactcac agtgctcgtg ctgccgcccg ccaggatcgt ccgcgacgac      660



ggcaccaggg ccaccagggt caccttctcc tccccggcca ccgagggcgc cgagatcctc      720



aagctcttcg ccaactggaa gatgctgctc gcgctgccgg ccgcctgggc cagcaacttc      780



ttctacacct accagttcaa caacgtcaac agcggcctct tcacgctccg caccaggggc      840



ctcaacaacg tcttctactg gggcgcgcag atgatcggct ccgccggcat cggctacttc      900



ctcgacttcg gcttcgccag ccgccgaaag agggggctgt tcggggtcgc cgccgtcgcc      960



gccgtcggaa cggccatctg gggaggcggt ctggccaacc agctcagcta caatgccgtg     1020



ccggtgcccg accccatcga tttcaaggac ggccaccgct acgccgggcc cttcctgctc     1080



tacttcagct acggactgct agatgccatg ttccagagcc ttatctactg gatcatcggc     1140



gcactcgcca acgactccca aatcctcagc aggtacgtcg ggttctacaa gggggtgcag     1200



agtgcgggag cggcggtggc atggcaggtg gacaggcgcc acacgcccct catgtcccag     1260



ctgatcgtca actgggggct catgaccatc agctacccct tgcttgcgct gctggtgttc     1320



ctggccgtga aggacgagag ctactcggtt tcgtcggtgg aggacggccg ggagaaggac     1380



agcaagctgt ccgcgccgac cagcttccac                                      1410





<210>  634

<211>  1410

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  634

atggccggga cggaggtgga ggacccgccg gcggcggcgt tggaggtgcc cgcgaaacgc       60



ggccttctgc ggtacaactc gccgctggcg caggtgtccc tgctgggcct catctgcttc      120



tgctgccccg gcatgttcaa cgcgctgtcg ggcctcggcg gcggaggcca ggtcgacccc      180



accatcgccg acaacgccaa caccgcgctc tacgcctgct tcgcggtgtt cggcgtgctg      240



ggcggcgccg cgcacaacct gctgggcccg cgcgcgacgc tgctggccgg cgcgctcacg      300



tacccgctct acgccggctc cttcctctac tacaaccacc gcccgggctc gcaggtgttc      360



cccgtcacgg cgggcgccct gctcggcgcc ggcgcgggct tcctctgggc ggcgcagggc      420



gccgtcatga cgtcgtaccc gccgcccaac cgccggggca cctacatctc cctcttctgg      480



tgcctcttca acctgggcgg cgtcctcggc ggcctcctcc ctttcgccct caactacaac      540



cgcggggaca agaaagggag cgtcagcgac ggcacgtaca tcgccttcat ggcattcatg      600



ctcgtaggag cagcactcac agtgctcgtg ctgccgcccg ccaggatcgt ccgcgacgac      660



ggcaccaggg ccaccagggt caccttctcc tccccggcca ccgagggcgc cgagatcctc      720



aagctcttcg ccaactggaa gatgctgctc gcgctgccgg ccgcctgggc cagcaacttc      780



ttctacacct accagttcaa caacgtcaac agcggcctct tcacgctccg caccaggggc      840



ctcaacaacg tcttctactg gggcgcgcag atgatcggct ccgccggcat cggctacttc      900



ctcgacttcg gcttcgccag ccgccgaaag agggggctgt tcggggtcgc cgccgtcgcc      960



gccgtcggaa cggccatctg gggaggcggt ctggccaacc agctcagcta caatgccgtg     1020



ccggtgcccg accccatcga tttcaaggac ggccaccgct acgccgggcc cttcctgctc     1080



tacttcagct acggactgct agatgccatg ttccagagcc ttatctactg gatcatcggc     1140



gcactcgcca acgactccca aatcctcagc aggtacgtcg ggttctacaa gggggtgcag     1200



agtgcgggag cggcggtggc atggcaggtg gacaggcgcc acacgcccct catgtcccag     1260



ctgatcgtca actgggggct catgaccatc agctacccct tgcttgcgct gctggtgttc     1320



ctggccgtga aggacgagag ctactcggtt tcgtcggtgg aggacggccg ggagaaggac     1380



agcaagctgt ccgcgccgac cagcttccac                                      1410





<210>  635

<211>  1410

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  635

atggccggga cggaggtgga ggacccgccg gcggcggcgt tggaggtgcc cgcgaaacgc       60



ggccttctgc ggtacaactc gccgctggcg caggtgtccc tgctgggcct catctgcttc      120



tgctgccccg gcatgttcaa cgcgctgtcg ggcctcggcg gcggaggcca ggtcgacccc      180



accatcgccg acaacgccaa caccgcgctc tacgcctgct tcgcggtgtt cggcgtgctg      240



ggcggcgccg cgcacaacct gctgggcccg cgcgcgacgc tgctggccgg cgcgctcacg      300



tacccgctct acgccggctc cttcctctac tacaaccacc gcccgggctc gcaggtgttc      360



cccgtcacgg cgggcgccct gctcggcgcc ggcgcgggct tcctctgggc ggcgcagggc      420



gccgtcatga cgtcgtaccc gccgcccaac cgccggggca cctacatctc cctcttctgg      480



tgcctcttca acctgggcgg cgtcctcggc ggcctcctcc ctttcgccct caactacaac      540



cgcggggaca agaaagggag cgtcagcgac ggcacgtaca tcgccttcat ggcattcatg      600



ctcgtaggag cagcactcac agtgctcgtg ctgccgcccg ccaggatcgt ccgcgacgac      660



ggcaccaggg ccaccagggt caccttctcc tccccggcca ccgagggcgc cgagatcctc      720



aagctcttcg ccaactggaa gatgctgctc gcgctgccgg ccgcctgggc cagcaacttc      780



ttctacacct accagttcaa caacgtcaac agcggcctct tcacgctccg caccaggggc      840



ctcaacaacg tcttctactg gggcgcgcag atgatcggct ccgccggcat cggctacttc      900



ctcgacttcg gcttcgccag ccgccgaaag agggggctgt tcggggtcgc cgccgtcgcc      960



gccgtcggaa cggccatctg gggaggcggt ctggccaacc agctcagcta caatgccgtg     1020



ccggtgcccg accccatcga tttcaaggac ggccaccgct acgccgggcc cttcctgctc     1080



tacttcagct acggactgct agatgccatg ttccagagcc ttatctactg gatcatcggc     1140



gcactcgcca acgactccca aatcctcagc aggtacgtcg ggttctacaa gggggtgcag     1200



agtgcgggag cggcggtggc atggcaggtg gacaggcgcc acacgcccct catgtcccag     1260



ctgatcgtca actgggggct catgaccatc agctacccct tgcttgcgct gctggtgttc     1320



ctggccgtga aggacgagag ctactcggtt tcgtcggtgg aggacggccg ggagaaggac     1380



agcaagctgt ccgcgccgac cagcttccac                                      1410





<210>  636

<211>  1761

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  636

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgatg       60



ctcctcgcct ccgtcgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacacg gctgtgcgcc agcaagagca tcatcacggt gaacgggcag      180



ttccccgggc ccaagatcgt ggcgagggaa ggcgaccggc tcgtcatccg cgtcaccaac      240



cacgcccagc acaacatctc gctgcactgg cacggcatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgtggggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcatc ctgcccaagc tcggcgtccc ctacccgttc      480



ccggcgccct acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtgatca agcaggcgct tcagctcggc gctggcccca atgtctctga cgcccacacc      600



atcaacggcc tgccagggcc gctctacaac tgctctgcca aagacacgta caagctgaag      660



gtgaagcccg ggaagacgta catgctgaga ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacg gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacacgct gctcatcgcg ccgggccaga ccaccaacgt gctgctcgcc      840



gccaagccat cctacccggg cgccaactac tacatgtccg ccgcgcccta ctccacggcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gctgtacccc      960



gacgcgcccc ggccctccgc ctccgcgggg agcttcaacg aggccctgcc gctctacaga     1020



ccgaccctgc cgcagctcaa cgacaccagc ttcgtcggca acttcacggc caagctccgc     1080



agcctcgcga cgccgcggta cccggcggcc gtgccgcgga cggtggacag gcggttcttc     1140



ttcgcggtcg ggctcggcac gcacccgtgc cccgccaacg ccacgtgcca gggccccacc     1200



aacaccacgc agttcgcggc gtccgtcaac aacgtctcct tcgtgctccc caccaaggcg     1260



ctgctgcact cccacttcac cggcctgtcc agcggcgtct actcgccgga cttccccgtc     1320



gcgcccctgg cgccgttcaa ctacacgggg acgccgccca acaacaccaa cgtggccagc     1380



gggaccaagc tcatggtcgt cccgtacggc gccaacgtgg agctcgtcat gcagggcacc     1440



agcatcctcg gcgtcgagag ccacccgctg cacctgcacg gcttcaactt cttcgtggtc     1500



ggccaagggt acggcaacta cgaccccgtc aacgacccgt ccaagttcaa cctcgtcgac     1560



cccgtcgagc gcaacaccgt cggcgtgccg gccggcggat gggtggccat ccgcttcctc     1620



gccgacaacc ccggggtctg gttcatgcat tgccatttgg aggcgcacac aacatggggc     1680



ctcaggatgg catggttggt gctcgacggc agcctcccgc accagaagct gctcccgccg     1740



ccgtcagact tacccaaatg t                                               1761





<210>  637

<211>  1761

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  637

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgatg       60



ctcctcgcct ccgtcgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacacg gctgtgcgcc agcaagagca tcatcacggt gaacgggcag      180



ttccccgggc ccaagatcgt ggcgagggaa ggcgaccggc tcgtcatccg cgtcaccaac      240



cacgcccagc acaacatctc gctgcactgg cacggcatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgtggggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcatc ctgcccaagc tcggcgtccc ctacccgttc      480



ccggcgccct acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtgatca agcaggcgct tcagctcggc gctggcccca atgtctctga cgcccacacc      600



atcaacggcc tgccagggcc gctctacaac tgctctgcca aagacacgta caagctgaag      660



gtgaagcccg ggaagacgta catgctgcgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacg gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacacgct gctcatcgcg ccgggccaga ccaccaacgt gctgctcgcc      840



gccaagccat cctacccggg cgccaactac tacatgtccg ccgcgcccta ctccacggcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gctgtacccc      960



gacgcgcccc ggccctccgc ctccgcgggg agcttcaacg aggccctgcc gctctacaga     1020



ccgaccctgc cgcagctcaa cgacaccagc ttcgtcggca acttcacggc caagctccgc     1080



agcctcgcga cgccgcggta cccggcggcc gtgccgcgga cggtggacag gcggttcttc     1140



ttcgcggtcg ggctcggcac gcacccgtgc cccgccaacg ccacgtgcca gggccccacc     1200



aacaccacgc agttcgcggc gtccgtcaac aacgtctcct tcgtgctccc caccaaggcg     1260



ctgctgcact cccacttcac cggcctgtcc agcggcgtct actcgccgga cttccccgtc     1320



gcgcccctgg cgccgttcaa ctacacgggg acgccgccca acaacaccaa cgtggccagc     1380



gggaccaagc tcatggtcgt cccgtacggc gccaacgtgg agctcgtcat gcagggcacc     1440



agcatcctcg gcgtcgagag ccacccgctg cacctgcacg gcttcaactt cttcgtggtc     1500



ggccaagggt acggcaacta cgaccccgtc aacgacccgt ccaagttcaa cctcgtcgac     1560



cccgtcgagc gcaacaccgt cggcgtgccg gccggcggat gggtggccat ccgcttcctc     1620



gccgacaacc ccggggtctg gttcatgcat tgccatttgg aggcgcacac aacatggggc     1680



ctcaggatgg catggttggt gctcgacggc agcctcccgc accagaagct gctcccgccg     1740



ccgtcagact tacccaaatg t                                               1761





<210>  638

<211>  1761

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  638

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgatg       60



ctcctcgcct ccgtcgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacacg gctgtgcgcc agcaagagca tcatcacggt gaacgggcag      180



ttccccgggc ccaagatcgt ggcgagggaa ggcgaccggc tcgtcatccg cgtcaccaac      240



cacgcccagc acaacatctc gctgcactgg cacggcatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgtggggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcatc ctgcccaagc tcggcgtccc ctacccgttc      480



ccggcgccct acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtgatca agcaggcgct tcagctcggc gctggcccca atgtctctga cgcccacacc      600



atcaacggcc tgccagggcc gctctacaac tgctctgcca aagacacgta caagctgaag      660



gtgaagcccg ggaagacgta catgctgcgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacg gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacacgct gctcatcgcg ccgggccaga ccaccaacgt gctgctcgcc      840



gccaagccat cctacccggg cgccaactac tacatgtccg ccgcgcccta ctccacggcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gctgtacccc      960



gacgcgcccc ggccctccgc ctccgcgggg agcttcaacg aggccctgcc gctctacaga     1020



ccgaccctgc cgcagctcaa cgacaccagc ttcgtcggca acttcacggc caagctccgc     1080



agcctcgcga cgccgcggta cccggcggcc gtgccgcgga cggtggacag gcggttcttc     1140



ttcgcggtcg ggctcggcac gcacccgtgc cccgccaacg ccacgtgcca gggccccacc     1200



aacaccacgc agttcgcggc gtccgtcaac aacgtctcct tcgtgctccc caccaaggcg     1260



ctgctgcact cccacttcac cggcctgtcc agcggcgtct actcgccgga cttccccgtc     1320



gcgcccctgg cgccgttcaa ctacacgggg acgccgccca acaacaccaa cgtggccagc     1380



gggaccaagc tcatggtcgt cccgtacggc gccaacgtgg agctcgtcat gcagggcacc     1440



agcatcctcg gcgtcgagag ccacccgctg cacctgcacg gcttcaactt cttcgtggtc     1500



ggccaagggt acggcaacta cgaccccgtc aacgacccgt ccaagttcaa cctcgtcgac     1560



cccgtcgagc gcaacaccgt cggcgtgccg gccggcggat gggtggccat ccgcttcctc     1620



gccgacaacc ccggggtctg gttcatgcat tgccatttgg aggcgcacac aacatggggc     1680



ctcaggatgg catggttggt gctcgacggc agcctcccgc accagaagct gctcccgccg     1740



ccgtcagact tacccaaatg t                                               1761





<210>  639

<211>  1761

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  639

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgatg       60



ctcctcgcct ccgtcgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacacg gctgtgcgcc agcaagagca tcatcacggt gaacgggcag      180



ttccccgggc ccaagatcgt ggcgagggaa ggcgaccggc tcgtcatccg cgtcaccaac      240



cacgcccagc acaacatctc gctgcactgg cacggcatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgtggggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcatc ctgcccaagc tcggcgtccc ctacccgttc      480



ccggcgccct acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtgatca agcaggcgct tcagctcggc gctggcccca atgtctctga cgcccacacc      600



atcaacggcc tgccagggcc gctctacaac tgctctgcca aagacacgta caagctgaag      660



gtgaagcccg ggaagacgta catgctgcgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacg gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacacgct gctcatcgcg ccgggccaga ccaccaacgt gctgctcgcc      840



gccaagccat cctacccggg cgccaactac tacatgtccg ccgcgcccta ctccacggcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gctgtacccc      960



gacgcgcccc ggccctccgc ctccgcgggg agcttcaacg aggccctgcc gctctacaga     1020



ccgaccctgc cgcagctcaa cgacaccagc ttcgtcggca acttcacggc caagctccgc     1080



agcctcgcga cgccgcggta cccggcggcc gtgccgcgga cggtggacag gcggttcttc     1140



ttcgcggtcg ggctcggcac gcacccgtgc cccgccaacg ccacgtgcca gggccccacc     1200



aacaccacgc agttcgcggc gtccgtcaac aacgtctcct tcgtgctccc caccaaggcg     1260



ctgctgcact cccacttcac cggcctgtcc agcggcgtct actcgccgga cttccccgtc     1320



gcgcccctgg cgccgttcaa ctacacgggg acgccgccca acaacaccaa cgtggccagc     1380



gggaccaagc tcatggtcgt cccgtacggc gccaacgtgg agctcgtcat gcagggcacc     1440



agcatcctcg gcgtcgagag ccacccgctg cacctgcacg gcttcaactt cttcgtggtc     1500



ggccaagggt acggcaacta cgaccccgtc aacgacccgt ccaagttcaa cctcgtcgac     1560



cccgtcgagc gcaacaccgt cggcgtgccg gccggcggat gggtggccat ccgcttcctc     1620



gccgacaacc ccggggtctg gttcatgcat tgccatttgg aggcgcacac aacatggggc     1680



ctcaggatgg catggttggt gctcgacggc agcctcccgc accagaagct gctcccgccg     1740



ccgtcagact tacccaaatg t                                               1761





<210>  640

<211>  1761

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  640

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgatg       60



ctcctcgcct ccgtcgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacacg gctgtgcgcc agcaagagca tcatcacggt gaacgggcag      180



ttccccgggc ccaagatcgt ggcgagggaa ggcgaccggc tcgtcatccg cgtcaccaac      240



cacgcccagc acaacatctc gctgcactgg cacggcatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgtggggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcatc ctgcccaagc tcggcgtccc ctacccgttc      480



ccggcgccct acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtgatca agcaggcgct tcagctcggc gctggcccca atgtctctga cgcccacacc      600



atcaacggcc tgccagggcc gctctacaac tgctctgcca aagacacgta caagctgaag      660



gtgaagcccg ggaagacgta catgctgcgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacg gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacacgct gctcatcgcg ccgggccaga ccaccaacgt gctgctcgcc      840



gccaagccat cctacccggg cgccaactac tacatgtccg ccgcgcccta ctccacggcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gctgtacccc      960



gacgcgcccc ggccctccgc ctccgcgggg agcttcaacg aggccctgcc gctctacaga     1020



ccgaccctgc cgcagctcaa cgacaccagc ttcgtcggca acttcacggc caagctccgc     1080



agcctcgcga cgccgcggta cccggcggcc gtgccgcgga cggtggacag gcggttcttc     1140



ttcgcggtcg ggctcggcac gcacccgtgc cccgccaacg ccacgtgcca gggccccacc     1200



aacaccacgc agttcgcggc gtccgtcaac aacgtctcct tcgtgctccc caccaaggcg     1260



ctgctgcact cccacttcac cggcctgtcc agcggcgtct actcgccgga cttccccgtc     1320



gcgcccctgg cgccgttcaa ctacacgggg acgccgccca acaacaccaa cgtggccagc     1380



gggaccaagc tcatggtcgt cccgtacggc gccaacgtgg agctcgtcat gcagggcacc     1440



agcatcctcg gcgtcgagag ccacccgctg cacctgcacg gcttcaactt cttcgtggtc     1500



ggccaagggt acggcaacta cgaccccgtc aacgacccgt ccaagttcaa cctcgtcgac     1560



cccgtcgagc gcaacaccgt cggcgtgccg gccggcggat gggtggccat ccgcttcctc     1620



gccgacaacc ccggggtctg gttcatgcat tgccatttgg aggcgcacac aacatggggc     1680



ctcaggatgg catggttggt gctcgacggc agcctcccgc accagaagct gctcccgccg     1740



ccgtcagact tacccaaatg t                                               1761





<210>  641

<211>  1752

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  641

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgaag       60



ctcctcgcct ccgttgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacgcg gctgtgcgcc accaagagca tcgtcacggt gaacgggcag      180



ttccccggcc ccaagatcgt cgcgagggaa ggcgaccgcc tcatcatccg cgtcaccaac      240



caggcccagc acaacatctc gctgcactgg cacggtatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgccgggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcgtc ctgcccaggc ccggcgtccc ctacccgttc      480



ccggcgccgt acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtggtcg agcaggcgct ccagctcggc gctggcccga acgtctccga cgcccacacc      600



atcaacggcc tgccaggacc gctctacaat tgctctgcca aagacacgta caagctgaag      660



gtgaagccag ggaagacgta catgctcaga ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacc gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacaccct gcccatcgcc ccgggccaga ccaccaacgt gctcctcgca      840



gccaagccct tctacccggg cgccaactac tacatgtccg ccaagcccta ctccaccgcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gtaccccgac      960



gcgccatcct cctccgcggc gagcttcgac aaggccctgc cgctccacag gccgaccctg     1020



ccgcagctga acgacaccag cttcgtcggc aacttcacgg ccaagctccg cagcctcgcg     1080



acgccgcagt acccggcggc cgtgccgcgg acggtggaca gagcgttctt cttcacggtg     1140



gggctcggca cgcacccgtg ccccgggaac gccacgtgcc tgggccccac caacacgacg     1200



cagttcgcgg cggccgtgaa caacgtctcc ttcgtgctcc cgaccagggc gctcctgcac     1260



tcgcacttcg ccggcctgtc cagcggcgtc tactcgtcgg acttccccgt cgcgcccctc     1320



acgccgttca actacacggg gacgccgcca aacaacacca acgtggccag cgggaccaag     1380



ctgatggtcg tcccgtacgg cgccaacgtg gagctggtgt tgcagggcac cagcatcctc     1440



ggcgtcgaga gccacccgct gcacctgcac ggcttcaact tcttcgtcgt cggccaaggc     1500



tacggcaact acgacccggt gaacgacccg cccaagttca acctcgtcga ccccgtcgag     1560



cggaacaccg tcggcgtgcc agccggcggc tgggtggcca tccgcttcct tgccgacaac     1620



cccggggtat ggttcatgca ctgtcacttg gaggtgcaca caacatgggg cctcaggatg     1680



gcatggttgg tgctcgacgg cagcctcccg caccagaagc tgctcccacc gccgtccgat     1740



cttcccaaat gt                                                         1752





<210>  642

<211>  1752

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  642

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgaag       60



ctcctcgcct ccgttgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacgcg gctgtgcgcc accaagagca tcgtcacggt gaacgggcag      180



ttccccggcc ccaagatcgt cgcgagggaa ggcgaccgcc tcatcatccg cgtcaccaac      240



caggcccagc acaacatctc gctgcactgg cacggtatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgccgggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcgtc ctgcccaggc ccggcgtccc ctacccgttc      480



ccggcgccgt acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtggtcg agcaggcgct ccagctcggc gctggcccga acgtctccga cgcccacacc      600



atcaacggcc tgccaggacc gctctacaat tgctctgcca aagacacgta caagctgaag      660



gtgaagccag ggaagacgta catgctccgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacc gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacaccct gcccatcgcc ccgggccaga ccaccaacgt gctcctcgca      840



gccaagccct tctacccggg cgccaactac tacatgtccg ccaagcccta ctccaccgcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gtaccccgac      960



gcgccatcct cctccgcggc gagcttcgac aaggccctgc cgctccacag gccgaccctg     1020



ccgcagctga acgacaccag cttcgtcggc aacttcacgg ccaagctccg cagcctcgcg     1080



acgccgcagt acccggcggc cgtgccgcgg acggtggaca gagcgttctt cttcacggtg     1140



gggctcggca cgcacccgtg ccccgggaac gccacgtgcc tgggccccac caacacgacg     1200



cagttcgcgg cggccgtgaa caacgtctcc ttcgtgctcc cgaccagggc gctcctgcac     1260



tcgcacttcg ccggcctgtc cagcggcgtc tactcgtcgg acttccccgt cgcgcccctc     1320



acgccgttca actacacggg gacgccgcca aacaacacca acgtggccag cgggaccaag     1380



ctgatggtcg tcccgtacgg cgccaacgtg gagctggtgt tgcagggcac cagcatcctc     1440



ggcgtcgaga gccacccgct gcacctgcac ggcttcaact tcttcgtcgt cggccaaggc     1500



tacggcaact acgacccggt gaacgacccg cccaagttca acctcgtcga ccccgtcgag     1560



cggaacaccg tcggcgtgcc agccggcggc tgggtggcca tccgcttcct tgccgacaac     1620



cccggggtat ggttcatgca ctgtcacttg gaggtgcaca caacatgggg cctcaggatg     1680



gcatggttgg tgctcgacgg cagcctcccg caccagaagc tgctcccacc gccgtccgat     1740



cttcccaaat gt                                                         1752





<210>  643

<211>  1752

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  643

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgaag       60



ctcctcgcct ccgttgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacgcg gctgtgcgcc accaagagca tcgtcacggt gaacgggcag      180



ttccccggcc ccaagatcgt cgcgagggaa ggcgaccgcc tcatcatccg cgtcaccaac      240



caggcccagc acaacatctc gctgcactgg cacggtatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgccgggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcgtc ctgcccaggc ccggcgtccc ctacccgttc      480



ccggcgccgt acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtggtcg agcaggcgct ccagctcggc gctggcccga acgtctccga cgcccacacc      600



atcaacggcc tgccaggacc gctctacaat tgctctgcca aagacacgta caagctgaag      660



gtgaagccag ggaagacgta catgctccgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacc gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacaccct gcccatcgcc ccgggccaga ccaccaacgt gctcctcgca      840



gccaagccct tctacccggg cgccaactac tacatgtccg ccaagcccta ctccaccgcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gtaccccgac      960



gcgccatcct cctccgcggc gagcttcgac aaggccctgc cgctccacag gccgaccctg     1020



ccgcagctga acgacaccag cttcgtcggc aacttcacgg ccaagctccg cagcctcgcg     1080



acgccgcagt acccggcggc cgtgccgcgg acggtggaca gagcgttctt cttcacggtg     1140



gggctcggca cgcacccgtg ccccgggaac gccacgtgcc tgggccccac caacacgacg     1200



cagttcgcgg cggccgtgaa caacgtctcc ttcgtgctcc cgaccagggc gctcctgcac     1260



tcgcacttcg ccggcctgtc cagcggcgtc tactcgtcgg acttccccgt cgcgcccctc     1320



acgccgttca actacacggg gacgccgcca aacaacacca acgtggccag cgggaccaag     1380



ctgatggtcg tcccgtacgg cgccaacgtg gagctggtgt tgcagggcac cagcatcctc     1440



ggcgtcgaga gccacccgct gcacctgcac ggcttcaact tcttcgtcgt cggccaaggc     1500



tacggcaact acgacccggt gaacgacccg cccaagttca acctcgtcga ccccgtcgag     1560



cggaacaccg tcggcgtgcc agccggcggc tgggtggcca tccgcttcct tgccgacaac     1620



cccggggtat ggttcatgca ctgtcacttg gaggtgcaca caacatgggg cctcaggatg     1680



gcatggttgg tgctcgacgg cagcctcccg caccagaagc tgctcccacc gccgtccgat     1740



cttcccaaat gt                                                         1752





<210>  644

<211>  1752

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  644

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgaag       60



ctcctcgcct ccgttgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacgcg gctgtgcgcc accaagagca tcgtcacggt gaacgggcag      180



ttccccggcc ccaagatcgt cgcgagggaa ggcgaccgcc tcatcatccg cgtcaccaac      240



caggcccagc acaacatctc gctgcactgg cacggtatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgccgggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcgtc ctgcccaggc ccggcgtccc ctacccgttc      480



ccggcgccgt acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtggtcg agcaggcgct ccagctcggc gctggcccga acgtctccga cgcccacacc      600



atcaacggcc tgccaggacc gctctacaat tgctctgcca aagacacgta caagctgaag      660



gtgaagccag ggaagacgta catgctccgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacc gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacaccct gcccatcgcc ccgggccaga ccaccaacgt gctcctcgca      840



gccaagccct tctacccggg cgccaactac tacatgtccg ccaagcccta ctccaccgcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gtaccccgac      960



gcgccatcct cctccgcggc gagcttcgac aaggccctgc cgctccacag gccgaccctg     1020



ccgcagctga acgacaccag cttcgtcggc aacttcacgg ccaagctccg cagcctcgcg     1080



acgccgcagt acccggcggc cgtgccgcgg acggtggaca gagcgttctt cttcacggtg     1140



gggctcggca cgcacccgtg ccccgggaac gccacgtgcc tgggccccac caacacgacg     1200



cagttcgcgg cggccgtgaa caacgtctcc ttcgtgctcc cgaccagggc gctcctgcac     1260



tcgcacttcg ccggcctgtc cagcggcgtc tactcgtcgg acttccccgt cgcgcccctc     1320



acgccgttca actacacggg gacgccgcca aacaacacca acgtggccag cgggaccaag     1380



ctgatggtcg tcccgtacgg cgccaacgtg gagctggtgt tgcagggcac cagcatcctc     1440



ggcgtcgaga gccacccgct gcacctgcac ggcttcaact tcttcgtcgt cggccaaggc     1500



tacggcaact acgacccggt gaacgacccg cccaagttca acctcgtcga ccccgtcgag     1560



cggaacaccg tcggcgtgcc agccggcggc tgggtggcca tccgcttcct tgccgacaac     1620



cccggggtat ggttcatgca ctgtcacttg gaggtgcaca caacatgggg cctcaggatg     1680



gcatggttgg tgctcgacgg cagcctcccg caccagaagc tgctcccacc gccgtccgat     1740



cttcccaaat gt                                                         1752





<210>  645

<211>  1752

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  645

atggcgatct cctctgctct tccatgctcc tccctcctca tggcggctgc ccaactgaag       60



ctcctcgcct ccgttgtcgt ccaagtgcaa ggcatcacga ggcactacga cttcaatgtg      120



accatggcga acgtgacgcg gctgtgcgcc accaagagca tcgtcacggt gaacgggcag      180



ttccccggcc ccaagatcgt cgcgagggaa ggcgaccgcc tcatcatccg cgtcaccaac      240



caggcccagc acaacatctc gctgcactgg cacggtatcc ggcagctgcg cacggggtgg      300



gcggacgggc cggcgtacat cacgcagtgc ccgatccaga cggggcagag ctacgtgtac      360



aactacaccg tcgccgggca gcgcggcacg ctgtggtggc acgcgcacat ctcctggctg      420



cgcgccaccg tctacgggcc cctcgtcgtc ctgcccaggc ccggcgtccc ctacccgttc      480



ccggcgccgt acaaggaggt ccccgtcatc ttcggtgagt ggtggctggc ggacacggag      540



gtggtggtcg agcaggcgct ccagctcggc gctggcccga acgtctccga cgcccacacc      600



atcaacggcc tgccaggacc gctctacaat tgctctgcca aagacacgta caagctgaag      660



gtgaagccag ggaagacgta catgctccgc ttaataaatg cagcattaaa tgacgagctc      720



ttcttctccg tcgccaacca ctcgctcacc gtcgtcgagg tcgacgccgt ctacgtcaag      780



cccttcaccg tcgacaccct gcccatcgcc ccgggccaga ccaccaacgt gctcctcgca      840



gccaagccct tctacccggg cgccaactac tacatgtccg ccaagcccta ctccaccgcc      900



aggccggcca ccttcgacaa caccaccgtc gccggcatcc tcgagtacga gtaccccgac      960



gcgccatcct cctccgcggc gagcttcgac aaggccctgc cgctccacag gccgaccctg     1020



ccgcagctga acgacaccag cttcgtcggc aacttcacgg ccaagctccg cagcctcgcg     1080



acgccgcagt acccggcggc cgtgccgcgg acggtggaca gagcgttctt cttcacggtg     1140



gggctcggca cgcacccgtg ccccgggaac gccacgtgcc tgggccccac caacacgacg     1200



cagttcgcgg cggccgtgaa caacgtctcc ttcgtgctcc cgaccagggc gctcctgcac     1260



tcgcacttcg ccggcctgtc cagcggcgtc tactcgtcgg acttccccgt cgcgcccctc     1320



acgccgttca actacacggg gacgccgcca aacaacacca acgtggccag cgggaccaag     1380



ctgatggtcg tcccgtacgg cgccaacgtg gagctggtgt tgcagggcac cagcatcctc     1440



ggcgtcgaga gccacccgct gcacctgcac ggcttcaact tcttcgtcgt cggccaaggc     1500



tacggcaact acgacccggt gaacgacccg cccaagttca acctcgtcga ccccgtcgag     1560



cggaacaccg tcggcgtgcc agccggcggc tgggtggcca tccgcttcct tgccgacaac     1620



cccggggtat ggttcatgca ctgtcacttg gaggtgcaca caacatgggg cctcaggatg     1680



gcatggttgg tgctcgacgg cagcctcccg caccagaagc tgctcccacc gccgtccgat     1740



cttcccaaat gt                                                         1752





<210>  646

<211>  1548

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  646

atgacatcga tcgtctggtc tgtctatact ctctcccgtt catggccggc tgtctcgatc       60



aatgcgcgct gcatgcatgg cgtgtgcagg cacggcatcc gccagataag gactgggtgg      120



gcggacgggc cggagttcgt gacgcagtgc cccatcaggc ccggcggcag ctacaagtac      180



cggttcacca tccaggggca ggagggcacg ctgtggtggc acgcgcacag ctcctggctc      240



agggccaccg tctacggcgc gctcatcatc cgccccaggg agaacaagac ctacccattc      300



gccaagccct cgcgagaagt ccccgtcatc ctcggtgagt ggtgggatgc gaacccgatc      360



gacgtcatcc gggaggcgca gaggaccggc ggcggtccca acgtctccga cgcgttcacc      420



atcaacggcc agcccggcga cctgtacaaa tgctccaaca aagagactac ggccatcccg      480



gtgaaggccg gcgagacggc gctgctgaga tttataaatg cagcattaaa tcacgagctg      540



ttcgtcacca tcgcgcagca caagatgacg gtcgtcgcca ccgacgcgtc ctacaccaag      600



cccttcacca cctcggtgct catgctcgcg ccgggccaga ccaccgacgt cctcgtcacc      660



atggaccagc cgcccacccg ctactacgtc gccgcgcgcg cctacgtctc cggccagaac      720



gtggccttcg acaacaccac caccacggcc gtcctcgagt acgactgcgg ctgcgcctcc      780



gacttcggcc ccaagataca gccggcgttc ccggcggcgc taccggcctt caacgacacg      840



tccgccgcca ccgccttcgc cgccgggatc aggagccccg accgggtcaa ggtccacgag      900



aacgtcgacg agtacctctt cttcaccgtc ggcctcggcc tcttcaactg caagccgggc      960



cagctctgcg ccgggcccaa caacaacacc cgcttcgcgg ccagcatgaa caacgtctcc     1020



ttcgtcttcc cgcagaccga ctccctcctc cacgcgcact actacaagat ccccggcgtc     1080



ttcaccaccg acttcccggc atacccgccc gtgcagttcg actacacggg gcagaacgtc     1140



agccaggccc tgtggcagcc ggtccccgcc accaagctgt acccgctcag gttcggctcc     1200



gtggtgcagc tcgtcctgca ggacaccagc atcgtcacgc ccgagaacca ccccatccac     1260



atccacggct acgatttctt catcctcgcc gagggcttcg gcaacttcga ccccaagaag     1320



gacgtcgaga agttcaacta cgtcgacccg ccccagagga acaccgtggc ggtgcctgtc     1380



aacggttggg cggtcatcca gttcgtcgcc gacaaccctg gtgtgtggct catgcattgc     1440



catctggacg tgcacatcac ctggggcctg gcaatggctt tcctagtgga ggacggctat     1500



ggcgaactgc agtcgctgga gccgccccca gttgatcttc ccatgtgc                  1548





<210>  647

<211>  1548

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  647

atgacatcga tcgtctggtc tgtctatact ctctcccgtt catggccggc tgtctcgatc       60



aatgcgcgct gcatgcatgg cgtgtgcagg cacggcatcc gccagataag gactgggtgg      120



gcggacgggc cggagttcgt gacgcagtgc cccatcaggc ccggcggcag ctacaagtac      180



cggttcacca tccaggggca ggagggcacg ctgtggtggc acgcgcacag ctcctggctc      240



agggccaccg tctacggcgc gctcatcatc cgccccaggg agaacaagac ctacccattc      300



gccaagccct cgcgagaagt ccccgtcatc ctcggtgagt ggtgggatgc gaacccgatc      360



gacgtcatcc gggaggcgca gaggaccggc ggcggtccca acgtctccga cgcgttcacc      420



atcaacggcc agcccggcga cctgtacaaa tgctccaaca aagagactac ggccatcccg      480



gtgaaggccg gcgagacggc gctgctgcgg tttataaatg cagcattaaa tcacgagctg      540



ttcgtcacca tcgcgcagca caagatgacg gtcgtcgcca ccgacgcgtc ctacaccaag      600



cccttcacca cctcggtgct catgctcgcg ccgggccaga ccaccgacgt cctcgtcacc      660



atggaccagc cgcccacccg ctactacgtc gccgcgcgcg cctacgtctc cggccagaac      720



gtggccttcg acaacaccac caccacggcc gtcctcgagt acgactgcgg ctgcgcctcc      780



gacttcggcc ccaagataca gccggcgttc ccggcggcgc taccggcctt caacgacacg      840



tccgccgcca ccgccttcgc cgccgggatc aggagccccg accgggtcaa ggtccacgag      900



aacgtcgacg agtacctctt cttcaccgtc ggcctcggcc tcttcaactg caagccgggc      960



cagctctgcg ccgggcccaa caacaacacc cgcttcgcgg ccagcatgaa caacgtctcc     1020



ttcgtcttcc cgcagaccga ctccctcctc cacgcgcact actacaagat ccccggcgtc     1080



ttcaccaccg acttcccggc atacccgccc gtgcagttcg actacacggg gcagaacgtc     1140



agccaggccc tgtggcagcc ggtccccgcc accaagctgt acccgctcag gttcggctcc     1200



gtggtgcagc tcgtcctgca ggacaccagc atcgtcacgc ccgagaacca ccccatccac     1260



atccacggct acgatttctt catcctcgcc gagggcttcg gcaacttcga ccccaagaag     1320



gacgtcgaga agttcaacta cgtcgacccg ccccagagga acaccgtggc ggtgcctgtc     1380



aacggttggg cggtcatcca gttcgtcgcc gacaaccctg gtgtgtggct catgcattgc     1440



catctggacg tgcacatcac ctggggcctg gcaatggctt tcctagtgga ggacggctat     1500



ggcgaactgc agtcgctgga gccgccccca gttgatcttc ccatgtgc                  1548





<210>  648

<211>  1548

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  648

atgacatcga tcgtctggtc tgtctatact ctctcccgtt catggccggc tgtctcgatc       60



aatgcgcgct gcatgcatgg cgtgtgcagg cacggcatcc gccagataag gactgggtgg      120



gcggacgggc cggagttcgt gacgcagtgc cccatcaggc ccggcggcag ctacaagtac      180



cggttcacca tccaggggca ggagggcacg ctgtggtggc acgcgcacag ctcctggctc      240



agggccaccg tctacggcgc gctcatcatc cgccccaggg agaacaagac ctacccattc      300



gccaagccct cgcgagaagt ccccgtcatc ctcggtgagt ggtgggatgc gaacccgatc      360



gacgtcatcc gggaggcgca gaggaccggc ggcggtccca acgtctccga cgcgttcacc      420



atcaacggcc agcccggcga cctgtacaaa tgctccaaca aagagactac ggccatcccg      480



gtgaaggccg gcgagacggc gctgctgcgg tttataaatg cagcattaaa tcacgagctg      540



ttcgtcacca tcgcgcagca caagatgacg gtcgtcgcca ccgacgcgtc ctacaccaag      600



cccttcacca cctcggtgct catgctcgcg ccgggccaga ccaccgacgt cctcgtcacc      660



atggaccagc cgcccacccg ctactacgtc gccgcgcgcg cctacgtctc cggccagaac      720



gtggccttcg acaacaccac caccacggcc gtcctcgagt acgactgcgg ctgcgcctcc      780



gacttcggcc ccaagataca gccggcgttc ccggcggcgc taccggcctt caacgacacg      840



tccgccgcca ccgccttcgc cgccgggatc aggagccccg accgggtcaa ggtccacgag      900



aacgtcgacg agtacctctt cttcaccgtc ggcctcggcc tcttcaactg caagccgggc      960



cagctctgcg ccgggcccaa caacaacacc cgcttcgcgg ccagcatgaa caacgtctcc     1020



ttcgtcttcc cgcagaccga ctccctcctc cacgcgcact actacaagat ccccggcgtc     1080



ttcaccaccg acttcccggc atacccgccc gtgcagttcg actacacggg gcagaacgtc     1140



agccaggccc tgtggcagcc ggtccccgcc accaagctgt acccgctcag gttcggctcc     1200



gtggtgcagc tcgtcctgca ggacaccagc atcgtcacgc ccgagaacca ccccatccac     1260



atccacggct acgatttctt catcctcgcc gagggcttcg gcaacttcga ccccaagaag     1320



gacgtcgaga agttcaacta cgtcgacccg ccccagagga acaccgtggc ggtgcctgtc     1380



aacggttggg cggtcatcca gttcgtcgcc gacaaccctg gtgtgtggct catgcattgc     1440



catctggacg tgcacatcac ctggggcctg gcaatggctt tcctagtgga ggacggctat     1500



ggcgaactgc agtcgctgga gccgccccca gttgatcttc ccatgtgc                  1548





<210>  649

<211>  1548

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  649

atgacatcga tcgtctggtc tgtctatact ctctcccgtt catggccggc tgtctcgatc       60



aatgcgcgct gcatgcatgg cgtgtgcagg cacggcatcc gccagataag gactgggtgg      120



gcggacgggc cggagttcgt gacgcagtgc cccatcaggc ccggcggcag ctacaagtac      180



cggttcacca tccaggggca ggagggcacg ctgtggtggc acgcgcacag ctcctggctc      240



agggccaccg tctacggcgc gctcatcatc cgccccaggg agaacaagac ctacccattc      300



gccaagccct cgcgagaagt ccccgtcatc ctcggtgagt ggtgggatgc gaacccgatc      360



gacgtcatcc gggaggcgca gaggaccggc ggcggtccca acgtctccga cgcgttcacc      420



atcaacggcc agcccggcga cctgtacaaa tgctccaaca aagagactac ggccatcccg      480



gtgaaggccg gcgagacggc gctgctgcgg tttataaatg cagcattaaa tcacgagctg      540



ttcgtcacca tcgcgcagca caagatgacg gtcgtcgcca ccgacgcgtc ctacaccaag      600



cccttcacca cctcggtgct catgctcgcg ccgggccaga ccaccgacgt cctcgtcacc      660



atggaccagc cgcccacccg ctactacgtc gccgcgcgcg cctacgtctc cggccagaac      720



gtggccttcg acaacaccac caccacggcc gtcctcgagt acgactgcgg ctgcgcctcc      780



gacttcggcc ccaagataca gccggcgttc ccggcggcgc taccggcctt caacgacacg      840



tccgccgcca ccgccttcgc cgccgggatc aggagccccg accgggtcaa ggtccacgag      900



aacgtcgacg agtacctctt cttcaccgtc ggcctcggcc tcttcaactg caagccgggc      960



cagctctgcg ccgggcccaa caacaacacc cgcttcgcgg ccagcatgaa caacgtctcc     1020



ttcgtcttcc cgcagaccga ctccctcctc cacgcgcact actacaagat ccccggcgtc     1080



ttcaccaccg acttcccggc atacccgccc gtgcagttcg actacacggg gcagaacgtc     1140



agccaggccc tgtggcagcc ggtccccgcc accaagctgt acccgctcag gttcggctcc     1200



gtggtgcagc tcgtcctgca ggacaccagc atcgtcacgc ccgagaacca ccccatccac     1260



atccacggct acgatttctt catcctcgcc gagggcttcg gcaacttcga ccccaagaag     1320



gacgtcgaga agttcaacta cgtcgacccg ccccagagga acaccgtggc ggtgcctgtc     1380



aacggttggg cggtcatcca gttcgtcgcc gacaaccctg gtgtgtggct catgcattgc     1440



catctggacg tgcacatcac ctggggcctg gcaatggctt tcctagtgga ggacggctat     1500



ggcgaactgc agtcgctgga gccgccccca gttgatcttc ccatgtgc                  1548





<210>  650

<211>  1548

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  650

atgacatcga tcgtctggtc tgtctatact ctctcccgtt catggccggc tgtctcgatc       60



aatgcgcgct gcatgcatgg cgtgtgcagg cacggcatcc gccagataag gactgggtgg      120



gcggacgggc cggagttcgt gacgcagtgc cccatcaggc ccggcggcag ctacaagtac      180



cggttcacca tccaggggca ggagggcacg ctgtggtggc acgcgcacag ctcctggctc      240



agggccaccg tctacggcgc gctcatcatc cgccccaggg agaacaagac ctacccattc      300



gccaagccct cgcgagaagt ccccgtcatc ctcggtgagt ggtgggatgc gaacccgatc      360



gacgtcatcc gggaggcgca gaggaccggc ggcggtccca acgtctccga cgcgttcacc      420



atcaacggcc agcccggcga cctgtacaaa tgctccaaca aagagactac ggccatcccg      480



gtgaaggccg gcgagacggc gctgctgcgg tttataaatg cagcattaaa tcacgagctg      540



ttcgtcacca tcgcgcagca caagatgacg gtcgtcgcca ccgacgcgtc ctacaccaag      600



cccttcacca cctcggtgct catgctcgcg ccgggccaga ccaccgacgt cctcgtcacc      660



atggaccagc cgcccacccg ctactacgtc gccgcgcgcg cctacgtctc cggccagaac      720



gtggccttcg acaacaccac caccacggcc gtcctcgagt acgactgcgg ctgcgcctcc      780



gacttcggcc ccaagataca gccggcgttc ccggcggcgc taccggcctt caacgacacg      840



tccgccgcca ccgccttcgc cgccgggatc aggagccccg accgggtcaa ggtccacgag      900



aacgtcgacg agtacctctt cttcaccgtc ggcctcggcc tcttcaactg caagccgggc      960



cagctctgcg ccgggcccaa caacaacacc cgcttcgcgg ccagcatgaa caacgtctcc     1020



ttcgtcttcc cgcagaccga ctccctcctc cacgcgcact actacaagat ccccggcgtc     1080



ttcaccaccg acttcccggc atacccgccc gtgcagttcg actacacggg gcagaacgtc     1140



agccaggccc tgtggcagcc ggtccccgcc accaagctgt acccgctcag gttcggctcc     1200



gtggtgcagc tcgtcctgca ggacaccagc atcgtcacgc ccgagaacca ccccatccac     1260



atccacggct acgatttctt catcctcgcc gagggcttcg gcaacttcga ccccaagaag     1320



gacgtcgaga agttcaacta cgtcgacccg ccccagagga acaccgtggc ggtgcctgtc     1380



aacggttggg cggtcatcca gttcgtcgcc gacaaccctg gtgtgtggct catgcattgc     1440



catctggacg tgcacatcac ctggggcctg gcaatggctt tcctagtgga ggacggctat     1500



ggcgaactgc agtcgctgga gccgccccca gttgatcttc ccatgtgc                  1548





<210>  651

<211>  660

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  651

atgtgtgcac ggtccatcgc tctcgcgtcg ctcggtctgc gcgtccctgc gtccggatcc       60



tctccctcca gctcggcgcc catccatgct gcgtcgccct ctctctcatc tccaagccga      120



gaccctcgcc gtgaagcttc catgtggccg cgcgtactcc ctctgcttct ccctcgtggc      180



gctcaacctt gccgagcaag tctaccctgg ttatttcata gcccggctct gccccatcgt      240



cgatcgccca tctccatggt cgcgcgccct ccagttctat ggccgtgccg cgcgtcctgg      300



agctcaccgc gcccggccaa gctcccctgt gcacgcccag ccactcctct ctcccttgca      360



gcgcgcgtcc ctctgcttgc caaagcacca gctcggtcgc tccgttcgtg cttccgcgga      420



ggccgcagct cttcctctgg tgcgcgcgcc ccatctccct ggtgctcggc cagctcaccc      480



atggcgcgcc gtgctcctct gctctccccg ccggcccgag ctccctatgg cgtgcatctc      540



cctggcaaaa gctctctctt ccctctccca tggcgcgtct cgagctccac ctcgggtcgt      600



cgtctccgag ctcgacccca aactgttgtg cgtcctatcc tatctccgag tcgaggttcc      660





<210>  652

<211>  660

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  652

atgtgtgcac ggtccatcgc tctcgcgtcg ctcggtctgc gcgtccctgc gtccggatcc       60



tctccctcca gctcggcgcc catccatgct gcgtcgccct ctctctcatc tccaagccga      120



gaccctcgcc gtgaagcttc catgtggccg cgcgtactcc ctctgcttct ccctcgtggc      180



gctcaacctt gccgagctag tctaccctgg ttatttcata gcccggctct gccccatcgt      240



cgatcgccca tctccatggt cgcgcgccct ccagttctat ggccgtgccg cgcgtcctgg      300



agctcaccgc gcccggccaa gctcccctgt gcacgcccag ccactcctct ctcccttgca      360



gcgcgcgtcc ctctgcttgc caaagcacca gctcggtcgc tccgttcgtg cttccgcgga      420



ggccgcagct cttcctctgg tgcgcgcgcc ccatctccct ggtgctcggc cagctcaccc      480



atggcgcgcc gtgctcctct gctctccccg ccggcccgag ctccctatgg cgtgcatctc      540



cctggcaaaa gctctctctt ccctctccca tggcgcgtct cgagctccac ctcgggtcgt      600



cgtctccgag ctcgacccca aactgttgtg cgtcctatcc tatctccgag tcgaggttcc      660





<210>  653

<211>  660

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  653

atgtgtgcac ggtccatcgc tctcgcgtcg ctcggtctgc gcgtccctgc gtccggatcc       60



tctccctcca gctcggcgcc catccatgct gcgtcgccct ctctctcatc tccaagccga      120



gaccctcgcc gtgaagcttc catgtggccg cgcgtactcc ctctgcttct ccctcgtggc      180



gctcaacctt gccgagctag tctaccctgg ttatttcata gcccggctct gccccatcgt      240



cgatcgccca tctccatggt cgcgcgccct ccagttctat ggccgtgccg cgcgtcctgg      300



agctcaccgc gcccggccaa gctcccctgt gcacgcccag ccactcctct ctcccttgca      360



gcgcgcgtcc ctctgcttgc caaagcacca gctcggtcgc tccgttcgtg cttccgcgga      420



ggccgcagct cttcctctgg tgcgcgcgcc ccatctccct ggtgctcggc cagctcaccc      480



atggcgcgcc gtgctcctct gctctccccg ccggcccgag ctccctatgg cgtgcatctc      540



cctggcaaaa gctctctctt ccctctccca tggcgcgtct cgagctccac ctcgggtcgt      600



cgtctccgag ctcgacccca aactgttgtg cgtcctatcc tatctccgag tcgaggttcc      660





<210>  654

<211>  660

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  654

atgtgtgcac ggtccatcgc tctcgcgtcg ctcggtctgc gcgtccctgc gtccggatcc       60



tctccctcca gctcggcgcc catccatgct gcgtcgccct ctctctcatc tccaagccga      120



gaccctcgcc gtgaagcttc catgtggccg cgcgtactcc ctctgcttct ccctcgtggc      180



gctcaacctt gccgagctag tctaccctgg ttatttcata gcccggctct gccccatcgt      240



cgatcgccca tctccatggt cgcgcgccct ccagttctat ggccgtgccg cgcgtcctgg      300



agctcaccgc gcccggccaa gctcccctgt gcacgcccag ccactcctct ctcccttgca      360



gcgcgcgtcc ctctgcttgc caaagcacca gctcggtcgc tccgttcgtg cttccgcgga      420



ggccgcagct cttcctctgg tgcgcgcgcc ccatctccct ggtgctcggc cagctcaccc      480



atggcgcgcc gtgctcctct gctctccccg ccggcccgag ctccctatgg cgtgcatctc      540



cctggcaaaa gctctctctt ccctctccca tggcgcgtct cgagctccac ctcgggtcgt      600



cgtctccgag ctcgacccca aactgttgtg cgtcctatcc tatctccgag tcgaggttcc      660





<210>  655

<211>  660

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  655

atgtgtgcac ggtccatcgc tctcgcgtcg ctcggtctgc gcgtccctgc gtccggatcc       60



tctccctcca gctcggcgcc catccatgct gcgtcgccct ctctctcatc tccaagccga      120



gaccctcgcc gtgaagcttc catgtggccg cgcgtactcc ctctgcttct ccctcgtggc      180



gctcaacctt gccgagcatc cctaccctgg ttatttcata gcccggctct gccccatcgt      240



cgatcgccca tctccatggt cgcgcgccct ccagttctat ggccgtgccg cgcgtcctgg      300



agctcaccgc gcccggccaa gctcccctgt gcacgcccag ccactcctct ctcccttgca      360



gcgcgcgtcc ctctgcttgc caaagcacca gctcggtcgc tccgttcgtg cttccgcgga      420



ggccgcagct cttcctctgg tgcgcgcgcc ccatctccct ggtgctcggc cagctcaccc      480



atggcgcgcc gtgctcctct gctctccccg ccggcccgag ctccctatgg cgtgcatctc      540



cctggcaaaa gctctctctt ccctctccca tggcgcgtct cgagctccac ctcgggtcgt      600



cgtctccgag ctcgacccca aactgttgtg cgtcctatcc tatctccgag tcgaggttcc      660





<210>  656

<211>  1296

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  656

atggattggg atctcaaggc ggcgggcgcg tgggacctcg cggagctgga gcaggaccac       60



gcggccgcgg cgccgtcgtc ggggggccac gccgccaatg ctgccgcggc gggcacgggg      120



acggagagcc gcccgccggc gcccggggca gcaggggcac ccgccgagtg ctccgtggac      180



ctgaagctgg gcgggatggg cgagtgcgag cccggcgcgg cccgcaggga gagggaggcc      240



gcggcggggg cggcgaagcg gccgcgcccc gccgggcccg gcgggcagca gcagcagcag      300



tgcccgtcgt gcgcggtgga cgggtgcagg gcggacctgg gcaagtgccg cgactaccac      360



cggcggcaca aggtgtgcga ggcgcactcc aagacccccg tcgtcgtcgt cgccggccgc      420



gagatgcgct tctgccagca gtgcagcagg ttccatctac ttgcagagtt cgacgccgac      480



aagcgcagct gcagaaagcg tctggacggg cacaatcgcc gccgcaggaa gccacagcca      540



gacaccatgg cttctgctag ctttatcgca agccagcaag gcacgcgatt ctcaccattt      600



gcgcatccaa gactggaggc gagctggccg ccgggggtga tgaaaaacga ggagagtcca      660



tatcacatca ctcaccaaat ccctctggga tccagcagca gcggcaacag gcagcagcat      720



ttcgtggctc tgggagccgc cacgcctgcc tacgccaagg aaggccggcg cttccctttc      780



ctgcaggagg gcgagataag cttcgccacc ggcgtggtgc tggagccgcc cgcgtcggct      840



ccagcgtgcc agccgctcct caggacggga gcaccatccg agagcagcgg cgcaggcggc      900



agtaagatgt tctccgatca ggggctggct cgcgtgctcg acagcgattg cgcattaagc      960



ttattatcag cgccggccaa ctcctccggc atcgacgtca gcaggatggt ccgcccgact     1020



gaacacgtcc ccatggccca gcagcccgtg gttccgggcc tgcagttcgg cagcgcgtcg     1080



tggttcccgc gcccccaggc ttccacgggc ggctccttcg tcccctcctg ccccgccgcg     1140



gtggagggcg agcagcagct gaacgccgtg ctgggcccca acgacagcga ggtgagcatg     1200



aactacggcg ggatgttcca cgtcggcggc ggcagcggcg gcggcgaggg ctcctcggac     1260



ggcggcacct cgtcgtcgat gcccttctcg tggcag                               1296





<210>  657

<211>  1296

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  657

atggattggg atctcaaggc ggcgggcgcg tgggacctcg cggagctgga gcaggaccac       60



gcggccgcgg cgccgtcgtc ggggggccac gccgccaatg ctgccgcggc gggcacgggg      120



acggagagcc gcccgccggc gcccggggca gcaggggcac ccgccgagtg ctccgtggac      180



ctgaagctgg gcgggatggg cgagtgcgag cccggcgcgg cccgcaggga gagggaggcc      240



gcggcggggg cggcgaagcg gccgcgcccc gccgggcccg gcgggcagca gcagcagcag      300



tgcccgtcgt gcgcggtgga cgggtgcagg gcggacctgg gcaagtgccg cgactaccac      360



cggcggcaca aggtgtgcga ggcgcactcc aagacccccg tcgtcgtcgt cgccggccgc      420



gagatgcgct tctgccagca gtgcagcagg ttccatctac ttgcagagtt cgacgccgac      480



aagcgcagct gcagaaagcg tctggacggg cacaatcgcc gccgcaggaa gccacagcca      540



gacaccatgg cttctgctag ctttatcgca agccagcaag gcacgcgatt ctcaccattt      600



gcgcatccaa gactggaggc gagctggccg ccgggggtga tgaaaaacga ggagagtcca      660



tatcacatca ctcaccaaat ccctctggga tccagcagca gcggcaacag gcagcagcat      720



ttcgtggctc tgggagccgc cacgcctgcc tacgccaagg aaggccggcg cttccctttc      780



ctgcaggagg gcgagataag cttcgccacc ggcgtggtgc tggagccgcc cgcgtcggct      840



ccagcgtgcc agccgctcct caggacggga gcaccatccg agagcagcgg cgcaggcggc      900



agtaagatgt tctccgatca ggggctggct cgcgtgctcg actcggattg cgcattatcg      960



ttattatcag cgccggccaa ctcctccggc atcgacgtca gcaggatggt ccgcccgact     1020



gaacacgtcc ccatggccca gcagcccgtg gttccgggcc tgcagttcgg cagcgcgtcg     1080



tggttcccgc gcccccaggc ttccacgggc ggctccttcg tcccctcctg ccccgccgcg     1140



gtggagggcg agcagcagct gaacgccgtg ctgggcccca acgacagcga ggtgagcatg     1200



aactacggcg ggatgttcca cgtcggcggc ggcagcggcg gcggcgaggg ctcctcggac     1260



ggcggcacct cgtcgtcgat gcccttctcg tggcag                               1296





<210>  658

<211>  1296

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  658

atggattggg atctcaaggc ggcgggcgcg tgggacctcg cggagctgga gcaggaccac       60



gcggccgcgg cgccgtcgtc ggggggccac gccgccaatg ctgccgcggc gggcacgggg      120



acggagagcc gcccgccggc gcccggggca gcaggggcac ccgccgagtg ctccgtggac      180



ctgaagctgg gcgggatggg cgagtgcgag cccggcgcgg cccgcaggga gagggaggcc      240



gcggcggggg cggcgaagcg gccgcgcccc gccgggcccg gcgggcagca gcagcagcag      300



tgcccgtcgt gcgcggtgga cgggtgcagg gcggacctgg gcaagtgccg cgactaccac      360



cggcggcaca aggtgtgcga ggcgcactcc aagacccccg tcgtcgtcgt cgccggccgc      420



gagatgcgct tctgccagca gtgcagcagg ttccatctac ttgcagagtt cgacgccgac      480



aagcgcagct gcagaaagcg tctggacggg cacaatcgcc gccgcaggaa gccacagcca      540



gacaccatgg cttctgctag ctttatcgca agccagcaag gcacgcgatt ctcaccattt      600



gcgcatccaa gactggaggc gagctggccg ccgggggtga tgaaaaacga ggagagtcca      660



tatcacatca ctcaccaaat ccctctggga tccagcagca gcggcaacag gcagcagcat      720



ttcgtggctc tgggagccgc cacgcctgcc tacgccaagg aaggccggcg cttccctttc      780



ctgcaggagg gcgagataag cttcgccacc ggcgtggtgc tggagccgcc cgcgtcggct      840



ccagcgtgcc agccgctcct caggacggga gcaccatccg agagcagcgg cgcaggcggc      900



agtaagatgt tctccgatca ggggctggct cgcgtgctcg actcggattg cgcattatcg      960



ttattatcag cgccggccaa ctcctccggc atcgacgtca gcaggatggt ccgcccgact     1020



gaacacgtcc ccatggccca gcagcccgtg gttccgggcc tgcagttcgg cagcgcgtcg     1080



tggttcccgc gcccccaggc ttccacgggc ggctccttcg tcccctcctg ccccgccgcg     1140



gtggagggcg agcagcagct gaacgccgtg ctgggcccca acgacagcga ggtgagcatg     1200



aactacggcg ggatgttcca cgtcggcggc ggcagcggcg gcggcgaggg ctcctcggac     1260



ggcggcacct cgtcgtcgat gcccttctcg tggcag                               1296





<210>  659

<211>  1296

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  659

atggattggg atctcaaggc ggcgggcgcg tgggacctcg cggagctgga gcaggaccac       60



gcggccgcgg cgccgtcgtc ggggggccac gccgccaatg ctgccgcggc gggcacgggg      120



acggagagcc gcccgccggc gcccggggca gcaggggcac ccgccgagtg ctccgtggac      180



ctgaagctgg gcgggatggg cgagtgcgag cccggcgcgg cccgcaggga gagggaggcc      240



gcggcggggg cggcgaagcg gccgcgcccc gccgggcccg gcgggcagca gcagcagcag      300



tgcccgtcgt gcgcggtgga cgggtgcagg gcggacctgg gcaagtgccg cgactaccac      360



cggcggcaca aggtgtgcga ggcgcactcc aagacccccg tcgtcgtcgt cgccggccgc      420



gagatgcgct tctgccagca gtgcagcagg ttccatctac ttgcagagtt cgacgccgac      480



aagcgcagct gcagaaagcg tctggacggg cacaatcgcc gccgcaggaa gccacagcca      540



gacaccatgg cttctgctag ctttatcgca agccagcaag gcacgcgatt ctcaccattt      600



gcgcatccaa gactggaggc gagctggccg ccgggggtga tgaaaaacga ggagagtcca      660



tatcacatca ctcaccaaat ccctctggga tccagcagca gcggcaacag gcagcagcat      720



ttcgtggctc tgggagccgc cacgcctgcc tacgccaagg aaggccggcg cttccctttc      780



ctgcaggagg gcgagataag cttcgccacc ggcgtggtgc tggagccgcc cgcgtcggct      840



ccagcgtgcc agccgctcct caggacggga gcaccatccg agagcagcgg cgcaggcggc      900



agtaagatgt tctccgatca ggggctggct cgcgtgctcg actcggattg cgcattatcg      960



ttattatcag cgccggccaa ctcctccggc atcgacgtca gcaggatggt ccgcccgact     1020



gaacacgtcc ccatggccca gcagcccgtg gttccgggcc tgcagttcgg cagcgcgtcg     1080



tggttcccgc gcccccaggc ttccacgggc ggctccttcg tcccctcctg ccccgccgcg     1140



gtggagggcg agcagcagct gaacgccgtg ctgggcccca acgacagcga ggtgagcatg     1200



aactacggcg ggatgttcca cgtcggcggc ggcagcggcg gcggcgaggg ctcctcggac     1260



ggcggcacct cgtcgtcgat gcccttctcg tggcag                               1296





<210>  660

<211>  1296

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  660

atggattggg atctcaaggc ggcgggcgcg tgggacctcg cggagctgga gcaggaccac       60



gcggccgcgg cgccgtcgtc ggggggccac gccgccaatg ctgccgcggc gggcacgggg      120



acggagagcc gcccgccggc gcccggggca gcaggggcac ccgccgagtg ctccgtggac      180



ctgaagctgg gcgggatggg cgagtgcgag cccggcgcgg cccgcaggga gagggaggcc      240



gcggcggggg cggcgaagcg gccgcgcccc gccgggcccg gcgggcagca gcagcagcag      300



tgcccgtcgt gcgcggtgga cgggtgcagg gcggacctgg gcaagtgccg cgactaccac      360



cggcggcaca aggtgtgcga ggcgcactcc aagacccccg tcgtcgtcgt cgccggccgc      420



gagatgcgct tctgccagca gtgcagcagg ttccatctac ttgcagagtt cgacgccgac      480



aagcgcagct gcagaaagcg tctggacggg cacaatcgcc gccgcaggaa gccacagcca      540



gacaccatgg cttctgctag ctttatcgca agccagcaag gcacgcgatt ctcaccattt      600



gcgcatccaa gactggaggc gagctggccg ccgggggtga tgaaaaacga ggagagtcca      660



tatcacatca ctcaccaaat ccctctggga tccagcagca gcggcaacag gcagcagcat      720



ttcgtggctc tgggagccgc cacgcctgcc tacgccaagg aaggccggcg cttccctttc      780



ctgcaggagg gcgagataag cttcgccacc ggcgtggtgc tggagccgcc cgcgtcggct      840



ccagcgtgcc agccgctcct caggacggga gcaccatccg agagcagcgg cgcaggcggc      900



agtaagatgt tctccgatca ggggctggct cgcgtgctcg actcggattg cgcattatcg      960



ttattatcag cgccggccaa ctcctccggc atcgacgtca gcaggatggt ccgcccgact     1020



gaacacgtcc ccatggccca gcagcccgtg gttccgggcc tgcagttcgg cagcgcgtcg     1080



tggttcccgc gcccccaggc ttccacgggc ggctccttcg tcccctcctg ccccgccgcg     1140



gtggagggcg agcagcagct gaacgccgtg ctgggcccca acgacagcga ggtgagcatg     1200



aactacggcg ggatgttcca cgtcggcggc ggcagcggcg gcggcgaggg ctcctcggac     1260



ggcggcacct cgtcgtcgat gcccttctcg tggcag                               1296





<210>  661

<211>  975

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  661

atggactggg cagcggcgtc cgggtctccg tcgtggggcg cggcggcgac ggaccccggt       60



ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg ccgacgccga ggtgcggctc      120



caggatttcg ccgcgggtct tgcccagagc tcgcggccga ctggggcggc gccgggagcc      180



gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg aggcgtgctc cgtcgacggc      240



tgccgctctg atctcagccg gtgccgcgag taccaccggc ggcataaggt ctgtgaggca      300



cactccaagg cgccggtggt ggtcgtcggc ggacaggagc ggcgcttctg ccagcaatgc      360



agccggtttc acatgctgtc cgagtttgac gaggaaaaaa gaagttgccg gaagcgtctg      420



gatggccata ataggcgtcg aagaaagcca cagcatgatc tgacaaatct agggggtttc      480



tttccatacc accaagtgaa tcagtttgag ttctacccac aaacaattcc aacagttggc      540



cagaattcgg acgccgtgca cttggtgggc cgtcagcagc ctttctccat atcgttctca      600



agaacaccag acgagttccc tttcccacag ggtggcggta gcagtgtgct gcaccacctc      660



catgcagccc gccctggcca tcacgctgaa ggcagcagcc acactggaag cagcacacgc      720



gacaacgctc tctccggcac actgggccca gaatgcgcat taagcttatt atcatcgtcg      780



ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc aaccccaggt tactgcctct      840



tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg ccactgctgc attcgcggcc      900



agtgctggcc accatgtgtt tgttcctgat gctatgtttg aggatccatc acaggcactg      960



ccattctctt ggcag                                                       975





<210>  662

<211>  975

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  662

atggactggg cagcggcgtc cgggtctccg tcgtggggcg cggcggcgac ggaccccggt       60



ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg ccgacgccga ggtgcggctc      120



caggatttcg ccgcgggtct tgcccagagc tcgcggccga ctggggcggc gccgggagcc      180



gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg aggcgtgctc cgtcgacggc      240



tgccgctctg atctcagccg gtgccgcgag taccaccggc ggcataaggt ctgtgaggca      300



cactccaagg cgccggtggt ggtcgtcggc ggacaggagc ggcgcttctg ccagcaatgc      360



agccggtttc acatgctgtc cgagtttgac gaggaaaaaa gaagttgccg gaagcgtctg      420



gatggccata ataggcgtcg aagaaagcca cagcatgatc tgacaaatct agggggtttc      480



tttccatacc accaagtgaa tcagtttgag ttctacccac aaacaattcc aacagttggc      540



cagaattcgg acgccgtgca cttggtgggc cgtcagcagc ctttctccat atcgttctca      600



agaacaccag acgagttccc tttcccacag ggtggcggta gcagtgtgct gcaccacctc      660



catgcagccc gccctggcca tcacgctgaa ggcagcagcc acactggaag cagcacacgc      720



gacaacgctc tctccggcac actgggcccc gaatgcgcat taagcttatt atcatcgtcg      780



ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc aaccccaggt tactgcctct      840



tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg ccactgctgc attcgcggcc      900



agtgctggcc accatgtgtt tgttcctgat gctatgtttg aggatccatc acaggcactg      960



ccattctctt ggcag                                                       975





<210>  663

<211>  975

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  663

atggactggg cagcggcgtc cgggtctccg tcgtggggcg cggcggcgac ggaccccggt       60



ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg ccgacgccga ggtgcggctc      120



caggatttcg ccgcgggtct tgcccagagc tcgcggccga ctggggcggc gccgggagcc      180



gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg aggcgtgctc cgtcgacggc      240



tgccgctctg atctcagccg gtgccgcgag taccaccggc ggcataaggt ctgtgaggca      300



cactccaagg cgccggtggt ggtcgtcggc ggacaggagc ggcgcttctg ccagcaatgc      360



agccggtttc acatgctgtc cgagtttgac gaggaaaaaa gaagttgccg gaagcgtctg      420



gatggccata ataggcgtcg aagaaagcca cagcatgatc tgacaaatct agggggtttc      480



tttccatacc accaagtgaa tcagtttgag ttctacccac aaacaattcc aacagttggc      540



cagaattcgg acgccgtgca cttggtgggc cgtcagcagc ctttctccat atcgttctca      600



agaacaccag acgagttccc tttcccacag ggtggcggta gcagtgtgct gcaccacctc      660



catgcagccc gccctggcca tcacgctgaa ggcagcagcc acactggaag cagcacacgc      720



gacaacgctc tctccggcac actgggcccc gaatgcgcat taagcttatt atcatcgtcg      780



ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc aaccccaggt tactgcctct      840



tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg ccactgctgc attcgcggcc      900



agtgctggcc accatgtgtt tgttcctgat gctatgtttg aggatccatc acaggcactg      960



ccattctctt ggcag                                                       975





<210>  664

<211>  975

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  664

atggactggg cagcggcgtc cgggtctccg tcgtggggcg cggcggcgac ggaccccggt       60



ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg ccgacgccga ggtgcggctc      120



caggatttcg ccgcgggtct tgcccagagc tcgcggccga ctggggcggc gccgggagcc      180



gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg aggcgtgctc cgtcgacggc      240



tgccgctctg atctcagccg gtgccgcgag taccaccggc ggcataaggt ctgtgaggca      300



cactccaagg cgccggtggt ggtcgtcggc ggacaggagc ggcgcttctg ccagcaatgc      360



agccggtttc acatgctgtc cgagtttgac gaggaaaaaa gaagttgccg gaagcgtctg      420



gatggccata ataggcgtcg aagaaagcca cagcatgatc tgacaaatct agggggtttc      480



tttccatacc accaagtgaa tcagtttgag ttctacccac aaacaattcc aacagttggc      540



cagaattcgg acgccgtgca cttggtgggc cgtcagcagc ctttctccat atcgttctca      600



agaacaccag acgagttccc tttcccacag ggtggcggta gcagtgtgct gcaccacctc      660



catgcagccc gccctggcca tcacgctgaa ggcagcagcc acactggaag cagcacacgc      720



gacaacgctc tctccggcac actgggcccc gaatgcgcat taagcttatt atcatcgtcg      780



ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc aaccccaggt tactgcctct      840



tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg ccactgctgc attcgcggcc      900



agtgctggcc accatgtgtt tgttcctgat gctatgtttg aggatccatc acaggcactg      960



ccattctctt ggcag                                                       975





<210>  665

<211>  975

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  665

atggactggg cagcggcgtc cgggtctccg tcgtggggcg cggcggcgac ggaccccggt       60



ccgaccatgc tgtccttcgc aggcccgtcc tcctccgccg ccgacgccga ggtgcggctc      120



caggatttcg ccgcgggtct tgcccagagc tcgcggccga ctggggcggc gccgggagcc      180



gggaggaggt cccgcgcggc cgtgggaggt gccggcgcgg aggcgtgctc cgtcgacggc      240



tgccgctctg atctcagccg gtgccgcgag taccaccggc ggcataaggt ctgtgaggca      300



cactccaagg cgccggtggt ggtcgtcggc ggacaggagc ggcgcttctg ccagcaatgc      360



agccggtttc acatgctgtc cgagtttgac gaggaaaaaa gaagttgccg gaagcgtctg      420



gatggccata ataggcgtcg aagaaagcca cagcatgatc tgacaaatct agggggtttc      480



tttccatacc accaagtgaa tcagtttgag ttctacccac aaacaattcc aacagttggc      540



cagaattcgg acgccgtgca cttggtgggc cgtcagcagc ctttctccat atcgttctca      600



agaacaccag acgagttccc tttcccacag ggtggcggta gcagtgtgct gcaccacctc      660



catgcagccc gccctggcca tcacgctgaa ggcagcagcc acactggaag cagcacacgc      720



gacaacgctc tctccggcac actgggccca gagtgcgcat taagcttatt atcatcgtcg      780



ctgcgtcgcc cctcaactgc tggcgtcccc gccgttggcc aaccccaggt tactgcctct      840



tcgaccactg ccgtgtcgca ggctgcaacg gcagctgtgg ccactgctgc attcgcggcc      900



agtgctggcc accatgtgtt tgttcctgat gctatgtttg aggatccatc acaggcactg      960



ccattctctt ggcag                                                       975





<210>  666

<211>  801

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  666

atgagctctg ggagctttat gacgagtcaa caagggacga ggttctcgtc gttcccggtt       60



ccaaggccgg agccgagctg gcccggagtc atcaaatccg aggacagcgg ctcatactac      120



gcgcaccagc gccacccggt cctaagcagc aggccgcact tcgccggcgg gggctccacg      180



ccgccggcct actcgtccaa ggaaggccgg cgcttcccgt tcctccagga cggctgcgac      240



cagcagcagg tcggcggctt cagcgcgggc gcgggggcgc agcagctcga ggtctcttcc      300



acgtccacgg tgtgccagcc cctcctcaag gccgccgccg ccgccgcccc accgccgccg      360



ccagagagca gcagcagcaa caagatgttc tccgacgggc tcgcccccgc cgtgctcgac      420



agcgactgcg cattaagctt attatcatcc cccgccaact cctccagcgt cgacgtgggc      480



cggatggtcg tccaccagcc cgcggagcac atccccatgg cgcagcccct cgtccccggc      540



ggcctccagc agcagcagca gcaccacccg ttcggcggct cccccgcctg gttcgcctgc      600



tcccaggccg gctccagcgc cgtctccgcc ggcggtttcg cctgcccccc gggcgtggag      660



agcgagcagc tcaacaccgt gctggtgccg agctccgacg gtggcggcca cgacatgaac      720



atgaactacc acggcatatt ccacgtcggc ggcgacggct cctccgacgg gacgtcccct      780



tcgctcccgt tctcgtggca g                                                801





<210>  667

<211>  801

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  667

atgagctctg ggagctttat gacgagtcaa caagggacga ggttctcgtc gttcccggtt       60



ccaaggccgg agccgagctg gcccggagtc atcaaatccg aggacagcgg ctcatactac      120



gcgcaccagc gccacccggt cctaagcagc aggccgcact tcgccggcgg gggctccacg      180



ccgccggcct actcgtccaa ggaaggccgg cgcttcccgt tcctccagga cggctgcgac      240



cagcagcagg tcggcggctt cagcgcgggc gcgggggcgc agcagctcga ggtctcttcc      300



acgtccacgg tgtgccagcc cctcctcaag gccgccgccg ccgccgcccc accgccgccg      360



ccagagagca gcagcagcaa caagatgttc tccgacgggc tcgcccccgc cgtgctcgac      420



tcggactgcg cattatcgtt attatcatcc cccgccaact cctccagcgt cgacgtgggc      480



cggatggtcg tccaccagcc cgcggagcac atccccatgg cgcagcccct cgtccccggc      540



ggcctccagc agcagcagca gcaccacccg ttcggcggct cccccgcctg gttcgcctgc      600



tcccaggccg gctccagcgc cgtctccgcc ggcggtttcg cctgcccccc gggcgtggag      660



agcgagcagc tcaacaccgt gctggtgccg agctccgacg gtggcggcca cgacatgaac      720



atgaactacc acggcatatt ccacgtcggc ggcgacggct cctccgacgg gacgtcccct      780



tcgctcccgt tctcgtggca g                                                801





<210>  668

<211>  801

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  668

atgagctctg ggagctttat gacgagtcaa caagggacga ggttctcgtc gttcccggtt       60



ccaaggccgg agccgagctg gcccggagtc atcaaatccg aggacagcgg ctcatactac      120



gcgcaccagc gccacccggt cctaagcagc aggccgcact tcgccggcgg gggctccacg      180



ccgccggcct actcgtccaa ggaaggccgg cgcttcccgt tcctccagga cggctgcgac      240



cagcagcagg tcggcggctt cagcgcgggc gcgggggcgc agcagctcga ggtctcttcc      300



acgtccacgg tgtgccagcc cctcctcaag gccgccgccg ccgccgcccc accgccgccg      360



ccagagagca gcagcagcaa caagatgttc tccgacgggc tcgcccccgc cgtgctcgac      420



tcggactgcg cattatcgtt attatcatcc cccgccaact cctccagcgt cgacgtgggc      480



cggatggtcg tccaccagcc cgcggagcac atccccatgg cgcagcccct cgtccccggc      540



ggcctccagc agcagcagca gcaccacccg ttcggcggct cccccgcctg gttcgcctgc      600



tcccaggccg gctccagcgc cgtctccgcc ggcggtttcg cctgcccccc gggcgtggag      660



agcgagcagc tcaacaccgt gctggtgccg agctccgacg gtggcggcca cgacatgaac      720



atgaactacc acggcatatt ccacgtcggc ggcgacggct cctccgacgg gacgtcccct      780



tcgctcccgt tctcgtggca g                                                801





<210>  669

<211>  801

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  669

atgagctctg ggagctttat gacgagtcaa caagggacga ggttctcgtc gttcccggtt       60



ccaaggccgg agccgagctg gcccggagtc atcaaatccg aggacagcgg ctcatactac      120



gcgcaccagc gccacccggt cctaagcagc aggccgcact tcgccggcgg gggctccacg      180



ccgccggcct actcgtccaa ggaaggccgg cgcttcccgt tcctccagga cggctgcgac      240



cagcagcagg tcggcggctt cagcgcgggc gcgggggcgc agcagctcga ggtctcttcc      300



acgtccacgg tgtgccagcc cctcctcaag gccgccgccg ccgccgcccc accgccgccg      360



ccagagagca gcagcagcaa caagatgttc tccgacgggc tcgcccccgc cgtgctcgac      420



tcggactgcg cattatcgtt attatcatcc cccgccaact cctccagcgt cgacgtgggc      480



cggatggtcg tccaccagcc cgcggagcac atccccatgg cgcagcccct cgtccccggc      540



ggcctccagc agcagcagca gcaccacccg ttcggcggct cccccgcctg gttcgcctgc      600



tcccaggccg gctccagcgc cgtctccgcc ggcggtttcg cctgcccccc gggcgtggag      660



agcgagcagc tcaacaccgt gctggtgccg agctccgacg gtggcggcca cgacatgaac      720



atgaactacc acggcatatt ccacgtcggc ggcgacggct cctccgacgg gacgtcccct      780



tcgctcccgt tctcgtggca g                                                801





<210>  670

<211>  801

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  670

atgagctctg ggagctttat gacgagtcaa caagggacga ggttctcgtc gttcccggtt       60



ccaaggccgg agccgagctg gcccggagtc atcaaatccg aggacagcgg ctcatactac      120



gcgcaccagc gccacccggt cctaagcagc aggccgcact tcgccggcgg gggctccacg      180



ccgccggcct actcgtccaa ggaaggccgg cgcttcccgt tcctccagga cggctgcgac      240



cagcagcagg tcggcggctt cagcgcgggc gcgggggcgc agcagctcga ggtctcttcc      300



acgtccacgg tgtgccagcc cctcctcaag gccgccgccg ccgccgcccc accgccgccg      360



ccagagagca gcagcagcaa caagatgttc tccgacgggc tcgcccccgc cgtgctcgac      420



tcggactgcg cattatcgtt attatcatcc cccgccaact cctccagcgt cgacgtgggc      480



cggatggtcg tccaccagcc cgcggagcac atccccatgg cgcagcccct cgtccccggc      540



ggcctccagc agcagcagca gcaccacccg ttcggcggct cccccgcctg gttcgcctgc      600



tcccaggccg gctccagcgc cgtctccgcc ggcggtttcg cctgcccccc gggcgtggag      660



agcgagcagc tcaacaccgt gctggtgccg agctccgacg gtggcggcca cgacatgaac      720



atgaactacc acggcatatt ccacgtcggc ggcgacggct cctccgacgg gacgtcccct      780



tcgctcccgt tctcgtggca g                                                801





<210>  671

<211>  759

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  671

atgcatatgc caatccgctg tttcccgaat ctactgtttt ttttttggtc agagcctggt       60



aggttcagga gcttcctgct cgacttctcg tacccgaggg ttccaagcag cgtgagagat      120



gatgcgtggc aatggcaagg gatgcagcat ggcggcgaca ggatgctgct gggtaccgcc      180



agcgccatcc agtggcatgg gaaccaagaa cctcacccac cacatcgcag cgcagctgcg      240



ggctatggca accatgcgta caacaactgc catggtggcg gcggcttggt agcagcagca      300



gcgggggcgt caatgctctc ctctgccttc gagcccccgc ctggcggtgg cggatgtgtc      360



gcaggagcta ccgcggccga cagttcatgc gcattaagct tattatcaac tcagccatgg      420



gatacgccca cccaaagtgg cagcagccac cacaaccggt ccccagcgat gtccgcggct      480



gcaggcgcct tcgaagtggc gccgtcgtcc gtcgtggcga gcagctacac ggcgtcgagc      540



tcctggtctg gctcacggga ccctgccgac ggcgccagga aaaacgcgca gcgtcacgat      600



gatggcctgc acctggtcca tccaccaggc cccgtccacc acggccactt ctccggcgag      660



ctcgagctcg ccctgcaggg aagcggcccg ccgcatgtcg accatggcgg cggcacctgc      720



ttcagccatt ctgacaccaa cgcgatgaat tggtccctg                             759





<210>  672

<211>  759

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  672

atgcatatgc caatccgctg tttcccgaat ctactgtttt ttttttggtc agagcctggt       60



aggttcagga gcttcctgct cgacttctcg tacccgaggg ttccaagcag cgtgagagat      120



gatgcgtggc aatggcaagg gatgcagcat ggcggcgaca ggatgctgct gggtaccgcc      180



agcgccatcc agtggcatgg gaaccaagaa cctcacccac cacatcgcag cgcagctgcg      240



ggctatggca accatgcgta caacaactgc catggtggcg gcggcttggt agcagcagca      300



gcgggggcgt caatgctctc ctctgccttc gagcccccgc ctggcggtgg cggatgtgtc      360



gcaggagcta ccgcggccga ctcctcatgc gcattaagct tattatcaac tcagccatgg      420



gatacgccca cccaaagtgg cagcagccac cacaaccggt ccccagcgat gtccgcggct      480



gcaggcgcct tcgaagtggc gccgtcgtcc gtcgtggcga gcagctacac ggcgtcgagc      540



tcctggtctg gctcacggga ccctgccgac ggcgccagga aaaacgcgca gcgtcacgat      600



gatggcctgc acctggtcca tccaccaggc cccgtccacc acggccactt ctccggcgag      660



ctcgagctcg ccctgcaggg aagcggcccg ccgcatgtcg accatggcgg cggcacctgc      720



ttcagccatt ctgacaccaa cgcgatgaat tggtccctg                             759





<210>  673

<211>  759

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  673

atgcatatgc caatccgctg tttcccgaat ctactgtttt ttttttggtc agagcctggt       60



aggttcagga gcttcctgct cgacttctcg tacccgaggg ttccaagcag cgtgagagat      120



gatgcgtggc aatggcaagg gatgcagcat ggcggcgaca ggatgctgct gggtaccgcc      180



agcgccatcc agtggcatgg gaaccaagaa cctcacccac cacatcgcag cgcagctgcg      240



ggctatggca accatgcgta caacaactgc catggtggcg gcggcttggt agcagcagca      300



gcgggggcgt caatgctctc ctctgccttc gagcccccgc ctggcggtgg cggatgtgtc      360



gcaggagcta ccgcggccga ctcctcatgc gcattaagct tattatcaac tcagccatgg      420



gatacgccca cccaaagtgg cagcagccac cacaaccggt ccccagcgat gtccgcggct      480



gcaggcgcct tcgaagtggc gccgtcgtcc gtcgtggcga gcagctacac ggcgtcgagc      540



tcctggtctg gctcacggga ccctgccgac ggcgccagga aaaacgcgca gcgtcacgat      600



gatggcctgc acctggtcca tccaccaggc cccgtccacc acggccactt ctccggcgag      660



ctcgagctcg ccctgcaggg aagcggcccg ccgcatgtcg accatggcgg cggcacctgc      720



ttcagccatt ctgacaccaa cgcgatgaat tggtccctg                             759





<210>  674

<211>  759

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  674

atgcatatgc caatccgctg tttcccgaat ctactgtttt ttttttggtc agagcctggt       60



aggttcagga gcttcctgct cgacttctcg tacccgaggg ttccaagcag cgtgagagat      120



gatgcgtggc aatggcaagg gatgcagcat ggcggcgaca ggatgctgct gggtaccgcc      180



agcgccatcc agtggcatgg gaaccaagaa cctcacccac cacatcgcag cgcagctgcg      240



ggctatggca accatgcgta caacaactgc catggtggcg gcggcttggt agcagcagca      300



gcgggggcgt caatgctctc ctctgccttc gagcccccgc ctggcggtgg cggatgtgtc      360



gcaggagcta ccgcggccga ctcctcatgc gcattaagct tattatcaac tcagccatgg      420



gatacgccca cccaaagtgg cagcagccac cacaaccggt ccccagcgat gtccgcggct      480



gcaggcgcct tcgaagtggc gccgtcgtcc gtcgtggcga gcagctacac ggcgtcgagc      540



tcctggtctg gctcacggga ccctgccgac ggcgccagga aaaacgcgca gcgtcacgat      600



gatggcctgc acctggtcca tccaccaggc cccgtccacc acggccactt ctccggcgag      660



ctcgagctcg ccctgcaggg aagcggcccg ccgcatgtcg accatggcgg cggcacctgc      720



ttcagccatt ctgacaccaa cgcgatgaat tggtccctg                             759





<210>  675

<211>  759

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  675

atgcatatgc caatccgctg tttcccgaat ctactgtttt ttttttggtc agagcctggt       60



aggttcagga gcttcctgct cgacttctcg tacccgaggg ttccaagcag cgtgagagat      120



gatgcgtggc aatggcaagg gatgcagcat ggcggcgaca ggatgctgct gggtaccgcc      180



agcgccatcc agtggcatgg gaaccaagaa cctcacccac cacatcgcag cgcagctgcg      240



ggctatggca accatgcgta caacaactgc catggtggcg gcggcttggt agcagcagca      300



gcgggggcgt caatgctctc ctctgccttc gagcccccgc ctggcggtgg cggatgtgtc      360



gcaggagcta ccgcggccga ctcctcatgc gcattaagct tattatcaac tcagccatgg      420



gatacgccca cccaaagtgg cagcagccac cacaaccggt ccccagcgat gtccgcggct      480



gcaggcgcct tcgaagtggc gccgtcgtcc gtcgtggcga gcagctacac ggcgtcgagc      540



tcctggtctg gctcacggga ccctgccgac ggcgccagga aaaacgcgca gcgtcacgat      600



gatggcctgc acctggtcca tccaccaggc cccgtccacc acggccactt ctccggcgag      660



ctcgagctcg ccctgcaggg aagcggcccg ccgcatgtcg accatggcgg cggcacctgc      720



ttcagccatt ctgacaccaa cgcgatgaat tggtccctg                             759





<210>  676

<211>  1134

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  676

atggcgaccg gcggcggcag cagcaggagc gacgacgtgc gcgggctcaa gtttggcaag       60



aagatctact tcgagcagga cggcgggagc gggagcgggg cgggggcggt gggcggcagg      120



aaggggaagg gcgtggccac cggtggcgcg aggccggcgt ccgccgcctc cgcagcccag      180



ccgccgaggt gccaggtgga cgggtgcggc gtggatctga gcgccgtcaa gcagtactac      240



tgccggcaca aggtgtgcaa catgcactcc aaggagccgc gcgtcttcgt cgccggcatc      300



gagcagcgct tctgccaaca gtgcagcagg ttccaccagc tacatgaatt tgaccaaggg      360



aaacgtagct gccgccgccg cctcatcggt cacaacgagc gccggaggaa gccaccacct      420



ggacctctca cttcacgata tggccggctc gctgcatcac ttcaagagcc tggcaggttc      480



agaagcttcc tgctcgactt ctcgtaccca agggttccaa gcagcgtgag ggatgcgtgg      540



ccaggaatcc agcacggtgg cgacaggatg ctgggcaccg tccagtggca tgggcaccaa      600



gaacctcctc acccacaccg cagtgcagct gctggctatg gcaaccatgc tgcatacaac      660



tgccatggcg gcttggtagc aggcggggcc ccaatgctct cctctgccgc ctttgagctc      720



ccgcctggcg gatgtgtcgc gggagttgcc gccgacagtt catgcgcatt aagcttatta      780



tcaactcagc catgggacac gacctcccac gaccaccggt ccccagcaat gcccgcggcc      840



ggcgccttcg acggcacccc ggtggcgccg tccgtcatgg cgagcagcta cgcggcgtcg      900



agcgcctgga cgggctcgcg ggaccccgct gccgacggcg ccaggaacgc gcagcgtctc      960



gacgatgctc tgcacctggt ccacccaggc tccgcggcgg tccacttctc cggcgagctc     1020



gagctcgccc tgcagggaag cggcgggccg ccacacctgc cgcgcgtcga ccatggcggc     1080



tccggcggcg gcaccttcaa ccattccacc accagcgcga tgaactggtc cctg           1134





<210>  677

<211>  1134

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  677

atggcgaccg gcggcggcag cagcaggagc gacgacgtgc gcgggctcaa gtttggcaag       60



aagatctact tcgagcagga cggcgggagc gggagcgggg cgggggcggt gggcggcagg      120



aaggggaagg gcgtggccac cggtggcgcg aggccggcgt ccgccgcctc cgcagcccag      180



ccgccgaggt gccaggtgga cgggtgcggc gtggatctga gcgccgtcaa gcagtactac      240



tgccggcaca aggtgtgcaa catgcactcc aaggagccgc gcgtcttcgt cgccggcatc      300



gagcagcgct tctgccaaca gtgcagcagg ttccaccagc tacatgaatt tgaccaaggg      360



aaacgtagct gccgccgccg cctcatcggt cacaacgagc gccggaggaa gccaccacct      420



ggacctctca cttcacgata tggccggctc gctgcatcac ttcaagagcc tggcaggttc      480



agaagcttcc tgctcgactt ctcgtaccca agggttccaa gcagcgtgag ggatgcgtgg      540



ccaggaatcc agcacggtgg cgacaggatg ctgggcaccg tccagtggca tgggcaccaa      600



gaacctcctc acccacaccg cagtgcagct gctggctatg gcaaccatgc tgcatacaac      660



tgccatggcg gcttggtagc aggcggggcc ccaatgctct cctctgccgc ctttgagctc      720



ccgcctggcg gatgtgtcgc gggagttgcc gccgactcct catgcgcatt aagcttatta      780



tcaactcagc catgggacac gacctcccac gaccaccggt ccccagcaat gcccgcggcc      840



ggcgccttcg acggcacccc ggtggcgccg tccgtcatgg cgagcagcta cgcggcgtcg      900



agcgcctgga cgggctcgcg ggaccccgct gccgacggcg ccaggaacgc gcagcgtctc      960



gacgatgctc tgcacctggt ccacccaggc tccgcggcgg tccacttctc cggcgagctc     1020



gagctcgccc tgcagggaag cggcgggccg ccacacctgc cgcgcgtcga ccatggcggc     1080



tccggcggcg gcaccttcaa ccattccacc accagcgcga tgaactggtc cctg           1134





<210>  678

<211>  1134

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  678

atggcgaccg gcggcggcag cagcaggagc gacgacgtgc gcgggctcaa gtttggcaag       60



aagatctact tcgagcagga cggcgggagc gggagcgggg cgggggcggt gggcggcagg      120



aaggggaagg gcgtggccac cggtggcgcg aggccggcgt ccgccgcctc cgcagcccag      180



ccgccgaggt gccaggtgga cgggtgcggc gtggatctga gcgccgtcaa gcagtactac      240



tgccggcaca aggtgtgcaa catgcactcc aaggagccgc gcgtcttcgt cgccggcatc      300



gagcagcgct tctgccaaca gtgcagcagg ttccaccagc tacatgaatt tgaccaaggg      360



aaacgtagct gccgccgccg cctcatcggt cacaacgagc gccggaggaa gccaccacct      420



ggacctctca cttcacgata tggccggctc gctgcatcac ttcaagagcc tggcaggttc      480



agaagcttcc tgctcgactt ctcgtaccca agggttccaa gcagcgtgag ggatgcgtgg      540



ccaggaatcc agcacggtgg cgacaggatg ctgggcaccg tccagtggca tgggcaccaa      600



gaacctcctc acccacaccg cagtgcagct gctggctatg gcaaccatgc tgcatacaac      660



tgccatggcg gcttggtagc aggcggggcc ccaatgctct cctctgccgc ctttgagctc      720



ccgcctggcg gatgtgtcgc gggagttgcc gccgactcct catgcgcatt aagcttatta      780



tcaactcagc catgggacac gacctcccac gaccaccggt ccccagcaat gcccgcggcc      840



ggcgccttcg acggcacccc ggtggcgccg tccgtcatgg cgagcagcta cgcggcgtcg      900



agcgcctgga cgggctcgcg ggaccccgct gccgacggcg ccaggaacgc gcagcgtctc      960



gacgatgctc tgcacctggt ccacccaggc tccgcggcgg tccacttctc cggcgagctc     1020



gagctcgccc tgcagggaag cggcgggccg ccacacctgc cgcgcgtcga ccatggcggc     1080



tccggcggcg gcaccttcaa ccattccacc accagcgcga tgaactggtc cctg           1134





<210>  679

<211>  1134

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  679

atggcgaccg gcggcggcag cagcaggagc gacgacgtgc gcgggctcaa gtttggcaag       60



aagatctact tcgagcagga cggcgggagc gggagcgggg cgggggcggt gggcggcagg      120



aaggggaagg gcgtggccac cggtggcgcg aggccggcgt ccgccgcctc cgcagcccag      180



ccgccgaggt gccaggtgga cgggtgcggc gtggatctga gcgccgtcaa gcagtactac      240



tgccggcaca aggtgtgcaa catgcactcc aaggagccgc gcgtcttcgt cgccggcatc      300



gagcagcgct tctgccaaca gtgcagcagg ttccaccagc tacatgaatt tgaccaaggg      360



aaacgtagct gccgccgccg cctcatcggt cacaacgagc gccggaggaa gccaccacct      420



ggacctctca cttcacgata tggccggctc gctgcatcac ttcaagagcc tggcaggttc      480



agaagcttcc tgctcgactt ctcgtaccca agggttccaa gcagcgtgag ggatgcgtgg      540



ccaggaatcc agcacggtgg cgacaggatg ctgggcaccg tccagtggca tgggcaccaa      600



gaacctcctc acccacaccg cagtgcagct gctggctatg gcaaccatgc tgcatacaac      660



tgccatggcg gcttggtagc aggcggggcc ccaatgctct cctctgccgc ctttgagctc      720



ccgcctggcg gatgtgtcgc gggagttgcc gccgactcct catgcgcatt aagcttatta      780



tcaactcagc catgggacac gacctcccac gaccaccggt ccccagcaat gcccgcggcc      840



ggcgccttcg acggcacccc ggtggcgccg tccgtcatgg cgagcagcta cgcggcgtcg      900



agcgcctgga cgggctcgcg ggaccccgct gccgacggcg ccaggaacgc gcagcgtctc      960



gacgatgctc tgcacctggt ccacccaggc tccgcggcgg tccacttctc cggcgagctc     1020



gagctcgccc tgcagggaag cggcgggccg ccacacctgc cgcgcgtcga ccatggcggc     1080



tccggcggcg gcaccttcaa ccattccacc accagcgcga tgaactggtc cctg           1134





<210>  680

<211>  1134

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  680

atggcgaccg gcggcggcag cagcaggagc gacgacgtgc gcgggctcaa gtttggcaag       60



aagatctact tcgagcagga cggcgggagc gggagcgggg cgggggcggt gggcggcagg      120



aaggggaagg gcgtggccac cggtggcgcg aggccggcgt ccgccgcctc cgcagcccag      180



ccgccgaggt gccaggtgga cgggtgcggc gtggatctga gcgccgtcaa gcagtactac      240



tgccggcaca aggtgtgcaa catgcactcc aaggagccgc gcgtcttcgt cgccggcatc      300



gagcagcgct tctgccaaca gtgcagcagg ttccaccagc tacatgaatt tgaccaaggg      360



aaacgtagct gccgccgccg cctcatcggt cacaacgagc gccggaggaa gccaccacct      420



ggacctctca cttcacgata tggccggctc gctgcatcac ttcaagagcc tggcaggttc      480



agaagcttcc tgctcgactt ctcgtaccca agggttccaa gcagcgtgag ggatgcgtgg      540



ccaggaatcc agcacggtgg cgacaggatg ctgggcaccg tccagtggca tgggcaccaa      600



gaacctcctc acccacaccg cagtgcagct gctggctatg gcaaccatgc tgcatacaac      660



tgccatggcg gcttggtagc aggcggggcc ccaatgctct cctctgccgc ctttgagctc      720



ccgcctggcg gatgtgtcgc gggagttgcc gccgactcct catgcgcatt aagcttatta      780



tcaactcagc catgggacac gacctcccac gaccaccggt ccccagcaat gcccgcggcc      840



ggcgccttcg acggcacccc ggtggcgccg tccgtcatgg cgagcagcta cgcggcgtcg      900



agcgcctgga cgggctcgcg ggaccccgct gccgacggcg ccaggaacgc gcagcgtctc      960



gacgatgctc tgcacctggt ccacccaggc tccgcggcgg tccacttctc cggcgagctc     1020



gagctcgccc tgcagggaag cggcgggccg ccacacctgc cgcgcgtcga ccatggcggc     1080



tccggcggcg gcaccttcaa ccattccacc accagcgcga tgaactggtc cctg           1134





<210>  681

<211>  1320

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  681

atgggttctt tcgggatgaa ctggaatcag aagaactcca tggtgtggga ttgggaacat       60



ctagtgccat ctgtctcgaa tgcagttaca aggcatggat ctgctaattc atctggtggt      120



actcttactt ctagctcaga gctagggcat ggttcatcca agagctctat ttcagcatcc      180



attgattcac catctggagt agggaacagc ttagagttca attttgccgc tgttcaaagg      240



catgttaaga acacgggcac caatggcaga gtcgatgact cagggaattc tccatcgtca      300



atgatagcct tcagccaagg agagccactg atcagcctca agcttggaaa aagggcttac      360



ttcgaaaatg tctgtggagg acaggaggcc aaggtttctg caccttcaga tgttacttct      420



gcagtcaccg tggtcaagaa gactaaggtg tctcagcaga atgcaaagaa ctggtactgt      480



caggttgaag gttgcaaagt tgacctgtct tctgctaaag attacaaccg caagcacaaa      540



gtctgtgtag ctcattctaa agctcccaag gtggttgttg ctggtctaga gcgccggttt      600



tgccaacagt gtagccggtt tcatggtttg gcggagtttg atcagaacaa acgaagctgt      660



cgtaggcgtc ttactcatca taatgcacga aggaggaagc cacaggcaga tgcaatttca      720



ttcaattcat cacggctctc gtcaatgttt tatgatacaa gccaccggac aaatcttttc      780



tttagtcaac ctctctatgg ccaagtgaga agcaatgcag tatctccgtg ggataactcg      840



ggaggcttca aatttatgga aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc      900



ctggatgagc tgcatttctc aaccccccag atatcaacta gtgttgtggc gcacactgga      960



catcatcata acttcgatag gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac     1020



caagtttcag gtgtggaagc ttcggcgacc gcttccaact ctaataacgg agccccagaa     1080



ccaggaagag cattaagctt attatcagac ggttcttggg gctcaaattc agccgtcatc     1140



cagcagcctc cttctcacgc agatgctggt gcattgccgc ccctcgccac cgttgctgtc     1200



tccaacaccg ccgccaggca tcctcttgac ccgtccctgg gaaggttctg gcaagacgat     1260



catcccccac tcgacggacc tgcacctcag attcaggaac tggcgcacct ccgaacatgg     1320





<210>  682

<211>  1320

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  682

atgggttctt tcgggatgaa ctggaatcag aagaactcca tggtgtggga ttgggaacat       60



ctagtgccat ctgtctcgaa tgcagttaca aggcatggat ctgctaattc atctggtggt      120



actcttactt ctagctcaga gctagggcat ggttcatcca agagctctat ttcagcatcc      180



attgattcac catctggagt agggaacagc ttagagttca attttgccgc tgttcaaagg      240



catgttaaga acacgggcac caatggcaga gtcgatgact cagggaattc tccatcgtca      300



atgatagcct tcagccaagg agagccactg atcagcctca agcttggaaa aagggcttac      360



ttcgaaaatg tctgtggagg acaggaggcc aaggtttctg caccttcaga tgttacttct      420



gcagtcaccg tggtcaagaa gactaaggtg tctcagcaga atgcaaagaa ctggtactgt      480



caggttgaag gttgcaaagt tgacctgtct tctgctaaag attacaaccg caagcacaaa      540



gtctgtgtag ctcattctaa agctcccaag gtggttgttg ctggtctaga gcgccggttt      600



tgccaacagt gtagccggtt tcatggtttg gcggagtttg atcagaacaa acgaagctgt      660



cgtaggcgtc ttactcatca taatgcacga aggaggaagc cacaggcaga tgcaatttca      720



ttcaattcat cacggctctc gtcaatgttt tatgatacaa gccaccggac aaatcttttc      780



tttagtcaac ctctctatgg ccaagtgaga agcaatgcag tatctccgtg ggataactcg      840



ggaggcttca aatttatgga aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc      900



ctggatgagc tgcatttctc aaccccccag atatcaacta gtgttgtggc gcacactgga      960



catcatcata acttcgatag gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac     1020



caagtttcag gtgtggaagc ttcggcgacc gcttccaact ctaataacgg agccccagaa     1080



cctggaagag cattaagctt attatcagac ggttcttggg gctcaaattc agccgtcatc     1140



cagcagcctc cttctcacgc agatgctggt gcattgccgc ccctcgccac cgttgctgtc     1200



tccaacaccg ccgccaggca tcctcttgac ccgtccctgg gaaggttctg gcaagacgat     1260



catcccccac tcgacggacc tgcacctcag attcaggaac tggcgcacct ccgaacatgg     1320





<210>  683

<211>  1320

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  683

atgggttctt tcgggatgaa ctggaatcag aagaactcca tggtgtggga ttgggaacat       60



ctagtgccat ctgtctcgaa tgcagttaca aggcatggat ctgctaattc atctggtggt      120



actcttactt ctagctcaga gctagggcat ggttcatcca agagctctat ttcagcatcc      180



attgattcac catctggagt agggaacagc ttagagttca attttgccgc tgttcaaagg      240



catgttaaga acacgggcac caatggcaga gtcgatgact cagggaattc tccatcgtca      300



atgatagcct tcagccaagg agagccactg atcagcctca agcttggaaa aagggcttac      360



ttcgaaaatg tctgtggagg acaggaggcc aaggtttctg caccttcaga tgttacttct      420



gcagtcaccg tggtcaagaa gactaaggtg tctcagcaga atgcaaagaa ctggtactgt      480



caggttgaag gttgcaaagt tgacctgtct tctgctaaag attacaaccg caagcacaaa      540



gtctgtgtag ctcattctaa agctcccaag gtggttgttg ctggtctaga gcgccggttt      600



tgccaacagt gtagccggtt tcatggtttg gcggagtttg atcagaacaa acgaagctgt      660



cgtaggcgtc ttactcatca taatgcacga aggaggaagc cacaggcaga tgcaatttca      720



ttcaattcat cacggctctc gtcaatgttt tatgatacaa gccaccggac aaatcttttc      780



tttagtcaac ctctctatgg ccaagtgaga agcaatgcag tatctccgtg ggataactcg      840



ggaggcttca aatttatgga aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc      900



ctggatgagc tgcatttctc aaccccccag atatcaacta gtgttgtggc gcacactgga      960



catcatcata acttcgatag gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac     1020



caagtttcag gtgtggaagc ttcggcgacc gcttccaact ctaataacgg agccccagaa     1080



cctggaagag cattaagctt attatcagac ggttcttggg gctcaaattc agccgtcatc     1140



cagcagcctc cttctcacgc agatgctggt gcattgccgc ccctcgccac cgttgctgtc     1200



tccaacaccg ccgccaggca tcctcttgac ccgtccctgg gaaggttctg gcaagacgat     1260



catcccccac tcgacggacc tgcacctcag attcaggaac tggcgcacct ccgaacatgg     1320





<210>  684

<211>  1320

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  684

atgggttctt tcgggatgaa ctggaatcag aagaactcca tggtgtggga ttgggaacat       60



ctagtgccat ctgtctcgaa tgcagttaca aggcatggat ctgctaattc atctggtggt      120



actcttactt ctagctcaga gctagggcat ggttcatcca agagctctat ttcagcatcc      180



attgattcac catctggagt agggaacagc ttagagttca attttgccgc tgttcaaagg      240



catgttaaga acacgggcac caatggcaga gtcgatgact cagggaattc tccatcgtca      300



atgatagcct tcagccaagg agagccactg atcagcctca agcttggaaa aagggcttac      360



ttcgaaaatg tctgtggagg acaggaggcc aaggtttctg caccttcaga tgttacttct      420



gcagtcaccg tggtcaagaa gactaaggtg tctcagcaga atgcaaagaa ctggtactgt      480



caggttgaag gttgcaaagt tgacctgtct tctgctaaag attacaaccg caagcacaaa      540



gtctgtgtag ctcattctaa agctcccaag gtggttgttg ctggtctaga gcgccggttt      600



tgccaacagt gtagccggtt tcatggtttg gcggagtttg atcagaacaa acgaagctgt      660



cgtaggcgtc ttactcatca taatgcacga aggaggaagc cacaggcaga tgcaatttca      720



ttcaattcat cacggctctc gtcaatgttt tatgatacaa gccaccggac aaatcttttc      780



tttagtcaac ctctctatgg ccaagtgaga agcaatgcag tatctccgtg ggataactcg      840



ggaggcttca aatttatgga aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc      900



ctggatgagc tgcatttctc aaccccccag atatcaacta gtgttgtggc gcacactgga      960



catcatcata acttcgatag gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac     1020



caagtttcag gtgtggaagc ttcggcgacc gcttccaact ctaataacgg agccccagaa     1080



cctggaagag cattaagctt attatcagac ggttcttggg gctcaaattc agccgtcatc     1140



cagcagcctc cttctcacgc agatgctggt gcattgccgc ccctcgccac cgttgctgtc     1200



tccaacaccg ccgccaggca tcctcttgac ccgtccctgg gaaggttctg gcaagacgat     1260



catcccccac tcgacggacc tgcacctcag attcaggaac tggcgcacct ccgaacatgg     1320





<210>  685

<211>  1320

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  685

atgggttctt tcgggatgaa ctggaatcag aagaactcca tggtgtggga ttgggaacat       60



ctagtgccat ctgtctcgaa tgcagttaca aggcatggat ctgctaattc atctggtggt      120



actcttactt ctagctcaga gctagggcat ggttcatcca agagctctat ttcagcatcc      180



attgattcac catctggagt agggaacagc ttagagttca attttgccgc tgttcaaagg      240



catgttaaga acacgggcac caatggcaga gtcgatgact cagggaattc tccatcgtca      300



atgatagcct tcagccaagg agagccactg atcagcctca agcttggaaa aagggcttac      360



ttcgaaaatg tctgtggagg acaggaggcc aaggtttctg caccttcaga tgttacttct      420



gcagtcaccg tggtcaagaa gactaaggtg tctcagcaga atgcaaagaa ctggtactgt      480



caggttgaag gttgcaaagt tgacctgtct tctgctaaag attacaaccg caagcacaaa      540



gtctgtgtag ctcattctaa agctcccaag gtggttgttg ctggtctaga gcgccggttt      600



tgccaacagt gtagccggtt tcatggtttg gcggagtttg atcagaacaa acgaagctgt      660



cgtaggcgtc ttactcatca taatgcacga aggaggaagc cacaggcaga tgcaatttca      720



ttcaattcat cacggctctc gtcaatgttt tatgatacaa gccaccggac aaatcttttc      780



tttagtcaac ctctctatgg ccaagtgaga agcaatgcag tatctccgtg ggataactcg      840



ggaggcttca aatttatgga aacaaaacat ctgtcagtgc agccaacaaa aacagtaggc      900



ctggatgagc tgcatttctc aaccccccag atatcaacta gtgttgtggc gcacactgga      960



catcatcata acttcgatag gttcatgcca ttcaagggaa ctaacacaaa ggttcttaac     1020



caagtttcag gtgtggaagc ttcggcgacc gcttccaact ctaataacgg agccccagaa     1080



ccagggagag cattaagctt attatcagac ggttcttggg gctcaaattc agccgtcatc     1140



cagcagcctc cttctcacgc agatgctggt gcattgccgc ccctcgccac cgttgctgtc     1200



tccaacaccg ccgccaggca tcctcttgac ccgtccctgg gaaggttctg gcaagacgat     1260



catcccccac tcgacggacc tgcacctcag attcaggaac tggcgcacct ccgaacatgg     1320





<210>  686

<211>  1149

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  686

atggcgaccg gcggcggcgg tgggagcgac gacttccacg ggctcacgtt cggccagaag       60



atctacttcg agcaggacgc gggcgccgcc ggggggagcg cgacgggcgg caggaagggg      120



aagggcgccg cggcgtccgc gagcgccgcc cagccgccgc ggtgccgggt ggacgggtgc      180



ggcgtggatc tgagcgccgt caagcagtac tactgccggc acaaggtgtg ctacatgcac      240



tccaaggagc cgcgcgtctt cgtcgccggc atcgagcagc gcttctgcca gcagtgcagc      300



aggttccacc agttacctga atttgaccaa gggaaacgaa gctgccgccg ccgcctcatt      360



ggtcacaacg agcgccggag gaagccacca cctggaccac tcacctcacg atacggcccg      420



cttgctgcat cactagttca agagcctggt aggttcagga gcttcctgct cgacttctcg      480



tacccgaggg ttccaagcag cgtgagagat gatgcgtggc aatggcaagg gatgcagcat      540



ggcggcgaca ggatgctgct gggtaccgcc agcgccatcc agtggcatgg gaaccaagaa      600



cctcacccac cacatcgcag cgcagctgcg ggctatggca accatgcgta caacaactgc      660



catggtggcg gcggcttggt agcagcagca gcgggggcgt caatgctctc ctctgccttc      720



gagcccccgc ctggcggtgg cggatgtgtc gcaggagcta ccgcggccga cagttcatgc      780



gcattaagct tattatcaac tcagccatgg gatacgccca cccaaagtgg cagcagccac      840



cacaaccggt ccccagcgat gtccgcggct gcaggcgcct tcgaagtggc gccgtcgtcc      900



gtcgtggcga gcagctacac ggcgtcgagc tcctggtctg gctcacggga ccctgccgac      960



ggcgccagga aaaacgcgca gcgtcacgat gatggcctgc acctggtcca tccaccaggc     1020



cccgtccacc acggccactt ctccggcgag ctcgagctcg ccctgcaggg aagcggcccg     1080



ccgcatgtcg accatggcgg cggcacctgc ttcagccatt ctgacaccaa cgcgatgaat     1140



tggtccctg                                                             1149





<210>  687

<211>  1149

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  687

atggcgaccg gcggcggcgg tgggagcgac gacttccacg ggctcacgtt cggccagaag       60



atctacttcg agcaggacgc gggcgccgcc ggggggagcg cgacgggcgg caggaagggg      120



aagggcgccg cggcgtccgc gagcgccgcc cagccgccgc ggtgccgggt ggacgggtgc      180



ggcgtggatc tgagcgccgt caagcagtac tactgccggc acaaggtgtg ctacatgcac      240



tccaaggagc cgcgcgtctt cgtcgccggc atcgagcagc gcttctgcca gcagtgcagc      300



aggttccacc agttacctga atttgaccaa gggaaacgaa gctgccgccg ccgcctcatt      360



ggtcacaacg agcgccggag gaagccacca cctggaccac tcacctcacg atacggcccg      420



cttgctgcat cactagttca agagcctggt aggttcagga gcttcctgct cgacttctcg      480



tacccgaggg ttccaagcag cgtgagagat gatgcgtggc aatggcaagg gatgcagcat      540



ggcggcgaca ggatgctgct gggtaccgcc agcgccatcc agtggcatgg gaaccaagaa      600



cctcacccac cacatcgcag cgcagctgcg ggctatggca accatgcgta caacaactgc      660



catggtggcg gcggcttggt agcagcagca gcgggggcgt caatgctctc ctctgccttc      720



gagcccccgc ctggcggtgg cggatgtgtc gcaggagcta ccgcggccga ctcctcatgc      780



gcattaagct tattatcaac tcagccatgg gatacgccca cccaaagtgg cagcagccac      840



cacaaccggt ccccagcgat gtccgcggct gcaggcgcct tcgaagtggc gccgtcgtcc      900



gtcgtggcga gcagctacac ggcgtcgagc tcctggtctg gctcacggga ccctgccgac      960



ggcgccagga aaaacgcgca gcgtcacgat gatggcctgc acctggtcca tccaccaggc     1020



cccgtccacc acggccactt ctccggcgag ctcgagctcg ccctgcaggg aagcggcccg     1080



ccgcatgtcg accatggcgg cggcacctgc ttcagccatt ctgacaccaa cgcgatgaat     1140



tggtccctg                                                             1149





<210>  688

<211>  1149

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  688

atggcgaccg gcggcggcgg tgggagcgac gacttccacg ggctcacgtt cggccagaag       60



atctacttcg agcaggacgc gggcgccgcc ggggggagcg cgacgggcgg caggaagggg      120



aagggcgccg cggcgtccgc gagcgccgcc cagccgccgc ggtgccgggt ggacgggtgc      180



ggcgtggatc tgagcgccgt caagcagtac tactgccggc acaaggtgtg ctacatgcac      240



tccaaggagc cgcgcgtctt cgtcgccggc atcgagcagc gcttctgcca gcagtgcagc      300



aggttccacc agttacctga atttgaccaa gggaaacgaa gctgccgccg ccgcctcatt      360



ggtcacaacg agcgccggag gaagccacca cctggaccac tcacctcacg atacggcccg      420



cttgctgcat cactagttca agagcctggt aggttcagga gcttcctgct cgacttctcg      480



tacccgaggg ttccaagcag cgtgagagat gatgcgtggc aatggcaagg gatgcagcat      540



ggcggcgaca ggatgctgct gggtaccgcc agcgccatcc agtggcatgg gaaccaagaa      600



cctcacccac cacatcgcag cgcagctgcg ggctatggca accatgcgta caacaactgc      660



catggtggcg gcggcttggt agcagcagca gcgggggcgt caatgctctc ctctgccttc      720



gagcccccgc ctggcggtgg cggatgtgtc gcaggagcta ccgcggccga ctcctcatgc      780



gcattaagct tattatcaac tcagccatgg gatacgccca cccaaagtgg cagcagccac      840



cacaaccggt ccccagcgat gtccgcggct gcaggcgcct tcgaagtggc gccgtcgtcc      900



gtcgtggcga gcagctacac ggcgtcgagc tcctggtctg gctcacggga ccctgccgac      960



ggcgccagga aaaacgcgca gcgtcacgat gatggcctgc acctggtcca tccaccaggc     1020



cccgtccacc acggccactt ctccggcgag ctcgagctcg ccctgcaggg aagcggcccg     1080



ccgcatgtcg accatggcgg cggcacctgc ttcagccatt ctgacaccaa cgcgatgaat     1140



tggtccctg                                                             1149





<210>  689

<211>  1149

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  689

atggcgaccg gcggcggcgg tgggagcgac gacttccacg ggctcacgtt cggccagaag       60



atctacttcg agcaggacgc gggcgccgcc ggggggagcg cgacgggcgg caggaagggg      120



aagggcgccg cggcgtccgc gagcgccgcc cagccgccgc ggtgccgggt ggacgggtgc      180



ggcgtggatc tgagcgccgt caagcagtac tactgccggc acaaggtgtg ctacatgcac      240



tccaaggagc cgcgcgtctt cgtcgccggc atcgagcagc gcttctgcca gcagtgcagc      300



aggttccacc agttacctga atttgaccaa gggaaacgaa gctgccgccg ccgcctcatt      360



ggtcacaacg agcgccggag gaagccacca cctggaccac tcacctcacg atacggcccg      420



cttgctgcat cactagttca agagcctggt aggttcagga gcttcctgct cgacttctcg      480



tacccgaggg ttccaagcag cgtgagagat gatgcgtggc aatggcaagg gatgcagcat      540



ggcggcgaca ggatgctgct gggtaccgcc agcgccatcc agtggcatgg gaaccaagaa      600



cctcacccac cacatcgcag cgcagctgcg ggctatggca accatgcgta caacaactgc      660



catggtggcg gcggcttggt agcagcagca gcgggggcgt caatgctctc ctctgccttc      720



gagcccccgc ctggcggtgg cggatgtgtc gcaggagcta ccgcggccga ctcctcatgc      780



gcattaagct tattatcaac tcagccatgg gatacgccca cccaaagtgg cagcagccac      840



cacaaccggt ccccagcgat gtccgcggct gcaggcgcct tcgaagtggc gccgtcgtcc      900



gtcgtggcga gcagctacac ggcgtcgagc tcctggtctg gctcacggga ccctgccgac      960



ggcgccagga aaaacgcgca gcgtcacgat gatggcctgc acctggtcca tccaccaggc     1020



cccgtccacc acggccactt ctccggcgag ctcgagctcg ccctgcaggg aagcggcccg     1080



ccgcatgtcg accatggcgg cggcacctgc ttcagccatt ctgacaccaa cgcgatgaat     1140



tggtccctg                                                             1149





<210>  690

<211>  1149

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  690

atggcgaccg gcggcggcgg tgggagcgac gacttccacg ggctcacgtt cggccagaag       60



atctacttcg agcaggacgc gggcgccgcc ggggggagcg cgacgggcgg caggaagggg      120



aagggcgccg cggcgtccgc gagcgccgcc cagccgccgc ggtgccgggt ggacgggtgc      180



ggcgtggatc tgagcgccgt caagcagtac tactgccggc acaaggtgtg ctacatgcac      240



tccaaggagc cgcgcgtctt cgtcgccggc atcgagcagc gcttctgcca gcagtgcagc      300



aggttccacc agttacctga atttgaccaa gggaaacgaa gctgccgccg ccgcctcatt      360



ggtcacaacg agcgccggag gaagccacca cctggaccac tcacctcacg atacggcccg      420



cttgctgcat cactagttca agagcctggt aggttcagga gcttcctgct cgacttctcg      480



tacccgaggg ttccaagcag cgtgagagat gatgcgtggc aatggcaagg gatgcagcat      540



ggcggcgaca ggatgctgct gggtaccgcc agcgccatcc agtggcatgg gaaccaagaa      600



cctcacccac cacatcgcag cgcagctgcg ggctatggca accatgcgta caacaactgc      660



catggtggcg gcggcttggt agcagcagca gcgggggcgt caatgctctc ctctgccttc      720



gagcccccgc ctggcggtgg cggatgtgtc gcaggagcta ccgcggccga ctcctcatgc      780



gcattaagct tattatcaac tcagccatgg gatacgccca cccaaagtgg cagcagccac      840



cacaaccggt ccccagcgat gtccgcggct gcaggcgcct tcgaagtggc gccgtcgtcc      900



gtcgtggcga gcagctacac ggcgtcgagc tcctggtctg gctcacggga ccctgccgac      960



ggcgccagga aaaacgcgca gcgtcacgat gatggcctgc acctggtcca tccaccaggc     1020



cccgtccacc acggccactt ctccggcgag ctcgagctcg ccctgcaggg aagcggcccg     1080



ccgcatgtcg accatggcgg cggcacctgc ttcagccatt ctgacaccaa cgcgatgaat     1140



tggtccctg                                                             1149





<210>  691

<211>  987

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  691

ccctcgacgg cgcccgcgcc cgcccgctgc caggtcgacg gctgcaacgt tgacctcacc       60



gacgtcaagc ccgcctacta ctgccgccac aaggtgtgca aaatgcactc caaggagccc      120



cgcgtcctcg tcaacggcct cgagcagcgc ttctgccagc agtgcagcag gttccaccag      180



ctgcctgaat tcgaccagct aaagaagagc tgccgcaaac gcctcgcagg ccacaacgag      240



cgccggagga ggccgccgcc tggacccctt gcgtcacgat acggccgtca cgctgcgtcg      300



ctcggcgagc ccggcaggct cagaagcttc atgctggatt tctcgtaccc gagggtctca      360



agcgccatga ggggtgggtt tccggcggtg aggcccggtg gtgaaagggt gcctggcggt      420



atccagtggc aagcgggctt ggatcctcgt caccaccaag gcgcggtcgc gggatacggc      480



gcccactatg ggagcgaggg tggtagctcg tcgtcggcga ggccgccggt gttccctggc      540



ccggagctgc ccccaggtgg atgccttgca ggagtccccg cggacagttc atgcgcatta      600



agcttattat caactcagcc atgggatgct gcccacagcc acagccacag ccacgctgcg      660



ccaacagcgg gtttcgacgg cggcagccct gtggcgccct ccctcatggc ggcgagtagc      720



tacatcgcgc cgagcccctg gaccgagacc gactcctggg gccacgaagg cgggcggagc      780



gtgcctcagc tgccacctga cgacgtcccc ctcggcgagg tgcactccgg ctcgagcagc      840



caccacggcc agttctcagg tgagctcgag ctcgccctgc agggaaacag gccagcgcca      900



gggtcggcgg caccgccagc gccgcgcaat aatcagggct ccgcgggcac gttcgaccag      960



gctggcaaca cgatggactg gtcgctc                                          987





<210>  692

<211>  987

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  692

ccctcgacgg cgcccgcgcc cgcccgctgc caggtcgacg gctgcaacgt tgacctcacc       60



gacgtcaagc ccgcctacta ctgccgccac aaggtgtgca aaatgcactc caaggagccc      120



cgcgtcctcg tcaacggcct cgagcagcgc ttctgccagc agtgcagcag gttccaccag      180



ctgcctgaat tcgaccagct aaagaagagc tgccgcaaac gcctcgcagg ccacaacgag      240



cgccggagga ggccgccgcc tggacccctt gcgtcacgat acggccgtca cgctgcgtcg      300



ctcggcgagc ccggcaggct cagaagcttc atgctggatt tctcgtaccc gagggtctca      360



agcgccatga ggggtgggtt tccggcggtg aggcccggtg gtgaaagggt gcctggcggt      420



atccagtggc aagcgggctt ggatcctcgt caccaccaag gcgcggtcgc gggatacggc      480



gcccactatg ggagcgaggg tggtagctcg tcgtcggcga ggccgccggt gttccctggc      540



ccggagctgc ccccaggtgg atgccttgca ggagtccccg cggactcctc atgcgcatta      600



agcttattat caactcagcc atgggatgct gcccacagcc acagccacag ccacgctgcg      660



ccaacagcgg gtttcgacgg cggcagccct gtggcgccct ccctcatggc ggcgagtagc      720



tacatcgcgc cgagcccctg gaccgagacc gactcctggg gccacgaagg cgggcggagc      780



gtgcctcagc tgccacctga cgacgtcccc ctcggcgagg tgcactccgg ctcgagcagc      840



caccacggcc agttctcagg tgagctcgag ctcgccctgc agggaaacag gccagcgcca      900



gggtcggcgg caccgccagc gccgcgcaat aatcagggct ccgcgggcac gttcgaccag      960



gctggcaaca cgatggactg gtcgctc                                          987





<210>  693

<211>  987

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  693

ccctcgacgg cgcccgcgcc cgcccgctgc caggtcgacg gctgcaacgt tgacctcacc       60



gacgtcaagc ccgcctacta ctgccgccac aaggtgtgca aaatgcactc caaggagccc      120



cgcgtcctcg tcaacggcct cgagcagcgc ttctgccagc agtgcagcag gttccaccag      180



ctgcctgaat tcgaccagct aaagaagagc tgccgcaaac gcctcgcagg ccacaacgag      240



cgccggagga ggccgccgcc tggacccctt gcgtcacgat acggccgtca cgctgcgtcg      300



ctcggcgagc ccggcaggct cagaagcttc atgctggatt tctcgtaccc gagggtctca      360



agcgccatga ggggtgggtt tccggcggtg aggcccggtg gtgaaagggt gcctggcggt      420



atccagtggc aagcgggctt ggatcctcgt caccaccaag gcgcggtcgc gggatacggc      480



gcccactatg ggagcgaggg tggtagctcg tcgtcggcga ggccgccggt gttccctggc      540



ccggagctgc ccccaggtgg atgccttgca ggagtccccg cggactcctc atgcgcatta      600



agcttattat caactcagcc atgggatgct gcccacagcc acagccacag ccacgctgcg      660



ccaacagcgg gtttcgacgg cggcagccct gtggcgccct ccctcatggc ggcgagtagc      720



tacatcgcgc cgagcccctg gaccgagacc gactcctggg gccacgaagg cgggcggagc      780



gtgcctcagc tgccacctga cgacgtcccc ctcggcgagg tgcactccgg ctcgagcagc      840



caccacggcc agttctcagg tgagctcgag ctcgccctgc agggaaacag gccagcgcca      900



gggtcggcgg caccgccagc gccgcgcaat aatcagggct ccgcgggcac gttcgaccag      960



gctggcaaca cgatggactg gtcgctc                                          987





<210>  694

<211>  987

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  694

ccctcgacgg cgcccgcgcc cgcccgctgc caggtcgacg gctgcaacgt tgacctcacc       60



gacgtcaagc ccgcctacta ctgccgccac aaggtgtgca aaatgcactc caaggagccc      120



cgcgtcctcg tcaacggcct cgagcagcgc ttctgccagc agtgcagcag gttccaccag      180



ctgcctgaat tcgaccagct aaagaagagc tgccgcaaac gcctcgcagg ccacaacgag      240



cgccggagga ggccgccgcc tggacccctt gcgtcacgat acggccgtca cgctgcgtcg      300



ctcggcgagc ccggcaggct cagaagcttc atgctggatt tctcgtaccc gagggtctca      360



agcgccatga ggggtgggtt tccggcggtg aggcccggtg gtgaaagggt gcctggcggt      420



atccagtggc aagcgggctt ggatcctcgt caccaccaag gcgcggtcgc gggatacggc      480



gcccactatg ggagcgaggg tggtagctcg tcgtcggcga ggccgccggt gttccctggc      540



ccggagctgc ccccaggtgg atgccttgca ggagtccccg cggactcctc atgcgcatta      600



agcttattat caactcagcc atgggatgct gcccacagcc acagccacag ccacgctgcg      660



ccaacagcgg gtttcgacgg cggcagccct gtggcgccct ccctcatggc ggcgagtagc      720



tacatcgcgc cgagcccctg gaccgagacc gactcctggg gccacgaagg cgggcggagc      780



gtgcctcagc tgccacctga cgacgtcccc ctcggcgagg tgcactccgg ctcgagcagc      840



caccacggcc agttctcagg tgagctcgag ctcgccctgc agggaaacag gccagcgcca      900



gggtcggcgg caccgccagc gccgcgcaat aatcagggct ccgcgggcac gttcgaccag      960



gctggcaaca cgatggactg gtcgctc                                          987





<210>  695

<211>  987

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  695

ccctcgacgg cgcccgcgcc cgcccgctgc caggtcgacg gctgcaacgt tgacctcacc       60



gacgtcaagc ccgcctacta ctgccgccac aaggtgtgca aaatgcactc caaggagccc      120



cgcgtcctcg tcaacggcct cgagcagcgc ttctgccagc agtgcagcag gttccaccag      180



ctgcctgaat tcgaccagct aaagaagagc tgccgcaaac gcctcgcagg ccacaacgag      240



cgccggagga ggccgccgcc tggacccctt gcgtcacgat acggccgtca cgctgcgtcg      300



ctcggcgagc ccggcaggct cagaagcttc atgctggatt tctcgtaccc gagggtctca      360



agcgccatga ggggtgggtt tccggcggtg aggcccggtg gtgaaagggt gcctggcggt      420



atccagtggc aagcgggctt ggatcctcgt caccaccaag gcgcggtcgc gggatacggc      480



gcccactatg ggagcgaggg tggtagctcg tcgtcggcga ggccgccggt gttccctggc      540



ccggagctgc ccccaggtgg atgccttgca ggagtccccg cggactcctc atgcgcatta      600



agcttattat caactcagcc atgggatgct gcccacagcc acagccacag ccacgctgcg      660



ccaacagcgg gtttcgacgg cggcagccct gtggcgccct ccctcatggc ggcgagtagc      720



tacatcgcgc cgagcccctg gaccgagacc gactcctggg gccacgaagg cgggcggagc      780



gtgcctcagc tgccacctga cgacgtcccc ctcggcgagg tgcactccgg ctcgagcagc      840



caccacggcc agttctcagg tgagctcgag ctcgccctgc agggaaacag gccagcgcca      900



gggtcggcgg caccgccagc gccgcgcaat aatcagggct ccgcgggcac gttcgaccag      960



gctggcaaca cgatggactg gtcgctc                                          987





<210>  696

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  696

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  697

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  697

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgagt ttttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  698

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  698

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat tcttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  699

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  699

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttctccaggc cctccacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  700

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  700

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttttacaagc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  701

<211>  1485

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  701

atgggtacgg cggctgtcgt ggaggacacg atacgcgtcg tcctcacctg cctccctgat       60



ccgcccttcc gcaccaccgg ttcctcccgt ccctaccaga gtcccagcgg cggcggcggc      120



ggcggggacc gcatcagccg cctctcagac gcggtgctct ctaacatcgt ggcgcgtctc      180



cccgccaagg acgcagcgcg cactaccgcg ctctccaggc gctggcgccg cgtctgggcc      240



tccactccac tcgtcctcga cgactccgac ctcctcgtct tccacgacga cggcggctgc      300



tctacgccca actggttagc cgtcacagac accgtgtccc acgtcctctc ctcccacagg      360



gggcccatcc gctttgtgcg cctcacctgc tgctacatgg cgctggcctc gcacaacggc      420



gcgctccagt actggctccg ggtcctcgct gcggggggag tcgaggatct cgtcctcgtc      480



aaccgcccat tacccacctc cgtgggcctc ccaatagatg tattacattt agcaagtctc      540



cgcaccctct acctcggttt ctggtgcttc ccggacaccg ccaccctccc gcgaggccgc      600



gccaccgtgt tcccctgcct ccaggagatt ggactctgcg ctaccgtcat ccacgccagg      660



gacatcgacc acctgctcgc ctgcagcccc gtgctcgaga agttcgccag catcaccagc      720



atctacttca cagaccctgt ccggatccgc agctgcagcc tccggtgcct tgtcttctgg      780



gagtccctgg ccaatgagct cgacttggtc gtcgccccgc gcctccagcg cctaatcctg      840



tggcagtcgc gccaatggat gatcggctcc gtccatttcc gcagcaggat caggattggc      900



tccgccaccg aactcaaggt gctcggctac ctggagccaa gcatccacca gctcgagatt      960



ggcggcacca taattgatag tggaacaaag atgaccccat ctaacatggt tccaagtgtc     1020



aagatcttgg ccttgaagat gcagttcaga atccgcaagg aagtcaagat gctgcccacc     1080



ttcctgagat gctttcccaa tgtggagaca ttgcatgttc tgtcacatga aactgatgag     1140



caaaatggca agttcaattt gaagttctgg gaggaggttg gctccatcag ctgcctagag     1200



acacgcatca ccaaggtggt gtttgacaga ttcagaggag agcgttgtga gctcgcgttc     1260



ctcaagttcg tcctagagag ggcagaatcg ctgctgaagc ttgtggttgt attggccaat     1320



ggagatcaag cctcagtgga tgagatgctt gctaagttga agtctctgac cacggtgaaa     1380



cgagccagcg atttccctac tctgttggca gttgcccgtg agggtgacag cgcctggtac     1440



tttgagagag catccgatct ttctgttact gaccccttcg atttg                     1485





<210>  702

<211>  1485

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  702

atgggtacgg cggctgtcgt ggaggacacg atacgcgtcg tcctcacctg cctccctgat       60



ccgcccttcc gcaccaccgg ttcctcccgt ccctaccaga gtcccagcgg cggcggcggc      120



ggcggggacc gcatcagccg cctctcagac gcggtgctct ctaacatcgt ggcgcgtctc      180



cccgccaagg acgcagcgcg cactaccgcg ctctccaggc gctggcgccg cgtctgggcc      240



tccactccac tcgtcctcga cgactccgac ctcctcgtct tccacgacga cggcggctgc      300



tctacgccca actggttagc cgtcacagac accgtgtccc acgtcctctc ctcccacagg      360



gggcccatcc gctttgtgcg cctcacctgc tgctacatgg cgctggcctc gcacaacggc      420



gcgctccagt actggctccg ggtcctcgct gcggggggag tcgaggatct cgtcctcgtc      480



aaccgcccat tacccacctc cgtgggcctc cccatagatg tattacattt agcaagtctc      540



cgcaccctct acctcggttt ctggtgcttc ccggacaccg ccaccctccc gcgaggccgc      600



gccaccgtgt tcccctgcct ccaggagatt ggactctgcg ctaccgtcat ccacgccagg      660



gacatcgacc acctgctcgc ctgcagcccc gtgctcgaga agttcgccag catcaccagc      720



atctacttca cagaccctgt ccggatccgc agctgcagcc tccggtgcct tgtcttctgg      780



gagtccctgg ccaatgagct cgacttggtc gtcgccccgc gcctccagcg cctaatcctg      840



tggcagtcgc gccaatggat gatcggctcc gtccatttcc gcagcaggat caggattggc      900



tccgccaccg aactcaaggt gctcggctac ctggagccaa gcatccacca gctcgagatt      960



ggcggcacca taattgatag tggaacaaag atgaccccat ctaacatggt tccaagtgtc     1020



aagatcttgg ccttgaagat gcagttcaga atccgcaagg aagtcaagat gctgcccacc     1080



ttcctgagat gctttcccaa tgtggagaca ttgcatgttc tgtcacatga aactgatgag     1140



caaaatggca agttcaattt gaagttctgg gaggaggttg gctccatcag ctgcctagag     1200



acacgcatca ccaaggtggt gtttgacaga ttcagaggag agcgttgtga gctcgcgttc     1260



ctcaagttcg tcctagagag ggcagaatcg ctgctgaagc ttgtggttgt attggccaat     1320



ggagatcaag cctcagtgga tgagatgctt gctaagttga agtctctgac cacggtgaaa     1380



cgagccagcg atttccctac tctgttggca gttgcccgtg agggtgacag cgcctggtac     1440



tttgagagag catccgatct ttctgttact gaccccttcg atttg                     1485





<210>  703

<211>  1485

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  703

atgggtacgg cggctgtcgt ggaggacacg atacgcgtcg tcctcacctg cctccctgat       60



ccgcccttcc gcaccaccgg ttcctcccgt ccctaccaga gtcccagcgg cggcggcggc      120



ggcggggacc gcatcagccg cctctcagac gcggtgctct ctaacatcgt ggcgcgtctc      180



cccgccaagg acgcagcgcg cactaccgcg ctctccaggc gctggcgccg cgtctgggcc      240



tccactccac tcgtcctcga cgactccgac ctcctcgtct tccacgacga cggcggctgc      300



tctacgccca actggttagc cgtcacagac accgtgtccc acgtcctctc ctcccacagg      360



gggcccatcc gctttgtgcg cctcacctgc tgctacatgg cgctggcctc gcacaacggc      420



gcgctccagt actggctccg ggtcctcgct gcggggggag tcgaggatct cgtcctcgtc      480



aaccgcccat tacccacctc cgtgggcctc cccatagatg tattacattt agcaagtctc      540



cgcaccctct acctcggttt ctggtgcttc ccggacaccg ccaccctccc gcgaggccgc      600



gccaccgtgt tcccctgcct ccaggagatt ggactctgcg ctaccgtcat ccacgccagg      660



gacatcgacc acctgctcgc ctgcagcccc gtgctcgaga agttcgccag catcaccagc      720



atctacttca cagaccctgt ccggatccgc agctgcagcc tccggtgcct tgtcttctgg      780



gagtccctgg ccaatgagct cgacttggtc gtcgccccgc gcctccagcg cctaatcctg      840



tggcagtcgc gccaatggat gatcggctcc gtccatttcc gcagcaggat caggattggc      900



tccgccaccg aactcaaggt gctcggctac ctggagccaa gcatccacca gctcgagatt      960



ggcggcacca taattgatag tggaacaaag atgaccccat ctaacatggt tccaagtgtc     1020



aagatcttgg ccttgaagat gcagttcaga atccgcaagg aagtcaagat gctgcccacc     1080



ttcctgagat gctttcccaa tgtggagaca ttgcatgttc tgtcacatga aactgatgag     1140



caaaatggca agttcaattt gaagttctgg gaggaggttg gctccatcag ctgcctagag     1200



acacgcatca ccaaggtggt gtttgacaga ttcagaggag agcgttgtga gctcgcgttc     1260



ctcaagttcg tcctagagag ggcagaatcg ctgctgaagc ttgtggttgt attggccaat     1320



ggagatcaag cctcagtgga tgagatgctt gctaagttga agtctctgac cacggtgaaa     1380



cgagccagcg atttccctac tctgttggca gttgcccgtg agggtgacag cgcctggtac     1440



tttgagagag catccgatct ttctgttact gaccccttcg atttg                     1485





<210>  704

<211>  1485

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  704

atgggtacgg cggctgtcgt ggaggacacg atacgcgtcg tcctcacctg cctccctgat       60



ccgcccttcc gcaccaccgg ttcctcccgt ccctaccaga gtcccagcgg cggcggcggc      120



ggcggggacc gcatcagccg cctctcagac gcggtgctct ctaacatcgt ggcgcgtctc      180



cccgccaagg acgcagcgcg cactaccgcg ctctccaggc gctggcgccg cgtctgggcc      240



tccactccac tcgtcctcga cgactccgac ctcctcgtct tccacgacga cggcggctgc      300



tctacgccca actggttagc cgtcacagac accgtgtccc acgtcctctc ctcccacagg      360



gggcccatcc gctttgtgcg cctcacctgc tgctacatgg cgctggcctc gcacaacggc      420



gcgctccagt actggctccg ggtcctcgct gcggggggag tcgaggatct cgtcctcgtc      480



aaccgcccat tacccacctc cgtgggcctc cccatagatg tattacattt agcaagtctc      540



cgcaccctct acctcggttt ctggtgcttc ccggacaccg ccaccctccc gcgaggccgc      600



gccaccgtgt tcccctgcct ccaggagatt ggactctgcg ctaccgtcat ccacgccagg      660



gacatcgacc acctgctcgc ctgcagcccc gtgctcgaga agttcgccag catcaccagc      720



atctacttca cagaccctgt ccggatccgc agctgcagcc tccggtgcct tgtcttctgg      780



gagtccctgg ccaatgagct cgacttggtc gtcgccccgc gcctccagcg cctaatcctg      840



tggcagtcgc gccaatggat gatcggctcc gtccatttcc gcagcaggat caggattggc      900



tccgccaccg aactcaaggt gctcggctac ctggagccaa gcatccacca gctcgagatt      960



ggcggcacca taattgatag tggaacaaag atgaccccat ctaacatggt tccaagtgtc     1020



aagatcttgg ccttgaagat gcagttcaga atccgcaagg aagtcaagat gctgcccacc     1080



ttcctgagat gctttcccaa tgtggagaca ttgcatgttc tgtcacatga aactgatgag     1140



caaaatggca agttcaattt gaagttctgg gaggaggttg gctccatcag ctgcctagag     1200



acacgcatca ccaaggtggt gtttgacaga ttcagaggag agcgttgtga gctcgcgttc     1260



ctcaagttcg tcctagagag ggcagaatcg ctgctgaagc ttgtggttgt attggccaat     1320



ggagatcaag cctcagtgga tgagatgctt gctaagttga agtctctgac cacggtgaaa     1380



cgagccagcg atttccctac tctgttggca gttgcccgtg agggtgacag cgcctggtac     1440



tttgagagag catccgatct ttctgttact gaccccttcg atttg                     1485





<210>  705

<211>  1485

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  705

atgggtacgg cggctgtcgt ggaggacacg atacgcgtcg tcctcacctg cctccctgat       60



ccgcccttcc gcaccaccgg ttcctcccgt ccctaccaga gtcccagcgg cggcggcggc      120



ggcggggacc gcatcagccg cctctcagac gcggtgctct ctaacatcgt ggcgcgtctc      180



cccgccaagg acgcagcgcg cactaccgcg ctctccaggc gctggcgccg cgtctgggcc      240



tccactccac tcgtcctcga cgactccgac ctcctcgtct tccacgacga cggcggctgc      300



tctacgccca actggttagc cgtcacagac accgtgtccc acgtcctctc ctcccacagg      360



gggcccatcc gctttgtgcg cctcacctgc tgctacatgg cgctggcctc gcacaacggc      420



gcgctccagt actggctccg ggtcctcgct gcggggggag tcgaggatct cgtcctcgtc      480



aaccgcccat tacccacctc cgtgggcctc ccaatcgatg tattacattt agcaagtctc      540



cgcaccctct acctcggttt ctggtgcttc ccggacaccg ccaccctccc gcgaggccgc      600



gccaccgtgt tcccctgcct ccaggagatt ggactctgcg ctaccgtcat ccacgccagg      660



gacatcgacc acctgctcgc ctgcagcccc gtgctcgaga agttcgccag catcaccagc      720



atctacttca cagaccctgt ccggatccgc agctgcagcc tccggtgcct tgtcttctgg      780



gagtccctgg ccaatgagct cgacttggtc gtcgccccgc gcctccagcg cctaatcctg      840



tggcagtcgc gccaatggat gatcggctcc gtccatttcc gcagcaggat caggattggc      900



tccgccaccg aactcaaggt gctcggctac ctggagccaa gcatccacca gctcgagatt      960



ggcggcacca taattgatag tggaacaaag atgaccccat ctaacatggt tccaagtgtc     1020



aagatcttgg ccttgaagat gcagttcaga atccgcaagg aagtcaagat gctgcccacc     1080



ttcctgagat gctttcccaa tgtggagaca ttgcatgttc tgtcacatga aactgatgag     1140



caaaatggca agttcaattt gaagttctgg gaggaggttg gctccatcag ctgcctagag     1200



acacgcatca ccaaggtggt gtttgacaga ttcagaggag agcgttgtga gctcgcgttc     1260



ctcaagttcg tcctagagag ggcagaatcg ctgctgaagc ttgtggttgt attggccaat     1320



ggagatcaag cctcagtgga tgagatgctt gctaagttga agtctctgac cacggtgaaa     1380



cgagccagcg atttccctac tctgttggca gttgcccgtg agggtgacag cgcctggtac     1440



tttgagagag catccgatct ttctgttact gaccccttcg atttg                     1485





<210>  706

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  706

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  707

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  707

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgagt ttttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  708

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  708

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat tcttacaggc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  709

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  709

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttctccaggc cctccacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  710

<211>  1467

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  710

atggcgacac aggccgcttt cctcgcaggg ttctcgcagc tcgccgcgca gccgggccgc       60



gaccgcgccg tggcggtggc ggtggcgccg gcgccgggcc cggcccgggt ggccgttgcg      120



gcggtgggta gcgccaagtt gggcgtgaag gcggggacgt ccaggaccgc ggcggtggcg      180



cgcctcgggg tgcggtgccg ggccagcctg atcgagcccg acggcgggcg gctggtggac      240



ctggtggcgc ccgaggaggg cgggcggcgc gcggcgctgc ggcgggaggc ggcggagctg      300



ccgcaccggc tgcgcttggg ccgcgtcgac aaggaatggg tccacgtcct cagcgaaggg      360



tgggcgagcc cgctgcaagg gttcatgcgc gagcatgaat ttttacaagc cttacacttc      420



aatgccatcc gcggccagga tggcaggatg gtcaacatgt ccgtccccat cgtgctctct      480



gtcggggacg cacagcgaag ggccatccag gccgacggcg ccacgcgcgt cgcgctcgtt      540



gacgagcgcg accgccccat cgccgtcctc agcgacattg agatctataa gcataataag      600



gaagaaaggg tagcacggac atgggggaca actgcacctg gattacctta tgtcgaggag      660



gcaattacca atgctggtga ctggttggtt ggtggggact tggaggttat agaaccaatc      720



aagtacaacg atggtctaga tcagtatcgc ctgtctccag cacagctgcg tgaagagttt      780



gccaggcgca atgctgatgc agtatttgcc tttcagcttc gcaatcctgt acacaatggg      840



catgctcttc ttatgaccga cacacgcaaa cgtctccttg agatgggtta taaaaaccct      900



gttcttctgc tccatccact gggaggattc acaaaagcag atgatgtgcc tcttagttgg      960



agaatgaagc aacatgagaa ggttcttgag gaaggtgtcc tcaacccaga atcaactgtt     1020



gttgcgatct ttccctctcc aatgcattat gctgggccaa ctgaggtgca gtggcatgct     1080



aaggctcgta ttaatgctgg tgcaaatttc tatattgttg gaagggatcc tgctggtatg     1140



agccatccca cggagaaaag ggacctctat gatgctgacc acgggaagaa ggttttgagc     1200



atggctcctg gcctcgagag gctcaacatc cttcctttca aggtggctgc atatgacaca     1260



aagcaaaaga aaatggattt cttcgatcca tcaaggaaag atgatttcct cttcatctct     1320



ggcacaaaga tgcgcactct tgccaagaac cgcgagagtc ccccggatgg ttttatgtgc     1380



ccgggtggct ggaaagtgct cgttgaatac tatgacagct tggtgccatc cgagggcagc     1440



agcaagctgc gcgagccagt tgcagcc                                         1467





<210>  711

<211>  261

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  711

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagagagta aaagaaagcg cagcactcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat t                                                261





<210>  712

<211>  261

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  712

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagcgcgta aacgcaagcg cagcactcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat t                                                261





<210>  713

<211>  261

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  713

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagcgcgta aacgcaagcg cagcactcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat t                                                261





<210>  714

<211>  261

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  714

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagcgcgta aacgcaagcg cagcactcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat t                                                261





<210>  715

<211>  261

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  715

atggcaacgg cgtttgtccc gtccgtctct gcgatggcca ccgccgctgc cgctccaacg       60



tctgtggcgc cgtcccctgc gccaaaggcc aacaacagca ggaaggcggc ggtgcctggg      120



atgactgggt acgagctgct caagcgcgta aacgcaagcg cagcactcag tgacatcctc      180



gtcgtcatca tgtcgtcgga gaacgtgccc aaccgcatca cccgctgctt ggaggagctc      240



gacccgcgcc tcgctgtaat t                                                261





<210>  716

<211>  741

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  716

atggatgttt tcaccaagca actcctcccc atgcctcacc agcgggaccc caactaccct       60



tcctctagta caagcagtag tagcagcagc tcctcctcca cgcccccatc tcgccctcac      120



caccgtgcgc aaccccagcc ccacaacctc ccccagtccc ccagacccgt cccgcgcacc      180



atcgacacca ccccgttccc caccaccttc gtccaggccg acaccacctc gttcaagcag      240



gtcgtccaga tgctcaccgg cgccgagcag ccggccaaca acgacgcgac gacggcgggc      300



gcagccgctg ccgctgccgc caacggcggt ggcgccggcg cccaggcggc cagcggtgga      360



ccgtgctgcc ggcccaagaa gccgtcgttc aagctgtacg agcggcggag cagcctgaag      420



aacctgaaga tgatcgcgcc gctggcgatg ggctcgccgc cgtcgccgtc gccgcggagg      480



gcggcgccgg agatcctgtc gccgagcgtg ctggacttcc cgtccctcac gctcagcccg      540



gtgacgccgc tcgccggcga cccctttaac cgctcgccgg cgtcggcgtc gtcctccgag      600



gaggccgagc gcgcggccat cgccgagagg ggcttcttcc tccacccgtc cccgaggggc      660



gccgagcccc cgcgcctgct cccgctcttc cccgtcgtct cgccccggat ggccggcgcc      720



gcggcggcgc cgtcgtccga g                                                741





<210>  717

<211>  741

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  717

atggatgttt tcaccaagca actcctcccc atgcctcacc agcgggaccc caactaccct       60



tcctcttcca caagctcctc cagcagcagc tcctcctcca cgcccccatc tcgccctcac      120



caccgtgcgc aaccccagcc ccacaacctc ccccagtccc ccagacccgt cccgcgcacc      180



atcgacacca ccccgttccc caccaccttc gtccaggccg acaccacctc gttcaagcag      240



gtcgtccaga tgctcaccgg cgccgagcag ccggccaaca acgacgcgac gacggcgggc      300



gcagccgctg ccgctgccgc caacggcggt ggcgccggcg cccaggcggc cagcggtgga      360



ccgtgctgcc ggcccaagaa gccgtcgttc aagctgtacg agcggcggag cagcctgaag      420



aacctgaaga tgatcgcgcc gctggcgatg ggctcgccgc cgtcgccgtc gccgcggagg      480



gcggcgccgg agatcctgtc gccgagcgtg ctggacttcc cgtccctcac gctcagcccg      540



gtgacgccgc tcgccggcga cccctttaac cgctcgccgg cgtcggcgtc gtcctccgag      600



gaggccgagc gcgcggccat cgccgagagg ggcttcttcc tccacccgtc cccgaggggc      660



gccgagcccc cgcgcctgct cccgctcttc cccgtcgtct cgccccggat ggccggcgcc      720



gcggcggcgc cgtcgtccga g                                                741





<210>  718

<211>  741

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  718

atggatgttt tcaccaagca actcctcccc atgcctcacc agcgggaccc caactaccct       60



tcctcttcca caagctcctc cagcagcagc tcctcctcca cgcccccatc tcgccctcac      120



caccgtgcgc aaccccagcc ccacaacctc ccccagtccc ccagacccgt cccgcgcacc      180



atcgacacca ccccgttccc caccaccttc gtccaggccg acaccacctc gttcaagcag      240



gtcgtccaga tgctcaccgg cgccgagcag ccggccaaca acgacgcgac gacggcgggc      300



gcagccgctg ccgctgccgc caacggcggt ggcgccggcg cccaggcggc cagcggtgga      360



ccgtgctgcc ggcccaagaa gccgtcgttc aagctgtacg agcggcggag cagcctgaag      420



aacctgaaga tgatcgcgcc gctggcgatg ggctcgccgc cgtcgccgtc gccgcggagg      480



gcggcgccgg agatcctgtc gccgagcgtg ctggacttcc cgtccctcac gctcagcccg      540



gtgacgccgc tcgccggcga cccctttaac cgctcgccgg cgtcggcgtc gtcctccgag      600



gaggccgagc gcgcggccat cgccgagagg ggcttcttcc tccacccgtc cccgaggggc      660



gccgagcccc cgcgcctgct cccgctcttc cccgtcgtct cgccccggat ggccggcgcc      720



gcggcggcgc cgtcgtccga g                                                741





<210>  719

<211>  741

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  719

atggatgttt tcaccaagca actcctcccc atgcctcacc agcgggaccc caactaccct       60



tcctcttcca caagctcctc cagcagcagc tcctcctcca cgcccccatc tcgccctcac      120



caccgtgcgc aaccccagcc ccacaacctc ccccagtccc ccagacccgt cccgcgcacc      180



atcgacacca ccccgttccc caccaccttc gtccaggccg acaccacctc gttcaagcag      240



gtcgtccaga tgctcaccgg cgccgagcag ccggccaaca acgacgcgac gacggcgggc      300



gcagccgctg ccgctgccgc caacggcggt ggcgccggcg cccaggcggc cagcggtgga      360



ccgtgctgcc ggcccaagaa gccgtcgttc aagctgtacg agcggcggag cagcctgaag      420



aacctgaaga tgatcgcgcc gctggcgatg ggctcgccgc cgtcgccgtc gccgcggagg      480



gcggcgccgg agatcctgtc gccgagcgtg ctggacttcc cgtccctcac gctcagcccg      540



gtgacgccgc tcgccggcga cccctttaac cgctcgccgg cgtcggcgtc gtcctccgag      600



gaggccgagc gcgcggccat cgccgagagg ggcttcttcc tccacccgtc cccgaggggc      660



gccgagcccc cgcgcctgct cccgctcttc cccgtcgtct cgccccggat ggccggcgcc      720



gcggcggcgc cgtcgtccga g                                                741





<210>  720

<211>  741

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  720

atggatgttt tcaccaagca actcctcccc atgcctcacc agcgggaccc caactaccct       60



tcctcttcca caagctcctc cagcagcagc tcctcctcca cgcccccatc tcgccctcac      120



caccgtgcgc aaccccagcc ccacaacctc ccccagtccc ccagacccgt cccgcgcacc      180



atcgacacca ccccgttccc caccaccttc gtccaggccg acaccacctc gttcaagcag      240



gtcgtccaga tgctcaccgg cgccgagcag ccggccaaca acgacgcgac gacggcgggc      300



gcagccgctg ccgctgccgc caacggcggt ggcgccggcg cccaggcggc cagcggtgga      360



ccgtgctgcc ggcccaagaa gccgtcgttc aagctgtacg agcggcggag cagcctgaag      420



aacctgaaga tgatcgcgcc gctggcgatg ggctcgccgc cgtcgccgtc gccgcggagg      480



gcggcgccgg agatcctgtc gccgagcgtg ctggacttcc cgtccctcac gctcagcccg      540



gtgacgccgc tcgccggcga cccctttaac cgctcgccgg cgtcggcgtc gtcctccgag      600



gaggccgagc gcgcggccat cgccgagagg ggcttcttcc tccacccgtc cccgaggggc      660



gccgagcccc cgcgcctgct cccgctcttc cccgtcgtct cgccccggat ggccggcgcc      720



gcggcggcgc cgtcgtccga g                                                741





<210>  721

<211>  507

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  721

cgccgattcc gcgtgcgcca actgttccga gagcgatggc acgaggaccg ccattgccat       60



ggccggtggc cccgtcctct ctcggagtct tgtgtccttt acctccgcag gaatctctgt      120



cctttcgcga tgtaaaaaat taccgtcgct gttaatttgt ttactgactc cctgtactgg      180



gtttcctggg ctgcagctgg gtgggaggag caacgccacg tcgtcggcga aggcgaagca      240



ggagcaccgc gaggactgcc acctcatggg cctgacatgg ctgctgaacc ggaaccccac      300



gcggtaccgc gaggcggcca cggcggtcat ccaggcgctc atggcggccg acgaggccgg      360



cgcgggccac ccggccacct gctcgctccc cgccgacgat gagctaccag tggccgttgc      420



ctcctcgcag attaacggcg ccacgtccgc atcgatgtct taagaccctg gcaaagcgca      480



agcggtggtc ctcgctgctg ccgtcat                                          507





<210>  722

<211>  507

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  722

cgccgattcc gcgtgcgcca actgttccga gagcgatggc acgaggaccg ccattgccat       60



ggccggtggc cccgtcctct ctcggagtct tgtgtccttt acctccgcag gaatctctgt      120



cctttcgcga tgtaaaaaat taccgtcgct gttaatttgt ttactgactc cctgtactgg      180



gtttcctggg ctgcagctgg gtgggaggag caacgccacg tcgtcggcga aggcgaagca      240



ggagcaccgc gaggactgcc acctcatggg cctgacatgg ctgctgaacc ggaaccccac      300



gcggtaccgc gaggcggcca cggcggtcat ccaggcgctc atggcggccg acgaggccgg      360



cgcgggccac ccggccacct gctcgctccc cgccgacgat gagctaccag tggccgttgc      420



ctcctcgcag attaacggcg ccacgtccgc atcgatgtcc tcagaccctg gcaaagcgca      480



agcggtggtc ctcgctgctg ccgtcat                                          507





<210>  723

<211>  507

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  723

cgccgattcc gcgtgcgcca actgttccga gagcgatggc acgaggaccg ccattgccat       60



ggccggtggc cccgtcctct ctcggagtct tgtgtccttt acctccgcag gaatctctgt      120



cctttcgcga tgtaaaaaat taccgtcgct gttaatttgt ttactgactc cctgtactgg      180



gtttcctggg ctgcagctgg gtgggaggag caacgccacg tcgtcggcga aggcgaagca      240



ggagcaccgc gaggactgcc acctcatggg cctgacatgg ctgctgaacc ggaaccccac      300



gcggtaccgc gaggcggcca cggcggtcat ccaggcgctc atggcggccg acgaggccgg      360



cgcgggccac ccggccacct gctcgctccc cgccgacgat gagctaccag tggccgttgc      420



ctcctcgcag attaacggcg ccacgtccgc atcgatgtcc tcagaccctg gcaaagcgca      480



agcggtggtc ctcgctgctg ccgtcat                                          507





<210>  724

<211>  507

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  724

cgccgattcc gcgtgcgcca actgttccga gagcgatggc acgaggaccg ccattgccat       60



ggccggtggc cccgtcctct ctcggagtct tgtgtccttt acctccgcag gaatctctgt      120



cctttcgcga tgtaaaaaat taccgtcgct gttaatttgt ttactgactc cctgtactgg      180



gtttcctggg ctgcagctgg gtgggaggag caacgccacg tcgtcggcga aggcgaagca      240



ggagcaccgc gaggactgcc acctcatggg cctgacatgg ctgctgaacc ggaaccccac      300



gcggtaccgc gaggcggcca cggcggtcat ccaggcgctc atggcggccg acgaggccgg      360



cgcgggccac ccggccacct gctcgctccc cgccgacgat gagctaccag tggccgttgc      420



ctcctcgcag attaacggcg ccacgtccgc atcgatgtcc tcagaccctg gcaaagcgca      480



agcggtggtc ctcgctgctg ccgtcat                                          507





<210>  725

<211>  507

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  725

cgccgattcc gcgtgcgcca actgttccga gagcgatggc acgaggaccg ccattgccat       60



ggccggtggc cccgtcctct ctcggagtct tgtgtccttt acctccgcag gaatctctgt      120



cctttcgcga tgtaaaaaat taccgtcgct gttaatttgt ttactgactc cctgtactgg      180



gtttcctggg ctgcagctgg gtgggaggag caacgccacg tcgtcggcga aggcgaagca      240



ggagcaccgc gaggactgcc acctcatggg cctgacatgg ctgctgaacc ggaaccccac      300



gcggtaccgc gaggcggcca cggcggtcat ccaggcgctc atggcggccg acgaggccgg      360



cgcgggccac ccggccacct gctcgctccc cgccgacgat gagctaccag tggccgttgc      420



ctcctcgcag attaacggcg ccacgtccgc atcgatgtcc tcagaccctg gcaaagcgca      480



agcggtggtc ctcgctgctg ccgtcat                                          507





<210>  726

<211>  981

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  726

atgccgaggc cgcccacaat ggtgatccag gacgactaca tcgacatgga cctgaccccg       60



gcagccacac cggagccctc gccagcctcg ccccgcttcg agttccagag cgccggcgcc      120



ggcgccgccg gcgacaggca tagggaggcg gcgttcgcgt cccccgcgga cgagctgttc      180



tacaagggca acctgctgcc gctccacctg ccgccgcggc tgcagctcgt gcagaggctc      240



ctccaggacc aggagcagcc gccgccgctg cgaggggcga agcgggatgc ggagtcggat      300



gccacggcgg cggcggcggc agagcgagga gacgccgacg ctgccgctgc cgccagcaag      360



gtgtgcgccg ccaagaagcc gtcttgggcc aagaagctca aggtggttaa gcggtgggcg      420



tcgaaggagt acatccggtc gctcttcctg gccaggccgc cgttgccgag cgacatcgtc      480



gccgccgccg gtggcgccag cgccagcggc cacggcatcg gcagcgtcag cgcgaggggg      540



agcgtcctag agcaggagga ggtgtgccag tgccagcacc gcaagtcctt ctccggcatc      600



atccgccggg tgcgcctcgt ggcgaccaag gcgcctggga cctcgccgct gtgctcctcc      660



tcgtcctcgt cctcctcgtc gtccacgccg tcgtgccgca acgccaatgg attttttttt      720



agaacaccgg cgtcggcggc gggggcgacg ccggcgctga agcggagcag cagcgccggg      780



tcgtccgagg agggcgccat ccagggcgcc atcgcgcact gcaagcgttc ccagctgctg      840



cagcccggga tggtggcctc ggcggcggcg cggaggagcg tcagcgacgt catgttctac      900



tcggtgacca acacgcccag agcctcttcc gtgaccgccg gcgaggtggc gcaggagagg      960



aggcaggaga tgtgcagggg c                                                981





<210>  727

<211>  981

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  727

atgccgaggc cgcccacaat ggtgatccag gacgactaca tcgacatgga cctgaccccg       60



gcagccacac cggagccctc gccagcctcg ccccgcttcg agttccagag cgccggcgcc      120



ggcgccgccg gcgacaggca tagggaggcg gcgttcgcgt cccccgcgga cgagctgttc      180



tacaagggca acctgctgcc gctccacctg ccgccgcggc tgcagctcgt gcagaggctc      240



ctccaggacc aggagcagcc gccgccgctg cgaggggcga agcgggatgc ggagtcggat      300



gccacggcgg cggcggcggc agagcgagga gacgccgacg ctgccgctgc cgccagcaag      360



gtgtgcgccg ccaagaagcc gtcttgggcc aagaagctca aggtggttaa gcggtgggcg      420



tcgaaggagt acatccggtc gctcttcctg gccaggccgc cgttgccgag cgacatcgtc      480



gccgccgccg gtggcgccag cgccagcggc cacggcatcg gcagcgtcag cgcgaggggg      540



agcgtcctag agcaggagga ggtgtgccag tgccagcacc gcaagtcctt ctccggcatc      600



atccgccggg tgcgcctcgt ggcgaccaag gcgcctggga cctcgccgct gtgctcctcc      660



tcgtcctcgt cctcctcgtc gtccacgccg tcgtgccgca acgcaaatgg attttttttt      720



agaacaccgg cgtcggcggc gggggcgacg ccggcgctga agcggagcag cagcgccggg      780



tcgtccgagg agggcgccat ccagggcgcc atcgcgcact gcaagcgttc ccagctgctg      840



cagcccggga tggtggcctc ggcggcggcg cggaggagcg tcagcgacgt catgttctac      900



tcggtgacca acacgcccag agcctcttcc gtgaccgccg gcgaggtggc gcaggagagg      960



aggcaggaga tgtgcagggg c                                                981





<210>  728

<211>  981

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  728

atgccgaggc cgcccacaat ggtgatccag gacgactaca tcgacatgga cctgaccccg       60



gcagccacac cggagccctc gccagcctcg ccccgcttcg agttccagag cgccggcgcc      120



ggcgccgccg gcgacaggca tagggaggcg gcgttcgcgt cccccgcgga cgagctgttc      180



tacaagggca acctgctgcc gctccacctg ccgccgcggc tgcagctcgt gcagaggctc      240



ctccaggacc aggagcagcc gccgccgctg cgaggggcga agcgggatgc ggagtcggat      300



gccacggcgg cggcggcggc agagcgagga gacgccgacg ctgccgctgc cgccagcaag      360



gtgtgcgccg ccaagaagcc gtcttgggcc aagaagctca aggtggttaa gcggtgggcg      420



tcgaaggagt acatccggtc gctcttcctg gccaggccgc cgttgccgag cgacatcgtc      480



gccgccgccg gtggcgccag cgccagcggc cacggcatcg gcagcgtcag cgcgaggggg      540



agcgtcctag agcaggagga ggtgtgccag tgccagcacc gcaagtcctt ctccggcatc      600



atccgccggg tgcgcctcgt ggcgaccaag gcgcctggga cctcgccgct gtgctcctcc      660



tcgtcctcgt cctcctcgtc gtccacgccg tcgtgccgca acgcaaatgg attttttttt      720



agaacaccgg cgtcggcggc gggggcgacg ccggcgctga agcggagcag cagcgccggg      780



tcgtccgagg agggcgccat ccagggcgcc atcgcgcact gcaagcgttc ccagctgctg      840



cagcccggga tggtggcctc ggcggcggcg cggaggagcg tcagcgacgt catgttctac      900



tcggtgacca acacgcccag agcctcttcc gtgaccgccg gcgaggtggc gcaggagagg      960



aggcaggaga tgtgcagggg c                                                981





<210>  729

<211>  981

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  729

atgccgaggc cgcccacaat ggtgatccag gacgactaca tcgacatgga cctgaccccg       60



gcagccacac cggagccctc gccagcctcg ccccgcttcg agttccagag cgccggcgcc      120



ggcgccgccg gcgacaggca tagggaggcg gcgttcgcgt cccccgcgga cgagctgttc      180



tacaagggca acctgctgcc gctccacctg ccgccgcggc tgcagctcgt gcagaggctc      240



ctccaggacc aggagcagcc gccgccgctg cgaggggcga agcgggatgc ggagtcggat      300



gccacggcgg cggcggcggc agagcgagga gacgccgacg ctgccgctgc cgccagcaag      360



gtgtgcgccg ccaagaagcc gtcttgggcc aagaagctca aggtggttaa gcggtgggcg      420



tcgaaggagt acatccggtc gctcttcctg gccaggccgc cgttgccgag cgacatcgtc      480



gccgccgccg gtggcgccag cgccagcggc cacggcatcg gcagcgtcag cgcgaggggg      540



agcgtcctag agcaggagga ggtgtgccag tgccagcacc gcaagtcctt ctccggcatc      600



atccgccggg tgcgcctcgt ggcgaccaag gcgcctggga cctcgccgct gtgctcctcc      660



tcgtcctcgt cctcctcgtc gtccacgccg tcgtgccgca acgcaaatgg attttttttt      720



agaacaccgg cgtcggcggc gggggcgacg ccggcgctga agcggagcag cagcgccggg      780



tcgtccgagg agggcgccat ccagggcgcc atcgcgcact gcaagcgttc ccagctgctg      840



cagcccggga tggtggcctc ggcggcggcg cggaggagcg tcagcgacgt catgttctac      900



tcggtgacca acacgcccag agcctcttcc gtgaccgccg gcgaggtggc gcaggagagg      960



aggcaggaga tgtgcagggg c                                                981





<210>  730

<211>  981

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  730

atgccgaggc cgcccacaat ggtgatccag gacgactaca tcgacatgga cctgaccccg       60



gcagccacac cggagccctc gccagcctcg ccccgcttcg agttccagag cgccggcgcc      120



ggcgccgccg gcgacaggca tagggaggcg gcgttcgcgt cccccgcgga cgagctgttc      180



tacaagggca acctgctgcc gctccacctg ccgccgcggc tgcagctcgt gcagaggctc      240



ctccaggacc aggagcagcc gccgccgctg cgaggggcga agcgggatgc ggagtcggat      300



gccacggcgg cggcggcggc agagcgagga gacgccgacg ctgccgctgc cgccagcaag      360



gtgtgcgccg ccaagaagcc gtcttgggcc aagaagctca aggtggttaa gcggtgggcg      420



tcgaaggagt acatccggtc gctcttcctg gccaggccgc cgttgccgag cgacatcgtc      480



gccgccgccg gtggcgccag cgccagcggc cacggcatcg gcagcgtcag cgcgaggggg      540



agcgtcctag agcaggagga ggtgtgccag tgccagcacc gcaagtcctt ctccggcatc      600



atccgccggg tgcgcctcgt ggcgaccaag gcgcctggga cctcgccgct gtgctcctcc      660



tcgtcctcgt cctcctcgtc gtccacgccg tcgtgccgca acgccaacgg attttttttt      720



agaacaccgg cgtcggcggc gggggcgacg ccggcgctga agcggagcag cagcgccggg      780



tcgtccgagg agggcgccat ccagggcgcc atcgcgcact gcaagcgttc ccagctgctg      840



cagcccggga tggtggcctc ggcggcggcg cggaggagcg tcagcgacgt catgttctac      900



tcggtgacca acacgcccag agcctcttcc gtgaccgccg gcgaggtggc gcaggagagg      960



aggcaggaga tgtgcagggg c                                                981





<210>  731

<211>  852

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  731

atgaggtgca agaagcaccc gtaccaggtc ggcggcggtg gcgtctgtgc cacgtgcctc       60



cgcgaccgcc tgatcgcgct ggaggccgcg cagaacggcg acgcgtcgtc gtcgccgccg      120



ccgcccgccg cggcgcccgc gttcccgagg tcggtgtccc cgtacgtgtc ccgcaggaag      180



tcggacacgt cgggcggggg cggcgcgctc aggcaccacc catcattatt attttttaga      240



acaccgcagg tagggcccgc ctacggcggc ggcgcgttgg aggaaggcga cataggctac      300



gagtacaaga ggcggcgcgc cggcaagttc tccgtgctcg ccacgctctt cggccaccac      360



cacggtcaca gatcggaaga gacgcaccag gaaggcgcca cggagcggaa gaaacattct      420



tggttcgccg cgatcatgcc gcgccgccgc aagaagcagg cggcgccggc ctcgatcacc      480



tcgccacggt cagccccgcc gaggcgctcc tgccgcgtgg tcagcaaccg ggggctgtcg      540



ccggagcggg acagccacgg cagcggcgac gagagcagct cgcccgccgc ggatcccccg      600



tggcggccgt ccccgtcccc catgcggagg acccgctgcc ggcgccgcca gacgaacagc      660



atgccgtcgg gtttcgccgt ctgcctcagc ccgctcgtgc ggcccagccc ggggcgccgc      720



cgccacgtcc agccgccgga cccgggctcc ttctcctccg agttccggcc gtcgccgctc      780



cacagtctct cgtctgctgc ctccgttacg cgctgtcgct ccaggaagct cgccgacgtc      840



ggccgcttcc gg                                                          852





<210>  732

<211>  852

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  732

atgaggtgca agaagcaccc gtaccaggtc ggcggcggtg gcgtctgtgc cacgtgcctc       60



cgcgaccgcc tgatcgcgct ggaggccgcg cagaacggcg acgcgtcgtc gtcgccgccg      120



ccgcccgccg cggcgcccgc gttcccgagg tcggtgtccc cgtacgtgtc ccgcaggaag      180



tcggacacgt cgggcggggg cggcgcgctc aggcaccacc cgtcattatt attttttaga      240



acaccgcagg tagggcccgc ctacggcggc ggcgcgttgg aggaaggcga cataggctac      300



gagtacaaga ggcggcgcgc cggcaagttc tccgtgctcg ccacgctctt cggccaccac      360



cacggtcaca gatcggaaga gacgcaccag gaaggcgcca cggagcggaa gaaacattct      420



tggttcgccg cgatcatgcc gcgccgccgc aagaagcagg cggcgccggc ctcgatcacc      480



tcgccacggt cagccccgcc gaggcgctcc tgccgcgtgg tcagcaaccg ggggctgtcg      540



ccggagcggg acagccacgg cagcggcgac gagagcagct cgcccgccgc ggatcccccg      600



tggcggccgt ccccgtcccc catgcggagg acccgctgcc ggcgccgcca gacgaacagc      660



atgccgtcgg gtttcgccgt ctgcctcagc ccgctcgtgc ggcccagccc ggggcgccgc      720



cgccacgtcc agccgccgga cccgggctcc ttctcctccg agttccggcc gtcgccgctc      780



cacagtctct cgtctgctgc ctccgttacg cgctgtcgct ccaggaagct cgccgacgtc      840



ggccgcttcc gg                                                          852





<210>  733

<211>  852

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  733

atgaggtgca agaagcaccc gtaccaggtc ggcggcggtg gcgtctgtgc cacgtgcctc       60



cgcgaccgcc tgatcgcgct ggaggccgcg cagaacggcg acgcgtcgtc gtcgccgccg      120



ccgcccgccg cggcgcccgc gttcccgagg tcggtgtccc cgtacgtgtc ccgcaggaag      180



tcggacacgt cgggcggggg cggcgcgctc aggcaccacc cgtcattatt attttttaga      240



acaccgcagg tagggcccgc ctacggcggc ggcgcgttgg aggaaggcga cataggctac      300



gagtacaaga ggcggcgcgc cggcaagttc tccgtgctcg ccacgctctt cggccaccac      360



cacggtcaca gatcggaaga gacgcaccag gaaggcgcca cggagcggaa gaaacattct      420



tggttcgccg cgatcatgcc gcgccgccgc aagaagcagg cggcgccggc ctcgatcacc      480



tcgccacggt cagccccgcc gaggcgctcc tgccgcgtgg tcagcaaccg ggggctgtcg      540



ccggagcggg acagccacgg cagcggcgac gagagcagct cgcccgccgc ggatcccccg      600



tggcggccgt ccccgtcccc catgcggagg acccgctgcc ggcgccgcca gacgaacagc      660



atgccgtcgg gtttcgccgt ctgcctcagc ccgctcgtgc ggcccagccc ggggcgccgc      720



cgccacgtcc agccgccgga cccgggctcc ttctcctccg agttccggcc gtcgccgctc      780



cacagtctct cgtctgctgc ctccgttacg cgctgtcgct ccaggaagct cgccgacgtc      840



ggccgcttcc gg                                                          852





<210>  734

<211>  852

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  734

atgaggtgca agaagcaccc gtaccaggtc ggcggcggtg gcgtctgtgc cacgtgcctc       60



cgcgaccgcc tgatcgcgct ggaggccgcg cagaacggcg acgcgtcgtc gtcgccgccg      120



ccgcccgccg cggcgcccgc gttcccgagg tcggtgtccc cgtacgtgtc ccgcaggaag      180



tcggacacgt cgggcggggg cggcgcgctc aggcaccacc cgtcattatt attttttaga      240



acaccgcagg tagggcccgc ctacggcggc ggcgcgttgg aggaaggcga cataggctac      300



gagtacaaga ggcggcgcgc cggcaagttc tccgtgctcg ccacgctctt cggccaccac      360



cacggtcaca gatcggaaga gacgcaccag gaaggcgcca cggagcggaa gaaacattct      420



tggttcgccg cgatcatgcc gcgccgccgc aagaagcagg cggcgccggc ctcgatcacc      480



tcgccacggt cagccccgcc gaggcgctcc tgccgcgtgg tcagcaaccg ggggctgtcg      540



ccggagcggg acagccacgg cagcggcgac gagagcagct cgcccgccgc ggatcccccg      600



tggcggccgt ccccgtcccc catgcggagg acccgctgcc ggcgccgcca gacgaacagc      660



atgccgtcgg gtttcgccgt ctgcctcagc ccgctcgtgc ggcccagccc ggggcgccgc      720



cgccacgtcc agccgccgga cccgggctcc ttctcctccg agttccggcc gtcgccgctc      780



cacagtctct cgtctgctgc ctccgttacg cgctgtcgct ccaggaagct cgccgacgtc      840



ggccgcttcc gg                                                          852





<210>  735

<211>  852

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  735

atgaggtgca agaagcaccc gtaccaggtc ggcggcggtg gcgtctgtgc cacgtgcctc       60



cgcgaccgcc tgatcgcgct ggaggccgcg cagaacggcg acgcgtcgtc gtcgccgccg      120



ccgcccgccg cggcgcccgc gttcccgagg tcggtgtccc cgtacgtgtc ccgcaggaag      180



tcggacacgt cgggcggggg cggcgcgctc aggcaccacc caagcttatt attttttaga      240



acaccgcagg tagggcccgc ctacggcggc ggcgcgttgg aggaaggcga cataggctac      300



gagtacaaga ggcggcgcgc cggcaagttc tccgtgctcg ccacgctctt cggccaccac      360



cacggtcaca gatcggaaga gacgcaccag gaaggcgcca cggagcggaa gaaacattct      420



tggttcgccg cgatcatgcc gcgccgccgc aagaagcagg cggcgccggc ctcgatcacc      480



tcgccacggt cagccccgcc gaggcgctcc tgccgcgtgg tcagcaaccg ggggctgtcg      540



ccggagcggg acagccacgg cagcggcgac gagagcagct cgcccgccgc ggatcccccg      600



tggcggccgt ccccgtcccc catgcggagg acccgctgcc ggcgccgcca gacgaacagc      660



atgccgtcgg gtttcgccgt ctgcctcagc ccgctcgtgc ggcccagccc ggggcgccgc      720



cgccacgtcc agccgccgga cccgggctcc ttctcctccg agttccggcc gtcgccgctc      780



cacagtctct cgtctgctgc ctccgttacg cgctgtcgct ccaggaagct cgccgacgtc      840



ggccgcttcc gg                                                          852





<210>  736

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  736

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccgggatata gtacagcaga ttttcgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gat                                  1473





<210>  737

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  737

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccggggtata gtacagcaga ttttcgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gat                                  1473





<210>  738

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  738

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccggggtata gtacagcaga ttttcgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gat                                  1473





<210>  739

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  739

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccggggtata gtacagcaga ttttcgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gat                                  1473





<210>  740

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  740

atgaagaccc ggagctcagc gagaggggag ccgaggcggc tcgggaatgc ggctctcctg       60



gcgctcatgc tctgctccgt cgtcgcgctc tccctcatcc gggggaggtt cgccccaatt      120



ggtagcaccg caggagacgc catcaaatcc gaggacgacg ctgctgcagc ggcggtggcg      180



gtcagcaagg cggctgctgt caacgttgac accggcgacg gcgccgacga ggccgccgct      240



gaagctgctg ctgaggagaa agacaaggag gaggtccagc cgaagccagc cgccgacggt      300



tcccgcggcg gcgcagccaa gccggtgtgc tacgagacga gccgccgctc cgacacctgc      360



gaggcggctg gcgacgtgcg cgtgttgggg agctcccaga cggtgtacgt cgactcgctg      420



gaccgggagt ggaagaccaa gccgtactgc cggaagcacg acaacttcgc gctcgcccac      480



gtcaaggagt ggtccctcaa gccgctcccc tccggcgctg cgccgcagtg cacggtgaac      540



agctcggcca ccgcgttcgt gctctccacg ggcggcttca cgggcaaccc gttccacgac      600



tacacggacg tgctgatccc ggccttcatc acggcgcacc cgctccgcgg cgaggtccag      660



ttcctggtca gcagctacaa gtcgtggtgg atgaaccgct acatccagat cttccagcag      720



atgagccggc acgaggtggt ggacatcgac gccgacgacg aggtccgctg ctaccggaac      780



gtggtggtgg ggccgacgtt ccaccgtgag ctcggcgtgg acgcgtccaa gtccccgtcg      840



ccgggataca gtacagcaga ttttcgcaag atgctgcgcg acgcgttcgg gctggagcgc      900



gccacggcca cgcccagcgg cgaccggtgg gacatccggc gccggccgcg gctgctcatc      960



atctcgcgcc gcccgtcccg cgggcgcgcc ttcatgaacg agcgcgccat ggcggacatg     1020



gcggcgagcc tcgggttcga cgtgcggatc ggggagcccg acagcagcac cgacacgtcc     1080



aagttcgcgc ggctggtgaa ctcggcggac gtgatggtgg gcgtccacgg cgccgggctc     1140



accaacatgg tgttcctgcc ggccggcgcc gtggtggtgc aggtggtgcc gtacggccgg     1200



ctggagtggc tggcccggaa cacgttcgcg gagccgtcgg cggggatgga ggtccactac     1260



ctggagtacg tggtgcagct ggacgagacg acgctgagcg agcagtaccc gagcgatcac     1320



ccggtgctga gggaccccat ggccatccac aagcaggggt ggaacgcgct caagaccacg     1380



tacctggaca agcagaacgt gcgcccgcac ctgggccgcc tcaagaacac cttcctacag     1440



gcgctcaaga tgctgccgca cggccgggac gat                                  1473





<210>  741

<211>  597

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  741

atgtccctgc tcggatctct gccttccgcc atggccacgt ccaccacttt tagctgccgc       60



tgtttttcct ctggtgctcg cccctgcgtt ggtcatgcgc ctggttgccg agtccctgct      120



tcctgcgccc tggcgcccaa ccccacgcgg cctccctgct cggaccgcgt tcttggctcc      180



agctcggctc tgtcttgtgc cggcgtcctc tactccatct ttttccctag cgcgccctgg      240



tattcgctcg ctgctgcgcg cgctctcccc tgtctgctcg tcgtggacgc gggccgctgc      300



ccatgccgag ctccattttc aagccccgca agccgagctc tccgtggtcg acgctcccag      360



ccctctactc accgagctcc gtgcaggtgc gccccatccc gcctgcactc ggaccgcgcc      420



ctcgctgctg gtgctcgccg accgcggttg tcctgcaccc tgttgcgctc gtccaggtcg      480



ccgctgtcga gtccctgtgt gcgcagccat gtccctctgc tcgccgtgct agccgtctac      540



gtcatcgccg gacttgtctc cccgaccatc gtgatgttgt tatttcctgc tgcgccg         597





<210>  742

<211>  597

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  742

atgtccctgc tcggatctct gccttccgcc atggccacgt ccaccacttt tagctgccgc       60



tgtttttcct ctggtgctcg cccctgcgtt ggtcatgcgc ctggttgccg agtccctgct      120



tcctgcgccc tggcgcccaa ccccacgcgg cctccctgct cggaccgcgt tcttggctcc      180



agctcggctc tgtcttgtgc cggcgtcctc tactccatct ttttccctag cgcgccctgg      240



tattcgctcg ctgctgcgcg cgctctcccc tgtctgctcg tcgtggacgc gggccgctgc      300



ccatgccgag ctcccttttc aagccccgca agccgagctc tccgtggtcg acgctcccag      360



ccctctactc accgagctcc gtgcaggtgc gccccatccc gcctgcactc ggaccgcgcc      420



ctcgctgctg gtgctcgccg accgcggttg tcctgcaccc tgttgcgctc gtccaggtcg      480



ccgctgtcga gtccctgtgt gcgcagccat gtccctctgc tcgccgtgct agccgtctac      540



gtcatcgccg gacttgtctc cccgaccatc gtgatgttgt tatttcctgc tgcgccg         597





<210>  743

<211>  597

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  743

atgtccctgc tcggatctct gccttccgcc atggccacgt ccaccacttt tagctgccgc       60



tgtttttcct ctggtgctcg cccctgcgtt ggtcatgcgc ctggttgccg agtccctgct      120



tcctgcgccc tggcgcccaa ccccacgcgg cctccctgct cggaccgcgt tcttggctcc      180



agctcggctc tgtcttgtgc cggcgtcctc tactccatct ttttccctag cgcgccctgg      240



tattcgctcg ctgctgcgcg cgctctcccc tgtctgctcg tcgtggacgc gggccgctgc      300



ccatgccgag ctcccttttc aagccccgca agccgagctc tccgtggtcg acgctcccag      360



ccctctactc accgagctcc gtgcaggtgc gccccatccc gcctgcactc ggaccgcgcc      420



ctcgctgctg gtgctcgccg accgcggttg tcctgcaccc tgttgcgctc gtccaggtcg      480



ccgctgtcga gtccctgtgt gcgcagccat gtccctctgc tcgccgtgct agccgtctac      540



gtcatcgccg gacttgtctc cccgaccatc gtgatgttgt tatttcctgc tgcgccg         597





<210>  744

<211>  597

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  744

atgtccctgc tcggatctct gccttccgcc atggccacgt ccaccacttt tagctgccgc       60



tgtttttcct ctggtgctcg cccctgcgtt ggtcatgcgc ctggttgccg agtccctgct      120



tcctgcgccc tggcgcccaa ccccacgcgg cctccctgct cggaccgcgt tcttggctcc      180



agctcggctc tgtcttgtgc cggcgtcctc tactccatct ttttccctag cgcgccctgg      240



tattcgctcg ctgctgcgcg cgctctcccc tgtctgctcg tcgtggacgc gggccgctgc      300



ccatgccgag ctcccttttc aagccccgca agccgagctc tccgtggtcg acgctcccag      360



ccctctactc accgagctcc gtgcaggtgc gccccatccc gcctgcactc ggaccgcgcc      420



ctcgctgctg gtgctcgccg accgcggttg tcctgcaccc tgttgcgctc gtccaggtcg      480



ccgctgtcga gtccctgtgt gcgcagccat gtccctctgc tcgccgtgct agccgtctac      540



gtcatcgccg gacttgtctc cccgaccatc gtgatgttgt tatttcctgc tgcgccg         597





<210>  745

<211>  597

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  745

atgtccctgc tcggatctct gccttccgcc atggccacgt ccaccacttt tagctgccgc       60



tgtttttcct ctggtgctcg cccctgcgtt ggtcatgcgc ctggttgccg agtccctgct      120



tcctgcgccc tggcgcccaa ccccacgcgg cctccctgct cggaccgcgt tcttggctcc      180



agctcggctc tgtcttgtgc cggcgtcctc tactccatct ttttccctag cgcgccctgg      240



tattcgctcg ctgctgcgcg cgctctcccc tgtctgctcg tcgtggacgc gggccgctgc      300



ccatgccgag ctccattctc aagccccgca agccgagctc tccgtggtcg acgctcccag      360



ccctctactc accgagctcc gtgcaggtgc gccccatccc gcctgcactc ggaccgcgcc      420



ctcgctgctg gtgctcgccg accgcggttg tcctgcaccc tgttgcgctc gtccaggtcg      480



ccgctgtcga gtccctgtgt gcgcagccat gtccctctgc tcgccgtgct agccgtctac      540



gtcatcgccg gacttgtctc cccgaccatc gtgatgttgt tatttcctgc tgcgccg         597





<210>  746

<211>  465

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  746

atgtgccctg ctcgcccatg gcgccagcca cagctcggag ctccctctgc atccccaggc       60



ctgcgcctgc tgcttgcccc agcttggagc tcgctcgacc tccagctccg gcgcccggct      120



gagctccctg gctgccgcgc cctgctctct tttgctgctc accggtgctc cagctcgcgg      180



cgcccctgct tttctctctc ctcctctact cccgccatgg cgcgcgtctc tgctccctcc      240



cccacggcgt gcccctcaag ctcgtccagg ccgcgacctc gtcgtggacc ttcctcgccg      300



gcgctcctcc cagcacaatt aagttcagca cgccccatct cgctgcgctc ggcccccagc      360



tcggtcttcc tcggtcgcgc tcgctctggt cgtggacacc gtcgagctca gggccctgct      420



cgccgtatgt ccacgcatca tgcgtggagc aatgggggaa atcta                      465





<210>  747

<211>  465

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  747

atgtgccctg ctcgcccatg gcgccagcca cagctcggag ctccctctgc atccccaggc       60



ctgcgcctgc tgcttgcccc agcttggagc tcgctcgacc tccagctccg gcgcccggct      120



gagctccctg gctgccgcgc cctgctctct tttgctgctc accggtgctc cagctcgcgg      180



cgcccctgct tttctctctc ctcctctact cccgccatgg cgcgcgtctc tgctccctcc      240



cccacggcgt gcccctcaag ctcgtccagg ccgcgacctc gtcgtggacc ttcctcgccg      300



gcgctcctcc ctgcacaatt aagttcagca cgccccatct cgctgcgctc ggcccccagc      360



tcggtcttcc tcggtcgcgc tcgctctggt cgtggacacc gtcgagctca gggccctgct      420



cgccgtatgt ccacgcatca tgcgtggagc aatgggggaa atcta                      465





<210>  748

<211>  465

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  748

atgtgccctg ctcgcccatg gcgccagcca cagctcggag ctccctctgc atccccaggc       60



ctgcgcctgc tgcttgcccc agcttggagc tcgctcgacc tccagctccg gcgcccggct      120



gagctccctg gctgccgcgc cctgctctct tttgctgctc accggtgctc cagctcgcgg      180



cgcccctgct tttctctctc ctcctctact cccgccatgg cgcgcgtctc tgctccctcc      240



cccacggcgt gcccctcaag ctcgtccagg ccgcgacctc gtcgtggacc ttcctcgccg      300



gcgctcctcc ctgcacaatt aagttcagca cgccccatct cgctgcgctc ggcccccagc      360



tcggtcttcc tcggtcgcgc tcgctctggt cgtggacacc gtcgagctca gggccctgct      420



cgccgtatgt ccacgcatca tgcgtggagc aatgggggaa atcta                      465





<210>  749

<211>  465

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  749

atgtgccctg ctcgcccatg gcgccagcca cagctcggag ctccctctgc atccccaggc       60



ctgcgcctgc tgcttgcccc agcttggagc tcgctcgacc tccagctccg gcgcccggct      120



gagctccctg gctgccgcgc cctgctctct tttgctgctc accggtgctc cagctcgcgg      180



cgcccctgct tttctctctc ctcctctact cccgccatgg cgcgcgtctc tgctccctcc      240



cccacggcgt gcccctcaag ctcgtccagg ccgcgacctc gtcgtggacc ttcctcgccg      300



gcgctcctcc ctgcacaatt aagttcagca cgccccatct cgctgcgctc ggcccccagc      360



tcggtcttcc tcggtcgcgc tcgctctggt cgtggacacc gtcgagctca gggccctgct      420



cgccgtatgt ccacgcatca tgcgtggagc aatgggggaa atcta                      465





<210>  750

<211>  465

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  750

atgtgccctg ctcgcccatg gcgccagcca cagctcggag ctccctctgc atccccaggc       60



ctgcgcctgc tgcttgcccc agcttggagc tcgctcgacc tccagctccg gcgcccggct      120



gagctccctg gctgccgcgc cctgctctct tttgctgctc accggtgctc cagctcgcgg      180



cgcccctgct tttctctctc ctcctctact cccgccatgg cgcgcgtctc tgctccctcc      240



cccacggcgt gcccctcaag ctcgtccagg ccgcgacctc gtcgtggacc ttcctcgccg      300



gcgctcctcc cagctcaatt aagttcagct cgccccatct cgctgcgctc ggcccccagc      360



tcggtcttcc tcggtcgcgc tcgctctggt cgtggacacc gtcgagctca gggccctgct      420



cgccgtatgt ccacgcatca tgcgtggagc aatgggggaa atcta                      465





<210>  751

<211>  2544

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  751

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga taccaaattt tagttcagca     2520



ttccaccagg ccaaaggcag ggca                                            2544





<210>  752

<211>  2544

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  752

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga tcccaaattt tagttcagca     2520



ttccaccagg ccaaaggcag ggca                                            2544





<210>  753

<211>  2544

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  753

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga tcccaaattt tagttcagca     2520



ttccaccagg ccaaaggcag ggca                                            2544





<210>  754

<211>  2544

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  754

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga tacccaattt tagttcagca     2520



ttccaccagg ccaaaggcag ggca                                            2544





<210>  755

<211>  2544

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  755

atggcggatt tcggtggcgg cgacagcgag ctggaggagc aatccaatga ggggtaccag       60



gagccggcgt tcgaggcctt catgtgccct ctcaccaagc aggtgatgca cgaccccgtg      120



acgatcgaga ccgggcagac cttcgagcgg gaggccatcc tcaagtggtt cagggagtgc      180



agggacagcg ggaggaagcc gacgtgcccg ctcacgcagg cggagctgcg cagcaccgac      240



atcagcccca gcatcgccct gcgcaacgtc atcgacgagt ggagggcaag gaacgaggac      300



aaggagctgg acaaggcctt cgcctccctc agtctcacca ccacacagca tgctcaagac      360



gacgccgaca ccctgcgcgc actcctctac gtctcccaaa tgtgccacag gagcgccgcc      420



aagaagaccc tcgtgcgcag gcaaggcgtc atacccacca tcactgacct gctcaagagc      480



agcagcagaa gggttcgcct caaggccctc gaagtccttc gtctcatcgt cgaggacaac      540



gacgaaaata aggaagagct ggggaaaggt gacaccatac gcaccatcat caagttcctg      600



tccaatgaga atttccaaga gagggagctt gcagtttcgc tattgtacga gctctcaaag      660



ctcgatccta tatgcgaaag gatcggcgca atctacgggg ccatactcct actggttggg      720



atggcaagca gcaaatcaga gaatggtgtg gctgtggaga aagccgagaa cacgctcaag      780



aatctggaca agtacgaaac aaacgtcaag caaatggctg agaacggcag gcttcagcct      840



ctgcttacaa aacttattca aggcacacct caagttcagg tcgccatggc tgaatacctc      900



ggcgagcttg cgttggcgaa cgacgtgaag gtggtggtgg cagagcaggt cggggctctg      960



ctcgtgagca tcttgaagac gggcagcctt ccggcaagag aggccacgct caaagccctg     1020



agggagatat cgtcaaacga gtccagcgcc aagatcctgc tccaggcggg catcctgccg     1080



ccgctggtga aggacctctt ctccttgggc gccggccacc tgccgatgag gctcaaggag     1140



gtgtcggccg cgatcctggc caacctggtg gcgtcgggcg ccagcttccg gtccatcccg     1200



ctggacgaga gcggggagac gctgctgtcg gaggagatgg tgcacagcct gctgcacctc     1260



atcagcaaca ccgggccggc catcgagtgc aagctcctca acgtcctcgt ggggctcacc     1320



ggctccccgt ccacggtggc cgacgtggtc tccgccatcc gcagctccgg ggccaccatc     1380



agcctgatcc agttcgtgga ggccgcgcac cgggagatcc gcgtggagtc cctcaagctg     1440



ctgcgcaacg tgtcgccgta catgggcgcg gagctagcgg acgccctcgg cctcggaggc     1500



agcaccggcc acctgggcag cctgctgggg gtgatcaccg tcaccgaaga ccaccggagc     1560



ggcgtgacgg aggagcaggc ggcggccgtg gctctgctgg gcgacctccc cgagagggac     1620



tggaacctga cgcggcagct gcaggagctg ggcgcgttcc gggcgctggc gacgaagctg     1680



gtggagctcc ggcggggcac gatccgcggc aaccggcacg tggcgccctt cacggagggg     1740



gcggtgaagg tgctgtacag ggtgacgtgc gcgctgcagc tgcagctgca ggaagaggag     1800



gcggcggagg tgtacgtgga gctggcgcgg gaggtgggcc tggcgccgct cttcgtggag     1860



ctgctgcagc agcagatgag cagcgggcag gacgccgtgc tgctctactc ggccatggcg     1920



ctggagaacc tgtcgctgca gtcggcgagg ctcacggacg tgccggagcc gccgccgccg     1980



cctgggagcc tcctcatgtg cgggtgcttc gggggcccca ggcacaggca cgggcacggc     2040



aagcagccgc agccgcagct gcccggggcc atggggacgt gccgcgtcca cggcggcttc     2100



tgctcgctgc gggagacgtt ctgcctggcg gagagcgggt gcaaggcggt ggagcggctg     2160



gtggcgtgcc tggagcacgc ggatgaccgc gtggtggagg cggcgctggc ggccttgtcc     2220



acgctggtgg gggacggcgt ggccaacgcg acggaggggg tgctggtggt cggggaggcg     2280



gaggggctgc gccccgtggt ggaggtgctg gtggagaacc ggacggaggc gctgcagcgg     2340



cgggcggtgt gggccgtgga gcgcatcctg cgcgtcgagg acatcgcgct ggaggtggct     2400



gctgaccaga ccgtggcctc cgcgctcgtg gaggcctacc gcaacggcga cgtccgcacc     2460



cggcagacgg cggagcgcgc gctccgccac ctggacagga tacccaattt tagttcagca     2520



ttccaccagg ccaaaggcag ggca                                            2544





<210>  756

<211>  1476

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  756

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



tttgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcaccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggttacaa cgctggagcg gtatcaacca cgatgcactt ggcgaagttc      480



ctcaccaagt ggttcaatga ccatcccgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgaa      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aataatctca cctccgaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgccgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtagtactg ggcaagctat ttcatccccc agcattacca     1020



cccttttcat gcagggttta ccggtactac ctgtcgtatt tctgggcaaa cgacaggcgc     1080



acccgggatg ctcttgggat caaggagggc accgtggatg agtgggtcag atgccacaac     1140



gacgaccaag agttgcctta cgagagcgag ctgaagagtg tcgtcaagta ccaccggaac     1200



ctgacgtcca gaggctaccg cgccctggta tacagcggcg accatgacct gctggtgcca     1260



catctgggca cccaggcctg ggtcaggtcg ctcaacttcc ccgtcgtgga cgactggagg     1320



gcgtggcatc tcggtggcca gtcagctgga tttacgacaa cttactcaaa caacatgaca     1380



ttcgcgacga tcaagggcgc cgggcatacg gcgcctgagt acgagccgga gaggtgtttc     1440



gccatgttca gccgttggat cctcaaccgg ccactc                               1476





<210>  757

<211>  1476

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  757

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



tttgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcaccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggttacaa cgctggagcg gtatcaacca cgatgcactt ggcgaagttc      480



ctcaccaagt ggttcaatga ccatcccgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgaa      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aataatctca cctccgaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgccgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtagtactg ggcaagctat ttcatccacc agcattacca     1020



ccattttcat gcagggttta ccggtactac ctgtcgtatt tctgggcaaa cgacaggcgc     1080



acccgggatg ctcttgggat caaggagggc accgtggatg agtgggtcag atgccacaac     1140



gacgaccaag agttgcctta cgagagcgag ctgaagagtg tcgtcaagta ccaccggaac     1200



ctgacgtcca gaggctaccg cgccctggta tacagcggcg accatgacct gctggtgcca     1260



catctgggca cccaggcctg ggtcaggtcg ctcaacttcc ccgtcgtgga cgactggagg     1320



gcgtggcatc tcggtggcca gtcagctgga tttacgacaa cttactcaaa caacatgaca     1380



ttcgcgacga tcaagggcgc cgggcatacg gcgcctgagt acgagccgga gaggtgtttc     1440



gccatgttca gccgttggat cctcaaccgg ccactc                               1476





<210>  758

<211>  1476

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  758

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



tttgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcaccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggttacaa cgctggagcg gtatcaacca cgatgcactt ggcgaagttc      480



ctcaccaagt ggttcaatga ccatcccgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgaa      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aataatctca cctccgaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgccgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtagtactg ggcaagctat ttcatccacc agcattacca     1020



ccattttcat gcagggttta ccggtactac ctgtcgtatt tctgggcaaa cgacaggcgc     1080



acccgggatg ctcttgggat caaggagggc accgtggatg agtgggtcag atgccacaac     1140



gacgaccaag agttgcctta cgagagcgag ctgaagagtg tcgtcaagta ccaccggaac     1200



ctgacgtcca gaggctaccg cgccctggta tacagcggcg accatgacct gctggtgcca     1260



catctgggca cccaggcctg ggtcaggtcg ctcaacttcc ccgtcgtgga cgactggagg     1320



gcgtggcatc tcggtggcca gtcagctgga tttacgacaa cttactcaaa caacatgaca     1380



ttcgcgacga tcaagggcgc cgggcatacg gcgcctgagt acgagccgga gaggtgtttc     1440



gccatgttca gccgttggat cctcaaccgg ccactc                               1476





<210>  759

<211>  1476

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  759

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



tttgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcaccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggttacaa cgctggagcg gtatcaacca cgatgcactt ggcgaagttc      480



ctcaccaagt ggttcaatga ccatcccgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgaa      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aataatctca cctccgaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgccgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtagtactg ggcaagctat ttcatccacc agcattacca     1020



ccattttcat gcagggttta ccggtactac ctgtcgtatt tctgggcaaa cgacaggcgc     1080



acccgggatg ctcttgggat caaggagggc accgtggatg agtgggtcag atgccacaac     1140



gacgaccaag agttgcctta cgagagcgag ctgaagagtg tcgtcaagta ccaccggaac     1200



ctgacgtcca gaggctaccg cgccctggta tacagcggcg accatgacct gctggtgcca     1260



catctgggca cccaggcctg ggtcaggtcg ctcaacttcc ccgtcgtgga cgactggagg     1320



gcgtggcatc tcggtggcca gtcagctgga tttacgacaa cttactcaaa caacatgaca     1380



ttcgcgacga tcaagggcgc cgggcatacg gcgcctgagt acgagccgga gaggtgtttc     1440



gccatgttca gccgttggat cctcaaccgg ccactc                               1476





<210>  760

<211>  1476

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  760

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



tttgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcaccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggttacaa cgctggagcg gtatcaacca cgatgcactt ggcgaagttc      480



ctcaccaagt ggttcaatga ccatcccgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgaa      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aataatctca cctccgaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgccgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtagtactg ggcaagctat ttcatccccc ggcattaccg     1020



cccttttcat gcagggttta ccggtactac ctgtcgtatt tctgggcaaa cgacaggcgc     1080



acccgggatg ctcttgggat caaggagggc accgtggatg agtgggtcag atgccacaac     1140



gacgaccaag agttgcctta cgagagcgag ctgaagagtg tcgtcaagta ccaccggaac     1200



ctgacgtcca gaggctaccg cgccctggta tacagcggcg accatgacct gctggtgcca     1260



catctgggca cccaggcctg ggtcaggtcg ctcaacttcc ccgtcgtgga cgactggagg     1320



gcgtggcatc tcggtggcca gtcagctgga tttacgacaa cttactcaaa caacatgaca     1380



ttcgcgacga tcaagggcgc cgggcatacg gcgcctgagt acgagccgga gaggtgtttc     1440



gccatgttca gccgttggat cctcaaccgg ccactc                               1476





<210>  761

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  761

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



ttcgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcgccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggctacaa cgctggagcg gtatcaacca cgctgcactt ggcgaagttc      480



ctcaacaagt ggttcaacga ccatcctgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgga      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aatgatctca cctcggaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgctgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtactgggc aagctatttc atcccccagc attaccaccc     1020



ttttcatgca gagtttaccg gtactacctg tcgtatttct gggcaaacga caggcgcacc     1080



cgggatgctc ttgggatcaa ggagggcacc gtggatgagt gggtcagatg ccacaacgac     1140



gaccaagagt tgccttacga gagcgagctg aagagtgtcg tcaagtacca ccggaacctg     1200



acgtccagag gctaccgagc catggtatac agcggcgacc atgacctgct ggtgccacat     1260



ctgggcaccc aggcctgggt caggtcgctc aacttccccg tcgtggacga ctggagggcg     1320



tggcatctcg gtggccagtc agctggattt acaataactt actcaaacaa catgacattc     1380



gcgacgatca agggcgccgg gcatacagca cctgagtacg agccggagag gtgtttcgcc     1440



atgttcagcc gttggatcct caaccggcca ctc                                  1473





<210>  762

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  762

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



ttcgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcgccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggctacaa cgctggagcg gtatcaacca cgctgcactt ggcgaagttc      480



ctcaacaagt ggttcaacga ccatcctgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgga      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aatgatctca cctcggaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgctgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtactgggc aagctatttc atccaccagc attaccacca     1020



ttttcatgca gagtttaccg gtactacctg tcgtatttct gggcaaacga caggcgcacc     1080



cgggatgctc ttgggatcaa ggagggcacc gtggatgagt gggtcagatg ccacaacgac     1140



gaccaagagt tgccttacga gagcgagctg aagagtgtcg tcaagtacca ccggaacctg     1200



acgtccagag gctaccgagc catggtatac agcggcgacc atgacctgct ggtgccacat     1260



ctgggcaccc aggcctgggt caggtcgctc aacttccccg tcgtggacga ctggagggcg     1320



tggcatctcg gtggccagtc agctggattt acaataactt actcaaacaa catgacattc     1380



gcgacgatca agggcgccgg gcatacagca cctgagtacg agccggagag gtgtttcgcc     1440



atgttcagcc gttggatcct caaccggcca ctc                                  1473





<210>  763

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  763

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



ttcgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcgccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggctacaa cgctggagcg gtatcaacca cgctgcactt ggcgaagttc      480



ctcaacaagt ggttcaacga ccatcctgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgga      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aatgatctca cctcggaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgctgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtactgggc aagctatttc atccaccagc attaccacca     1020



ttttcatgca gagtttaccg gtactacctg tcgtatttct gggcaaacga caggcgcacc     1080



cgggatgctc ttgggatcaa ggagggcacc gtggatgagt gggtcagatg ccacaacgac     1140



gaccaagagt tgccttacga gagcgagctg aagagtgtcg tcaagtacca ccggaacctg     1200



acgtccagag gctaccgagc catggtatac agcggcgacc atgacctgct ggtgccacat     1260



ctgggcaccc aggcctgggt caggtcgctc aacttccccg tcgtggacga ctggagggcg     1320



tggcatctcg gtggccagtc agctggattt acaataactt actcaaacaa catgacattc     1380



gcgacgatca agggcgccgg gcatacagca cctgagtacg agccggagag gtgtttcgcc     1440



atgttcagcc gttggatcct caaccggcca ctc                                  1473





<210>  764

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  764

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



ttcgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcgccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggctacaa cgctggagcg gtatcaacca cgctgcactt ggcgaagttc      480



ctcaacaagt ggttcaacga ccatcctgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgga      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aatgatctca cctcggaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgctgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtactgggc aagctatttc atccaccagc attaccacca     1020



ttttcatgca gagtttaccg gtactacctg tcgtatttct gggcaaacga caggcgcacc     1080



cgggatgctc ttgggatcaa ggagggcacc gtggatgagt gggtcagatg ccacaacgac     1140



gaccaagagt tgccttacga gagcgagctg aagagtgtcg tcaagtacca ccggaacctg     1200



acgtccagag gctaccgagc catggtatac agcggcgacc atgacctgct ggtgccacat     1260



ctgggcaccc aggcctgggt caggtcgctc aacttccccg tcgtggacga ctggagggcg     1320



tggcatctcg gtggccagtc agctggattt acaataactt actcaaacaa catgacattc     1380



gcgacgatca agggcgccgg gcatacagca cctgagtacg agccggagag gtgtttcgcc     1440



atgttcagcc gttggatcct caaccggcca ctc                                  1473





<210>  765

<211>  1473

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  765

atgacgctgg tgaggatgcc ttgccgcctc tgctgcttcc tgctcgtcgt cgccgcctcc       60



gccgtctccg ggcgggggcg ggtggtcacc accctcccgg gctacgaggg ccgcctcccc      120



ttccacctcg aaacagggta tgtggaggtg gacgaggacg ccggcgcgga gctcttctac      180



tacttcgtcc gggccgagtc cggcgccgac gacagcgaca ccccgttcgt cctccggatc      240



cccggcggcc aacgctgctc cgccttcagc ggcctcgcct acgagatagg tcccatcatg      300



ttcgtcgtgg agccctacaa cggcagcttg ccgcgcctgc gctacaaccc aaactcgtgg      360



acaaaggtgg cgcatattct ttttgtggat tcgccagttg gggccgggtt ttccttctcc      420



agagatgcca aaggctacaa cgctggagcg gtatcaacca cgctgcactt ggcgaagttc      480



ctcaacaagt ggttcaacga ccatcctgag taccatgcaa atcctttcta catcgatgga      540



gaatcatacg ctggaaaaat tgtaccattc cttgcacaga tgatttcaga aggtattgga      600



gcaggaatga agtcggcacc tcgtctcaag ggctatctag tgggcaaccc gtccacagag      660



gagcgtattg atgttagcgc tagagtgcct tgtgctcacg ggtttgggat tatatcacat      720



cagttgtatg agatgatatt ggggcattgc catggagagg actactccaa tcctgcaaaa      780



gagttgtgtg gtcaggcact gaagaccttc aatgatctca cctcggaagt tgcgcaaggc      840



catgtactgc aggagaaatg cgtcgcggcg tcgtcgtctc ctgtgctgaa cgcaaacagc      900



agggtggccg gcggctcgtc gtcgtgggcc tcagatggca ggaagatcct acgggaggaa      960



gaaatggtgg gacgacgcgg agtactgggc aagctatttc atcccccggc attaccgccc     1020



ttttcatgca gagtttaccg gtactacctg tcgtatttct gggcaaacga caggcgcacc     1080



cgggatgctc ttgggatcaa ggagggcacc gtggatgagt gggtcagatg ccacaacgac     1140



gaccaagagt tgccttacga gagcgagctg aagagtgtcg tcaagtacca ccggaacctg     1200



acgtccagag gctaccgagc catggtatac agcggcgacc atgacctgct ggtgccacat     1260



ctgggcaccc aggcctgggt caggtcgctc aacttccccg tcgtggacga ctggagggcg     1320



tggcatctcg gtggccagtc agctggattt acaataactt actcaaacaa catgacattc     1380



gcgacgatca agggcgccgg gcatacagca cctgagtacg agccggagag gtgtttcgcc     1440



atgttcagcc gttggatcct caaccggcca ctc                                  1473





<210>  766

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  766

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgcg ccagcagtta      300



cataatctac aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720





<210>  767

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  767

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720





<210>  768

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  768

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720





<210>  769

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  769

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720





<210>  770

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  770

atggggaggg gaaagatcgt gatccgcagg atcgataact ccacgagccg gcaggtgacc       60



ttctccaagc gccggaacgg gatcttcaag aaggccaagg agctcgccat cctctgcgat      120



gcggaggtcg gcctcgtcat cttctccagc accggccgcc tctacgagta ctctagcacc      180



agcatgaaat cagttataga tcggtacggc aaggccaagg aagagcagca agacgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatta tcggcagttg acgggagatg atctttctgg gctgaatgtc      360



aaagaactgc agtccctgga gaatcaattg gaaacaagcc tgcgtggtgt ccgcgcaaag      420



aaggaccatc tcttgataga tgagattcac gatttgaatc gaaaggcaag tttatttcac      480



caagaaaata cagacttgta caataagatc aacctgattc gccaagaaaa tgatgagtta      540



cataaaaaga tctatgagac tgaaggacca agtggagtta atcgggagtc accgactcca      600



ttcaactttg cagtagtaga aaccagagat gttccagtgc aacttgaact cagcacactg      660



ccacaacaaa ataacattga gccatctact gctcctaagc taggattgca attaattcca      720





<210>  771

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  771

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgcg ccagcagtta      300



cataatctac aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720





<210>  772

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  772

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720





<210>  773

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  773

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720





<210>  774

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  774

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720





<210>  775

<211>  720

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  775

atggggaggg ggaagattgt gatccgccgg atcgacaact cgacgagccg gcaggtgacg       60



ttctcgaagc ggaggaacgg gatcttcaag aaggccaagg agctggccat cctctgcgac      120



gccgaggtcg gcctcatgat cttctccagc accggccgcc tctacgagta ctccagcacc      180



agcatgaagt cagttataga tcggtatggc aagtccaagg atgagcagca agccgtcgca      240



aatcccaact cggagcttaa gttttggcaa agggaggcag caagcttgag acagcagtta      300



cataatctac aagaaaatca tcggcagttg atgggcgaag atctatctgg gctgaatgtt      360



aaggaattgc aatctctaga gaatcagctg gaaataagtc tacgtagtgt ccgtacaaag      420



aaggaccacg tcttgattga tgaaattcat gaactgaatc ggaagggaag tctagttcac      480



caagaaaaca tggaattata caagaagatc agtttaattc gtcaagaaaa tgctgagtta      540



tataagaaga tctacgagac tgaaggacca agtgaagtca atcgggattc accaactcct      600



tacaattttg cagtaattga aaaaacaaat gttcctgtgc aacttggact cagcacacta      660



ccacaacata gtgacgccga acaatcaact gctcctaagc tagggttaca gttgaatcca      720





<210>  776

<211>  2217

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  776

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aagtactaca gggacaggag ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatc        2217





<210>  777

<211>  2217

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  777

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aggtactaca gggacaggag ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatc        2217





<210>  778

<211>  2217

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  778

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aagtcctaca gggacaggag ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatc        2217





<210>  779

<211>  2217

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  779

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aagtattgca gggacaggag ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatc        2217





<210>  780

<211>  2217

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  780

atggcgggga tcgacctcaa cgacaccgtg gaggaggacg aggaggaggc ggagcccggc       60



aaccccgcct gctcccagca aagccggacc agctccgcgg ccacgccccc acccccgccg      120



ctgaccccgc tgctccagcc gaggccgggc gccgcggtgt gcctcgagct ctggcacgcc      180



tgcgccggcc ccgtcgcgcc gctgccgcgg aaagggaccg tcgtcgtcta cctcccgcag      240



ggacacctgg agcacctcgg tgacgccgcc gcggccgcag ccggaggcgc gccggcgccc      300



gccgccctgc cgccccacgt cttctgccgc gtcgtcgacg tcactctcca tgcggacgcg      360



tccacggacg aggtgtacgc ccagctcgcc ctcgtcgccg agaacgagga tgtcgcgagg      420



cggctgcgcg gagggtccga ggacgggagc gctggggacg gcgacgacgg ggaggccgtg      480



aagcagcggt tctcgcggat gccgcacatg ttctgcaaga cgctcacggc ctccgacacc      540



agcacgcacg gcggcttctc cgtgccgcgc cgcgccgccg aggactgctt cccgcctctg      600



gactacagcc agcagcggcc gtcgcaggag cttgtcgcca aggatttgca cggaaccgag      660



tggaggttcc gccacattta tcgaggccag ccccgcaggc accttttaac cactggatgg      720



agtgcatttg tcaacaagaa gaagcttgtc tcaggggacg ctgtactatt tttgagaggt      780



gatgatgggg agctaagact tggagtgcgc cgtgcagctc agcttaaaaa tggatctgct      840



tttccagctc tttataatca gtgttctaat cttggttcac tagctaacgt agcacatgct      900



gtggccacaa aaagcgtgtt ccacatctac tacaacccca gattaagcca atctgaattc      960



attataccgt attcaaagtt tatgaagagc ttcagtcaac aattttctgc tggtttgagg     1020



ttcaaaatga gatatgagag tgatgatgct tctgaaagaa gatgcactgg ggtaatagca     1080



ggaattggtg atgctgaccc catgtggcgt ggttcgaagt ggaaatgttt gatggtccga     1140



tgggatgatg atgtagattt tcgtcgaccg aacaggattt ctccttggga gattgagctg     1200



actagttcag tttcaggatc ccatctgtct gcaccaaatg caaagagact caaaccatgt     1260



cttcccccgg actacctagt tccaaatgga agtggttgtc ctgattttgc ggaatctgcc     1320



caattccaca aagtactaca aggacaagag ttattgggtt atagaactcg tgacaatgct     1380



gctgttgcaa cttctcagcc atgtgaagca aggaacatgc agtacattga tgagcgaagt     1440



tgctccaata atgtgagtaa cagtatccca ggggttccta gaattggtgt cagaacacca     1500



ctaggaaacc ctaggttttc ctaccattgc tcaggctttg gggagtctcc aagattccaa     1560



aaggtcttgc aaggtcaaga agtatttcaa ccctaccgag gaactctagt cgatccaagt     1620



ttgagaaata gtggctttca tcagcaagat ggttctcatg tgcctactca agcgaataag     1680



tggcatccac agcttcatgg gtgtgctttt cgtgggacac aagcaccagc tattccatct     1740



caatcctcat cgccaccatc tgtcctaatg tttcaacgag ataatccaaa gatgtcccct     1800



tttgaatttg ggcattgtca catggataag aatgaggata tgcgtgcaat gtttggccat     1860



gctggaggta ttggaagaac tgagcaaaca atgatgctcc aggctcataa tgtttctgga     1920



ggaatgggaa atagagatgt gaccgttgag aaatttcagc ccactgttgc tgttggaagg     1980



gatggatcag acaacaggga agttaccaaa aatagttgca aaatatttgg catatctttg     2040



actgagaagg ttccagcaat caaagaaaag gactgtggtg ataccaacta tccatccccc     2100



ttcctgtctt tgaagcaaca cgtgccaaaa tcgctgggca acagttgtgc cactattcat     2160



gagcagaggc ctgttgttgg tagggtgatt gatgtttcaa cagtggatat gatgatc        2217





<210>  781

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  781

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtactac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  782

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  782

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaggtactac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  783

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  783

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtcctac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  784

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  784

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtattgc agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  785

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  785

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcccggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggg gttggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtactac aaggacaaga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  786

<211>  2106

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  786

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat ccgcacagca     1560



ggaatgtacc agcctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatc                                                                2106





<210>  787

<211>  2106

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  787

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat acgcacagca     1560



ggaatgtacc agcctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatc                                                                2106





<210>  788

<211>  2106

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  788

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat acgcacagca     1560



ggaatgtacc agcctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatc                                                                2106





<210>  789

<211>  2106

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  789

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat cagaacagca     1560



ggaatgtacc agcctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatc                                                                2106





<210>  790

<211>  2106

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  790

atggcgggca ttgacctcaa caccgtggag gaggaggacg aggaggaggc ggaggcggag       60



gcgccgcctg tggccgccag ggccggtggt ggcgccgtgt gtctggagct gtggcacgcg      120



tgcgcgggcc ccgtcgcgcc gctgccgcgc aagggcagcg ccgtcgtgta cctgccgcag      180



ggccacctcg agcacatcgg cggcgacgct gacgcggcgg gagcagcggt gccgccacac      240



gtgctctgcc gcgtcgtcga cgtcaccctc cacgcggacg gcgccaccga cgaggtgtac      300



gcgcgggtgt cgctgctgcc cgaggacgag gaggcggaga ggcgggcgcg ggcgcgggtt      360



cgggaggacg aggacgcgga tcgcgacggc gaggacgggg ccgccatgaa gccgctcgca      420



cggacgccgc acatgttctg caagacgctc acggcctctg acaccagcac gcacggcggc      480



ttctccgtgc cgcgccgcgc cgccgaggac tgcttcccgc cgctggacta cagccagcag      540



aggccgtctc aggagctcgt ggccaaggat ctacacggca cggagtggaa gttccgacat      600



atctaccgag gccagccacg aaggcatctc ttaaccactg gatggagtgc atttgttaat      660



aagaagaagc ttgtttctgg cgatgcagtt ctgttccttc gaggtgaaga tggagtgctt      720



cgactgggag tgcgccgagc agcccagcta aaaattgtaa ctcctattcc tgcactgcat      780



aaccagtgct caagccagac cactctggga aatgttgcac aagctgtggc cacgaggact      840



gttttccaca tttactacaa tcccaggtta agtcaatctg aattcattgt accctattgg      900



aagttcacca gaagcttgaa tcaaccaatt tctgttggaa tgagatgcag aatgcgatat      960



gaaagtgacg atgcttctga aagaaggtgc actgggataa taattggaag cagagaagct     1020



gagcctattt ggtatggttc aaaatggaaa tgcttggtgg ttagatggga tgatggtata     1080



gagtgccatt ggcccaatag ggtatctcct tgggagattg aggtcacagg atcagtttca     1140



ggatctcata tgtgcgctcc caattcaaaa cgtctgaaac catgcctccc tcaagttaat     1200



ccggagattg tgcttccaaa tggaagcgtt tcttcagatt ttgcgggatc tgtcagattc     1260



cacaaggtct tgcaaggtca agaattgttg ggtttgaaaa cccatgacgg tactgctatt     1320



tctgcttttc aggcaactga agcaagtaat ttgcagtaca gtgatgaacg tagtaacatg     1380



agtaacaata tcttagggat cccaaggctc ggtgttagat ctccaaatgg aatccctgga     1440



tttccctacc attgctcagg ctttggggaa tctcaaagat tccaaaaggt cttgcaaggt     1500



caagaagtgt ttcgtccttt ccgaggagga tgtttggctg atggccatat cagaacagca     1560



ggaatgtacc agcctaaatg gcctgcacca caagggtgtg attttccaca gccagcaaaa     1620



ccggtacttg tgttgcaagc atcctcccca tcatctgtgc tgatgtttcc acaaactggt     1680



tctaagataa ctccattgga atatgagtac agctgcctgg ataaggatga ggatggtaga     1740



tttgatagga ctgtccctac tcaagatatg ggaagaaaca atcaaacatt atctctttgg     1800



cctcatcttg tttccggcga agcaatagaa gaatgtactg gaactgagaa tatgcactct     1860



tctgtcagtg gtgcagagca tgaatcaaac aatgagagta cagttgaaaa tggctgcaaa     1920



atctttggta tctcattggc tgaaaagatc cgatcatgtg atgaagcaga ctcttgtagt     1980



gcaaaacgta attctgggct ccagccttcg aggtcacaaa tactaggcag ctgttgggcc     2040



actgttcatg agcacagatc tgttgttggc agggtggttg atgtctctgc aacggatatg     2100



atgatc                                                                2106





<210>  791

<211>  1848

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  791

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggcccg ccgattcgat      780



aaagtaaaaa tagtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggt                  1848





<210>  792

<211>  1848

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  792

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggccag acgattcgat      780



aaagtaaaaa tagtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggt                  1848





<210>  793

<211>  1848

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  793

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggccag acgattcgat      780



aaagtaaaaa tagtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggt                  1848





<210>  794

<211>  1848

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  794

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggccag acgattcgat      780



aaagtaaaaa tagtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggt                  1848





<210>  795

<211>  1848

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  795

atgggcacca cagcgcggcg cgagccgctg aagcagcgcg tgaaccgctg cctcctcaag       60



ctttccgacc gcgacacaga ggccatggcg gccgccgagc tcgaggccat cgcgcgcgcg      120



ctcgagcccg acgagctccc ggccttcgtc tcggccgtct ccgacgcgcg ccccaccgac      180



aagaccccgc tccgccgcca cgcgctgcgc gccctggcgc tcgtcgcggc gtcccacccg      240



cgcgacgccg tggccccgct cgtcccgcgc atcctcgccg ccgcgctccg ccgcgtccgg      300



gaccaggact cctccgtccg cgccgcgctc gtcgacaccg cgcgcgccgc ggcggcggcc      360



tccgcctccg cctccgccgc gctccggccc ctcacggacg cgctccttca cgagcaggac      420



cagtgcgcgc agctggcggc cgcgctcgcc acggccgccg ccgtcgaggc gtccgccgtc      480



accgccgacc tcgcttccta cctccacaag ctccaaccgc gcctcctcaa gttacttcgc      540



agcaatgcct tcaaggccaa gcccgcgctc atcaccctca tcggcgcctc cgcggccatg      600



gccggcgatg ccgaagtcac cgcctccatc ccgtgcctcc gcgatgcaat cgctagcgat      660



gactgggcag cgagaaaggc ggcggcggag gcgcttgctg cattggccct ggagcacacg      720



gatcttctca cgacctacaa atcctcttgc gttaccttct tcgaggccag acgattcgat      780



aaagtaaaaa tagtgcgaga gtcgatgaac cggatgattg aggcgtggaa ggagatcccg      840



ggtgctgaag aggacgagtg ctcctccgct ccgccaccag cgtcccaatc acaacgaaga      900



tcttctctta cagggagtgc aagtgatggg cgatatccag ctgcttcgct gggctcaaac      960



tctgttccat catcaacaag gaggagcaga ttacctgtga gcagatcatc tccgcctgat     1020



gtgtcaccca gtgtcaccaa aacaaatagt ccttcgtcca tcaggaacaa gaagctgtca     1080



ccaccttcat atcgcaaagt gcgccaagca aataattgtg actacaaggt tgagattgct     1140



gttgctccgg atgctacccc aatcaaagtg gtgactgagg agaagctact gaaaggaggc     1200



aatgtgagag acagactgga ggctaggaga acactcttcc aaggcagcga ggataggtca     1260



gccaagctgg ctggacacaa agcagggtca cgagttgttc cgtacgaggg cggtggtaat     1320



ttggaagaga tttcagaagt tgaaggtgga tcagaaaggt atacagttca taaggatgag     1380



agcttgtcag aaataaggac gcagctcctt cagattgaaa atcagcaaag cagtttactg     1440



gatcttctcc agaaatttat gggtaagtcc gagaatggta tgaattcttt ggagacaagg     1500



gtgcatgggc tggagatggc tttggatgag atctctcgtg atttggcctt ctcttcagga     1560



aggatgtcaa acagggagcc tgatgtaaag acgtgctgca ttctgagtcc aaaattctgg     1620



agaaggcaca atggtggtag gtcttcctca aggttttctg cctcagaccc agcaaacagc     1680



tcagacgaga gcagaacttc ttacaaatgg gagagacaga agtttgggct tcagggtggc     1740



tttgtcacaa acccattagc cgagccaaac atttcttcag tagggaaaac aatggttact     1800



caagaaggca ggaagaagga tacaacttta caaaagtcaa ggatgggt                  1848





<210>  796

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  796

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcgcggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggt gtcggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtactac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  797

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  797

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcgcggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggt gtcggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaggtactac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  798

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  798

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcgcggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggt gtcggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtcctac agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  799

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  799

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcgcggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggt gtcggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtattgc agggacagga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  800

<211>  2040

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  800

atggggattg atctcaacgc cgtgggggag gacgacccgg cgggcgcggt gtgcgcggag       60



ctgtggcacg cgtgcgcggg ggctggagtg gcgctgccgc ggcggggcag cgccgtggtg      120



tacctgcctc aggcgcacct cgcggcgggc ggctgcgacg gtggtggggt gtcggcgccg      180



gccccgccgc gcgtgccgcc gcacgtggtg tgtcgcgtcg tcgacgtcga gctacgcgcg      240



gatgcggcca cggacgaggt gtacgcgcgg cttgcgctgg tggcgatgga tacgatgttt      300



ggccgaaaca tcaatgatgg tgaaactgaa gagaagaatg gcgaggaaga ggatggcgac      360



ggagaaaaga agcacgcatc acacatgttc tgcaagacac tcacagcttc tgataccagc      420



acacatgggg gattctctgt tccacggcga gctgcagagg actgctttcc accattggac      480



tatgagcagc ttaggccttc ccaagagctt attgccaagg atttgcatgg catgaaatgg      540



aggttccgtc atatctatag aggtcaacct cgaaggcatc ttctgacaac tggatggagt      600



tcatttatca ataagaagaa actagtctca ggggatgcag tcttgtttct tagaggtaat      660



gatggtgagc taagattggg tgtgaggaga gcagttcaac tgaaaaatga agctctactt      720



gaagctgtca actgtactga ttcgaagcta cttatgctgt ctgctgtggc caattctttg      780



gacaacagaa gtatatttca catctgtttc aacccaaggg ttggtgcatc agaatttatt      840



gtgccgtatt gcaagttctt gaagagcttg aactatcact tttcagttgg aaccagattt      900



aaagttggct gcgagaatga agatgctaac gagaggtcct ttggattgat cataggtatt      960



agtgaagttg atcccataca ctggcctgga tcaaaatgga aatctctcct gataaagtgg     1020



gatggtgcta ctaagtacag ccaccagaat agagtatctc catgggacat cgagggagtt     1080



ggcagctcag tttcagttac tcaccgactt tcctcttctg tttcgaagcg aacaaaactg     1140



tgcttccctc caagcgattt ggacacgcca attctagatg gaaacggtcg tccagactca     1200



gtggaaactg aacgtttcca cagggtcttg caaggtcaag aattggtgca ctctagtatt     1260



catggtactg catgctctca ttcatcagat agccccagat gtcaaggctc ttatggcagg     1320



agattctctg ctgatgcgtg gaactgcaag atgaatgatg taatgagtgg gcctcgacac     1380



ctaaatgcca ctgggtttgc ttaccagccc ctaggcttca gtgaatctgt caaattctca     1440



gaagtactac aaggacaaga gatgtctcag gcggttcctt ccttcatgag atctgctttc     1500



aactctggca cgcagaatgg cagggttcga ccatttgatt atgtgcagag atcagatgca     1560



actcaaggat acgctctcca gcagtttaat ctgccagcaa cagaagtgca ttcgccctct     1620



tctgttctta tgtttaacca aaccatggta ccacatgctg agctagatgg tgcgaccaac     1680



cgtgaagaag tacatggcag caggtacttg tcatccaatg caatagggag agaagctgaa     1740



ccatggccat ccatgcagca gcaaagagcg agtgtaaatg gaagcgagcc tctcgacaca     1800



actgaagcct cagctcctgc aaggaacgct gaatctggat cggtcggcag gggcgcgggg     1860



cgaagcaact gtaagctttt tggtttctcc ctgactgaga agatccttgg aacggatggt     1920



ggtggtgtga aagaagggaa ctacgaagtg gaccgtcaaa ctccccgggt gctagacttg     1980



tttgggcacg gttctacgcc tggagctctg catgctctct gtgctgctcc cttgggaata     2040





<210>  801

<211>  1518

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  801

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ttaccacatg atcatttttg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaag                                                   1518





<210>  802

<211>  1518

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  802

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ctcccacatg atcatttttg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaag                                                   1518





<210>  803

<211>  1518

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  803

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ctcccacatg atcatttttg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaag                                                   1518





<210>  804

<211>  1518

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  804

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ctcccacatg atcatttttg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaag                                                   1518





<210>  805

<211>  1518

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  805

atggtggcgt cggccaaggg acggctcgtg tccgtgctcg cggtggcggc ggcgctcgcg       60



gccgtgctcc tctaccgcgc ccccttctcc aagagcttgg gcggcgaagg gtgcagcctc      120



ctcccacatg atcatttttg ggtcgccagc gaccgcgtcg tcacgctcgg ccgcgtcggc      180



cccgccgcag tggaggtcaa aggagggctc atcaacgcca tcgcggtcgg ggactaccgg      240



agcttcgtgc tccgccgtcc tctcctggac tacggggacg ccgtcatcat gcccggcctc      300



atcgacgtgc atgcccatct cgacgagcct ggacgtgccg agtgggaggg cttctctact      360



ggtacaagag cagctgcggc aggcgggata acgacgttgg tggatatgcc actcaacagc      420



ttcccgtcga cagtctctga agaaactctc aaactgaagc tggaagcagc tcaagataag      480



ctatatgttg atgttgggtt ctggggagga cttgtgccag agaacgcctt caacccaagt      540



gctttggagg gcctcctaaa tgcaggcgtt ttaggactca agtcttttat gtgcccctca      600



ggcatcaacg acttccccat gacaaattca actcatattg aggaaggatt ggttacactg      660



gcaaaataca agagaccttt acttatccat gcagaacgta tacctgaggc tgaggatgat      720



gatatgcgag aggatgaact agatcctcga tcctatatga cgtatctaaa gtctagacca      780



ccatcatggg aggaatcagc tatcagagat ctacaccgtg caatgaagga tacggagtcg      840



gggggtcggt ccgaaggagc tcatattcac attgttcatc tatcagatgc aaaaacttcc      900



ttggaactta tgaaggatgc taaacgcagt ggtgcaagtt tatcaataga aacatgccct      960



cattacctgg cattttcatc tgaagaagtt ccagatggcg atactcgctt taaatgttct     1020



cctcccatac gtgatgacac aaacagagaa aatctttgga aagctctact tgatggacac     1080



atagacatgc taagttcaga ccactcacca tcaactcctg atctcaaact aatggaggaa     1140



ggcaactttt taagggcatg gggaggcata tcatcattgc agtttgtcct cccggtaaca     1200



tggtcatatg ggcgaaagta cggcattact ctgaatcagc tatcctcatg gtggagcgaa     1260



aatccagcca agcttgcagg ccaaaagaac aagggagcta ttctaccagg ataccatgct     1320



gacatagtag tatggaaacc cgaaactgag ttccaactcg atgacagcca tgttatatat     1380



cataaacatc agaatatttc ggcgtatcta ggaaagcaac tttctggtaa ggtcctgtca     1440



acttttgtga gaggaaacct tgtgtttgct gaagacaagc atgcaaatgt tgcttgtggt     1500



gttcctatcc tcgctaag                                                   1518





<210>  806

<211>  1638

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  806

atgttcgcca cctttctcct gctgctgtgg tcccatgccc cggcgccggc gctctcgctg       60



ccgccgcgcc ctccggtacg ctgcagcgat ggcgggacca cgggctgcgt gctctccaac      120



gcctacggcg cgtggtcgag cgaccgcgcc gactgccccg tctcctccgt cgcgtacccg      180



gcgtccgagc aggaggtggt cgcggccgtg gcgcgcgcca gcgccagcgg cgcccgcgtc      240



aaggtcgtga gcggcttcgc gcacaccatt ccgaagctcg cctgccccgg cggcggcaac      300



ggcactacca ccaccctgct catcagcctc acggcggcgc cgtactggga gggcgtcagc      360



gtcgcggggc tcgtgagcac agggtcccac ggcagctcgt ggtggggccg cggcggtgca      420



gtacatgatc atgtagtagg gctcaggctc gtcgttaccg ccggggaggc tgacggctgg      480



gccagggtcc tgacgctgcg cagaggcgac gagctcttcc cggctgcgct tgtctcgctc      540



gggctgcttg gggtcgtctc caagatcacg ctgtcactgg aaccgaggtt caagcgcagc      600



atcaccttcg actacaggaa cgattccacc ttccaggacg acttcgccgc tcacgcggcg      660



agccacgagt tcgccgacat cacctggtac ccgtcccagc acacggccgt gtaccgcatc      720



gacgaccgcg cgccggccaa cgcgcctggg gacggcgtca acgacttcat cggcttccag      780



gcgacgccca tcgctgtcac cgccgggctc agagtggtag aaacttcact ggagcggtcc      840



aagaacatga agggcaagtg tgcgatggcg gcggcggagg gcgtggcgaa gcggctggtc      900



ggcaacgggc tgaagaacaa cggcctgctg ttcacggggt accccgtggt ggggtaccag      960



gggaagatgc agacgtcggg ctcctgcgcg cgctcctcgg cggcggacct gctcagcgcg     1020



tgcgggtggg atcccaggtt ccacggcctc ttcttctacg agagcacggc gatcttctcg     1080



ccggcccggt tccgggactt catcctcgac gtgaagcgcc tgcgggacct cgccggctcg     1140



gacagcctct gcggcgtcga cgtgtacaac ggcctcctgg tccggttcgt gaaggcgtcc     1200



gcggcgcacc tcggccagcc ggaggactcc gtcgtggtgg acttcaacta ttaccgcgcg     1260



tcggactcgg cggcgccgcg gctgagccag gacgtgtggg aggaggtgga gcagctggcg     1320



ttcgtcaagc acggcgccag gccacactgg gccaagaacc gtttggtggc gttcgccggc     1380



gtgcggggca agtacccgcg gtggggccag tttgcggcgg ctaagcggca gctggacccc     1440



cggggcttgt tcgacagccc gtggtcggac gaggtcgtcg gcggggtgga gctggccaag     1500



ggcgacgggt gcgcgctgga cggccggtgc gtgtgctccg aggacaggca ctgcagcccc     1560



gagcaggggt actactgcag gccggggctc gtgtttacgg acgccagggt ctgcaggtac     1620



tcggggtcgc agaaccag                                                   1638





<210>  807

<211>  1638

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  807

atgttcgcca cctttctcct gctgctgtgg tcccatgccc cggcgccggc gctctcgctg       60



ccgccgcgcc ctccggtacg ctgcagcgat ggcgggacca cgggctgcgt gctctccaac      120



gcctacggcg cgtggtcgag cgaccgcgcc gactgccccg tctcctccgt cgcgtacccg      180



gcgtccgagc aggaggtggt cgcggccgtg gcgcgcgcca gcgccagcgg cgcccgcgtc      240



aaggtcgtga gcggcttcgc gcacaccatt ccgaagctcg cctgccccgg cggcggcaac      300



ggcactacca ccaccctgct catcagcctc acggcggcgc cgtactggga gggcgtcagc      360



gtcgcggggc tcgtgagcac agggtcccac ggcagctcgt ggtggggccg cggcggtgcc      420



gtacatgatc atgtagtagg gctcaggctc gtcgttaccg ccggggaggc tgacggctgg      480



gccagggtcc tgacgctgcg cagaggcgac gagctcttcc cggctgcgct tgtctcgctc      540



gggctgcttg gggtcgtctc caagatcacg ctgtcactgg aaccgaggtt caagcgcagc      600



atcaccttcg actacaggaa cgattccacc ttccaggacg acttcgccgc tcacgcggcg      660



agccacgagt tcgccgacat cacctggtac ccgtcccagc acacggccgt gtaccgcatc      720



gacgaccgcg cgccggccaa cgcgcctggg gacggcgtca acgacttcat cggcttccag      780



gcgacgccca tcgctgtcac cgccgggctc agagtggtag aaacttcact ggagcggtcc      840



aagaacatga agggcaagtg tgcgatggcg gcggcggagg gcgtggcgaa gcggctggtc      900



ggcaacgggc tgaagaacaa cggcctgctg ttcacggggt accccgtggt ggggtaccag      960



gggaagatgc agacgtcggg ctcctgcgcg cgctcctcgg cggcggacct gctcagcgcg     1020



tgcgggtggg atcccaggtt ccacggcctc ttcttctacg agagcacggc gatcttctcg     1080



ccggcccggt tccgggactt catcctcgac gtgaagcgcc tgcgggacct cgccggctcg     1140



gacagcctct gcggcgtcga cgtgtacaac ggcctcctgg tccggttcgt gaaggcgtcc     1200



gcggcgcacc tcggccagcc ggaggactcc gtcgtggtgg acttcaacta ttaccgcgcg     1260



tcggactcgg cggcgccgcg gctgagccag gacgtgtggg aggaggtgga gcagctggcg     1320



ttcgtcaagc acggcgccag gccacactgg gccaagaacc gtttggtggc gttcgccggc     1380



gtgcggggca agtacccgcg gtggggccag tttgcggcgg ctaagcggca gctggacccc     1440



cggggcttgt tcgacagccc gtggtcggac gaggtcgtcg gcggggtgga gctggccaag     1500



ggcgacgggt gcgcgctgga cggccggtgc gtgtgctccg aggacaggca ctgcagcccc     1560



gagcaggggt actactgcag gccggggctc gtgtttacgg acgccagggt ctgcaggtac     1620



tcggggtcgc agaaccag                                                   1638





<210>  808

<211>  1638

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  808

atgttcgcca cctttctcct gctgctgtgg tcccatgccc cggcgccggc gctctcgctg       60



ccgccgcgcc ctccggtacg ctgcagcgat ggcgggacca cgggctgcgt gctctccaac      120



gcctacggcg cgtggtcgag cgaccgcgcc gactgccccg tctcctccgt cgcgtacccg      180



gcgtccgagc aggaggtggt cgcggccgtg gcgcgcgcca gcgccagcgg cgcccgcgtc      240



aaggtcgtga gcggcttcgc gcacaccatt ccgaagctcg cctgccccgg cggcggcaac      300



ggcactacca ccaccctgct catcagcctc acggcggcgc cgtactggga gggcgtcagc      360



gtcgcggggc tcgtgagcac agggtcccac ggcagctcgt ggtggggccg cggcggtgcc      420



gtacatgatc atgtagtagg gctcaggctc gtcgttaccg ccggggaggc tgacggctgg      480



gccagggtcc tgacgctgcg cagaggcgac gagctcttcc cggctgcgct tgtctcgctc      540



gggctgcttg gggtcgtctc caagatcacg ctgtcactgg aaccgaggtt caagcgcagc      600



atcaccttcg actacaggaa cgattccacc ttccaggacg acttcgccgc tcacgcggcg      660



agccacgagt tcgccgacat cacctggtac ccgtcccagc acacggccgt gtaccgcatc      720



gacgaccgcg cgccggccaa cgcgcctggg gacggcgtca acgacttcat cggcttccag      780



gcgacgccca tcgctgtcac cgccgggctc agagtggtag aaacttcact ggagcggtcc      840



aagaacatga agggcaagtg tgcgatggcg gcggcggagg gcgtggcgaa gcggctggtc      900



ggcaacgggc tgaagaacaa cggcctgctg ttcacggggt accccgtggt ggggtaccag      960



gggaagatgc agacgtcggg ctcctgcgcg cgctcctcgg cggcggacct gctcagcgcg     1020



tgcgggtggg atcccaggtt ccacggcctc ttcttctacg agagcacggc gatcttctcg     1080



ccggcccggt tccgggactt catcctcgac gtgaagcgcc tgcgggacct cgccggctcg     1140



gacagcctct gcggcgtcga cgtgtacaac ggcctcctgg tccggttcgt gaaggcgtcc     1200



gcggcgcacc tcggccagcc ggaggactcc gtcgtggtgg acttcaacta ttaccgcgcg     1260



tcggactcgg cggcgccgcg gctgagccag gacgtgtggg aggaggtgga gcagctggcg     1320



ttcgtcaagc acggcgccag gccacactgg gccaagaacc gtttggtggc gttcgccggc     1380



gtgcggggca agtacccgcg gtggggccag tttgcggcgg ctaagcggca gctggacccc     1440



cggggcttgt tcgacagccc gtggtcggac gaggtcgtcg gcggggtgga gctggccaag     1500



ggcgacgggt gcgcgctgga cggccggtgc gtgtgctccg aggacaggca ctgcagcccc     1560



gagcaggggt actactgcag gccggggctc gtgtttacgg acgccagggt ctgcaggtac     1620



tcggggtcgc agaaccag                                                   1638





<210>  809

<211>  1638

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  809

atgttcgcca cctttctcct gctgctgtgg tcccatgccc cggcgccggc gctctcgctg       60



ccgccgcgcc ctccggtacg ctgcagcgat ggcgggacca cgggctgcgt gctctccaac      120



gcctacggcg cgtggtcgag cgaccgcgcc gactgccccg tctcctccgt cgcgtacccg      180



gcgtccgagc aggaggtggt cgcggccgtg gcgcgcgcca gcgccagcgg cgcccgcgtc      240



aaggtcgtga gcggcttcgc gcacaccatt ccgaagctcg cctgccccgg cggcggcaac      300



ggcactacca ccaccctgct catcagcctc acggcggcgc cgtactggga gggcgtcagc      360



gtcgcggggc tcgtgagcac agggtcccac ggcagctcgt ggtggggccg cggcggtgcc      420



gtacatgatc atgtagtagg gctcaggctc gtcgttaccg ccggggaggc tgacggctgg      480



gccagggtcc tgacgctgcg cagaggcgac gagctcttcc cggctgcgct tgtctcgctc      540



gggctgcttg gggtcgtctc caagatcacg ctgtcactgg aaccgaggtt caagcgcagc      600



atcaccttcg actacaggaa cgattccacc ttccaggacg acttcgccgc tcacgcggcg      660



agccacgagt tcgccgacat cacctggtac ccgtcccagc acacggccgt gtaccgcatc      720



gacgaccgcg cgccggccaa cgcgcctggg gacggcgtca acgacttcat cggcttccag      780



gcgacgccca tcgctgtcac cgccgggctc agagtggtag aaacttcact ggagcggtcc      840



aagaacatga agggcaagtg tgcgatggcg gcggcggagg gcgtggcgaa gcggctggtc      900



ggcaacgggc tgaagaacaa cggcctgctg ttcacggggt accccgtggt ggggtaccag      960



gggaagatgc agacgtcggg ctcctgcgcg cgctcctcgg cggcggacct gctcagcgcg     1020



tgcgggtggg atcccaggtt ccacggcctc ttcttctacg agagcacggc gatcttctcg     1080



ccggcccggt tccgggactt catcctcgac gtgaagcgcc tgcgggacct cgccggctcg     1140



gacagcctct gcggcgtcga cgtgtacaac ggcctcctgg tccggttcgt gaaggcgtcc     1200



gcggcgcacc tcggccagcc ggaggactcc gtcgtggtgg acttcaacta ttaccgcgcg     1260



tcggactcgg cggcgccgcg gctgagccag gacgtgtggg aggaggtgga gcagctggcg     1320



ttcgtcaagc acggcgccag gccacactgg gccaagaacc gtttggtggc gttcgccggc     1380



gtgcggggca agtacccgcg gtggggccag tttgcggcgg ctaagcggca gctggacccc     1440



cggggcttgt tcgacagccc gtggtcggac gaggtcgtcg gcggggtgga gctggccaag     1500



ggcgacgggt gcgcgctgga cggccggtgc gtgtgctccg aggacaggca ctgcagcccc     1560



gagcaggggt actactgcag gccggggctc gtgtttacgg acgccagggt ctgcaggtac     1620



tcggggtcgc agaaccag                                                   1638





<210>  810

<211>  1638

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  810

atgttcgcca cctttctcct gctgctgtgg tcccatgccc cggcgccggc gctctcgctg       60



ccgccgcgcc ctccggtacg ctgcagcgat ggcgggacca cgggctgcgt gctctccaac      120



gcctacggcg cgtggtcgag cgaccgcgcc gactgccccg tctcctccgt cgcgtacccg      180



gcgtccgagc aggaggtggt cgcggccgtg gcgcgcgcca gcgccagcgg cgcccgcgtc      240



aaggtcgtga gcggcttcgc gcacaccatt ccgaagctcg cctgccccgg cggcggcaac      300



ggcactacca ccaccctgct catcagcctc acggcggcgc cgtactggga gggcgtcagc      360



gtcgcggggc tcgtgagcac agggtcccac ggcagctcgt ggtggggccg cggcggtgca      420



gtgcatgatc atgtggtggg gctcaggctc gtcgttaccg ccggggaggc tgacggctgg      480



gccagggtcc tgacgctgcg cagaggcgac gagctcttcc cggctgcgct tgtctcgctc      540



gggctgcttg gggtcgtctc caagatcacg ctgtcactgg aaccgaggtt caagcgcagc      600



atcaccttcg actacaggaa cgattccacc ttccaggacg acttcgccgc tcacgcggcg      660



agccacgagt tcgccgacat cacctggtac ccgtcccagc acacggccgt gtaccgcatc      720



gacgaccgcg cgccggccaa cgcgcctggg gacggcgtca acgacttcat cggcttccag      780



gcgacgccca tcgctgtcac cgccgggctc agagtggtag aaacttcact ggagcggtcc      840



aagaacatga agggcaagtg tgcgatggcg gcggcggagg gcgtggcgaa gcggctggtc      900



ggcaacgggc tgaagaacaa cggcctgctg ttcacggggt accccgtggt ggggtaccag      960



gggaagatgc agacgtcggg ctcctgcgcg cgctcctcgg cggcggacct gctcagcgcg     1020



tgcgggtggg atcccaggtt ccacggcctc ttcttctacg agagcacggc gatcttctcg     1080



ccggcccggt tccgggactt catcctcgac gtgaagcgcc tgcgggacct cgccggctcg     1140



gacagcctct gcggcgtcga cgtgtacaac ggcctcctgg tccggttcgt gaaggcgtcc     1200



gcggcgcacc tcggccagcc ggaggactcc gtcgtggtgg acttcaacta ttaccgcgcg     1260



tcggactcgg cggcgccgcg gctgagccag gacgtgtggg aggaggtgga gcagctggcg     1320



ttcgtcaagc acggcgccag gccacactgg gccaagaacc gtttggtggc gttcgccggc     1380



gtgcggggca agtacccgcg gtggggccag tttgcggcgg ctaagcggca gctggacccc     1440



cggggcttgt tcgacagccc gtggtcggac gaggtcgtcg gcggggtgga gctggccaag     1500



ggcgacgggt gcgcgctgga cggccggtgc gtgtgctccg aggacaggca ctgcagcccc     1560



gagcaggggt actactgcag gccggggctc gtgtttacgg acgccagggt ctgcaggtac     1620



tcggggtcgc agaaccag                                                   1638





<210>  811

<211>  1104

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  811

atggtcatgg gagccagcgg ctccaagctt gagaaggccc tcggtgacca gttcccggaa       60



ggcgagcgct acttcggcct cgagaacttc ggcaacacat gttattgtaa ttcagtatta      120



caggcactct atttttgcat tccatttagg gagcagttac tggaatatta tgcaaataac      180



aaaactccag gtgacgctga agaaaatctt ttgacctgtt tggccgacct ttttatgcag      240



ataagccaag caaagaaaaa gactggcgtt attgctccaa aacgttttgt tcagagagtg      300



aagaaacaga atgagttgtt tcgcagctac atgcaccagg atgcacacga gttcttaaat      360



ttccttttga atgaacttgt tgatattctg gaaaaagagt caagtgctgc caaggattca      420



ccccaattgt catctcctga aaaagctcca aatggcccag ttcaaccttt agccaatgga      480



gttaaaaaag aacctccagt tactctggtc cataaaaatt tccagggcat attgaccaac      540



gaaacaagat gcttaagatg tgaaacagta actgcaaggg atgaaacatt tcttgatctt      600



agtgttgaca ttgaacaaaa tagttctatc acaagctgcc tgaaaaattt ctgttctact      660



gagactttaa atgcagagga taaattcttc tgcgacaaat gctgcagttt gcaagaagca      720



cagaagagaa tgaagatcaa gaaggctccc cacatattgg tgatccatct aaagcgtttc      780



aagtacattg agcagcttgg ccggtataag aagctttcat accgggttgt attccccatg      840



gaactgaagc tcagtaatac atccgacgat gtagacactg agtactccct ctttgctgtc      900



gtggtccatg tcggaagtgg ccccaaccat gggcattatg taagccttgt caaaagccac      960



aaccactggt tgttcttcga cgacgaaaac gtcgagatgg ttgaagagca gaccctacaa     1020



acattcttcg gttcctcaca tgaatactca ggaaacacag accatgggta tatcttattt     1080



tacgaggggc ttggcgggaa gagt                                            1104





<210>  812

<211>  1104

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  812

atggtcatgg gagccagcgg ctccaagctt gagaaggccc tcggtgacca gttcccggaa       60



ggcgagcgct acttcggcct cgagaacttc ggcaacacct gttattgtaa ttcagtatta      120



caggcactct atttttgcat tccatttagg gagcagttac tggaatatta tgcaaataac      180



aaaactccag gtgacgctga agaaaatctt ttgacctgtt tggccgacct ttttatgcag      240



ataagccaag caaagaaaaa gactggcgtt attgctccaa aacgttttgt tcagagagtg      300



aagaaacaga atgagttgtt tcgcagctac atgcaccagg atgcacacga gttcttaaat      360



ttccttttga atgaacttgt tgatattctg gaaaaagagt caagtgctgc caaggattca      420



ccccaattgt catctcctga aaaagctcca aatggcccag ttcaaccttt agccaatgga      480



gttaaaaaag aacctccagt tactctggtc cataaaaatt tccagggcat attgaccaac      540



gaaacaagat gcttaagatg tgaaacagta actgcaaggg atgaaacatt tcttgatctt      600



agtgttgaca ttgaacaaaa tagttctatc acaagctgcc tgaaaaattt ctgttctact      660



gagactttaa atgcagagga taaattcttc tgcgacaaat gctgcagttt gcaagaagca      720



cagaagagaa tgaagatcaa gaaggctccc cacatattgg tgatccatct aaagcgtttc      780



aagtacattg agcagcttgg ccggtataag aagctttcat accgggttgt attccccatg      840



gaactgaagc tcagtaatac atccgacgat gtagacactg agtactccct ctttgctgtc      900



gtggtccatg tcggaagtgg ccccaaccat gggcattatg taagccttgt caaaagccac      960



aaccactggt tgttcttcga cgacgaaaac gtcgagatgg ttgaagagca gaccctacaa     1020



acattcttcg gttcctcaca tgaatactca ggaaacacag accatgggta tatcttattt     1080



tacgaggggc ttggcgggaa gagt                                            1104





<210>  813

<211>  1104

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  813

atggtcatgg gagccagcgg ctccaagctt gagaaggccc tcggtgacca gttcccggaa       60



ggcgagcgct acttcggcct cgagaacttc ggcaacacct gttattgtaa ttcagtatta      120



caggcactct atttttgcat tccatttagg gagcagttac tggaatatta tgcaaataac      180



aaaactccag gtgacgctga agaaaatctt ttgacctgtt tggccgacct ttttatgcag      240



ataagccaag caaagaaaaa gactggcgtt attgctccaa aacgttttgt tcagagagtg      300



aagaaacaga atgagttgtt tcgcagctac atgcaccagg atgcacacga gttcttaaat      360



ttccttttga atgaacttgt tgatattctg gaaaaagagt caagtgctgc caaggattca      420



ccccaattgt catctcctga aaaagctcca aatggcccag ttcaaccttt agccaatgga      480



gttaaaaaag aacctccagt tactctggtc cataaaaatt tccagggcat attgaccaac      540



gaaacaagat gcttaagatg tgaaacagta actgcaaggg atgaaacatt tcttgatctt      600



agtgttgaca ttgaacaaaa tagttctatc acaagctgcc tgaaaaattt ctgttctact      660



gagactttaa atgcagagga taaattcttc tgcgacaaat gctgcagttt gcaagaagca      720



cagaagagaa tgaagatcaa gaaggctccc cacatattgg tgatccatct aaagcgtttc      780



aagtacattg agcagcttgg ccggtataag aagctttcat accgggttgt attccccatg      840



gaactgaagc tcagtaatac atccgacgat gtagacactg agtactccct ctttgctgtc      900



gtggtccatg tcggaagtgg ccccaaccat gggcattatg taagccttgt caaaagccac      960



aaccactggt tgttcttcga cgacgaaaac gtcgagatgg ttgaagagca gaccctacaa     1020



acattcttcg gttcctcaca tgaatactca ggaaacacag accatgggta tatcttattt     1080



tacgaggggc ttggcgggaa gagt                                            1104





<210>  814

<211>  1104

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  814

atggtcatgg gagccagcgg ctccaagctt gagaaggccc tcggtgacca gttcccggaa       60



ggcgagcgct acttcggcct cgagaacttc ggcaacacct gttattgtaa ttcagtatta      120



caggcactct atttttgcat tccatttagg gagcagttac tggaatatta tgcaaataac      180



aaaactccag gtgacgctga agaaaatctt ttgacctgtt tggccgacct ttttatgcag      240



ataagccaag caaagaaaaa gactggcgtt attgctccaa aacgttttgt tcagagagtg      300



aagaaacaga atgagttgtt tcgcagctac atgcaccagg atgcacacga gttcttaaat      360



ttccttttga atgaacttgt tgatattctg gaaaaagagt caagtgctgc caaggattca      420



ccccaattgt catctcctga aaaagctcca aatggcccag ttcaaccttt agccaatgga      480



gttaaaaaag aacctccagt tactctggtc cataaaaatt tccagggcat attgaccaac      540



gaaacaagat gcttaagatg tgaaacagta actgcaaggg atgaaacatt tcttgatctt      600



agtgttgaca ttgaacaaaa tagttctatc acaagctgcc tgaaaaattt ctgttctact      660



gagactttaa atgcagagga taaattcttc tgcgacaaat gctgcagttt gcaagaagca      720



cagaagagaa tgaagatcaa gaaggctccc cacatattgg tgatccatct aaagcgtttc      780



aagtacattg agcagcttgg ccggtataag aagctttcat accgggttgt attccccatg      840



gaactgaagc tcagtaatac atccgacgat gtagacactg agtactccct ctttgctgtc      900



gtggtccatg tcggaagtgg ccccaaccat gggcattatg taagccttgt caaaagccac      960



aaccactggt tgttcttcga cgacgaaaac gtcgagatgg ttgaagagca gaccctacaa     1020



acattcttcg gttcctcaca tgaatactca ggaaacacag accatgggta tatcttattt     1080



tacgaggggc ttggcgggaa gagt                                            1104





<210>  815

<211>  1104

<212>  DNA

<213>  Artificial sequence



<220>

<223>  miRNA-Resistant target example



<400>  815

atggtcatgg gagccagcgg ctccaagctt gagaaggccc tcggtgacca gttcccggaa       60



ggcgagcgct acttcggcct cgagaacttc ggcaacacat gctattgcaa ttcagtatta      120



caggcactct atttttgcat tccatttagg gagcagttac tggaatatta tgcaaataac      180



aaaactccag gtgacgctga agaaaatctt ttgacctgtt tggccgacct ttttatgcag      240



ataagccaag caaagaaaaa gactggcgtt attgctccaa aacgttttgt tcagagagtg      300



aagaaacaga atgagttgtt tcgcagctac atgcaccagg atgcacacga gttcttaaat      360



ttccttttga atgaacttgt tgatattctg gaaaaagagt caagtgctgc caaggattca      420



ccccaattgt catctcctga aaaagctcca aatggcccag ttcaaccttt agccaatgga      480



gttaaaaaag aacctccagt tactctggtc cataaaaatt tccagggcat attgaccaac      540



gaaacaagat gcttaagatg tgaaacagta actgcaaggg atgaaacatt tcttgatctt      600



agtgttgaca ttgaacaaaa tagttctatc acaagctgcc tgaaaaattt ctgttctact      660



gagactttaa atgcagagga taaattcttc tgcgacaaat gctgcagttt gcaagaagca      720



cagaagagaa tgaagatcaa gaaggctccc cacatattgg tgatccatct aaagcgtttc      780



aagtacattg agcagcttgg ccggtataag aagctttcat accgggttgt attccccatg      840



gaactgaagc tcagtaatac atccgacgat gtagacactg agtactccct ctttgctgtc      900



gtggtccatg tcggaagtgg ccccaaccat gggcattatg taagccttgt caaaagccac      960



aaccactggt tgttcttcga cgacgaaaac gtcgagatgg ttgaagagca gaccctacaa     1020



acattcttcg gttcctcaca tgaatactca ggaaacacag accatgggta tatcttattt     1080



tacgaggggc ttggcgggaa gagt                                            1104





<210>  816

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  816

attcacgggg acgaacctcc t                                                 21





<210>  817

<211>  21

<212>  DNA

<213>  Zea Mays



<400>  817

tagccaggga tgatttgcct g                                                 21





<210>  818

<211>  21

<212>  DNA

<213>  Zea Mays



<400>  818

tagccaggga tgatttgcct g                                                 21





<210>  819

<211>  21

<212>  DNA

<213>  Zea Mays



<400>  819

ggaatcttga tgatgctgca t                                                 21





<210>  820

<211>  21

<212>  DNA

<213>  Zea Mays



<400>  820

ttagatgacc atcagcaaac a                                                 21





<210>  821

<211>  21

<212>  DNA

<213>  Zea mays



<400>  821

agaagagaga gagtacagcc t                                                 21





<210>  822

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  822

gggttgtgct cctatctctc ttct                                              24





<210>  823

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  823

cgtctgtgtt ctctactctc tcaag                                             25





<210>  824

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  824

ccggcaagtc actatcctgg ctca                                              24





<210>  825

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  825

aggaggttcg tctaccccgt gaat                                              24





<210>  826

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  826

gagttccccc actaaacact tcat                                              24





<210>  827

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  827

cttagccagg actaaggctc acca                                              24





<210>  828

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  828

tggctgctcc ctcgctattt tccgtga                                           27





<210>  829

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  829

tcccgccgat tctatcccct cagg                                              24





<210>  830

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  830

gagttccccc actaaacact tcac                                              24





<210>  831

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  831

tcccagcccg ctatcccccg gcc                                               23





<210>  832

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  832

tttcaattcg gctcctaagt ctttttt                                           27





<210>  833

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  833

tactccttcc gtttctacgt tttagtt                                           27





<210>  834

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  834

ctctctttct tcatctataa actcctt                                           27





<210>  835

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  835

ccgtcctact cctactaaaa gcacctt                                           27





<210>  836

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  836

gccattccgt tctactaatt cctttgt                                           27





<210>  837

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  837

agcctcctca gtgtctacgt catcagt                                           27





<210>  838

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  838

cggagccgtt ccatctatcc tgattct                                           27





<210>  839

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  839

tagagccgtt ccatctaccc tgattct                                           27





<210>  840

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  840

aacggcttcg gctcctatgg ttcctct                                           27





<210>  841

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  841

cgtcctcttc tcgcctaccg tgactct                                           27





<210>  842

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  842

aaaccgcccg ctcactatct aggtcct                                           27





<210>  843

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  843

attctccgtc tccactagca gcgtcct                                           27





<210>  844

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  844

tcatcaacgt cctcctacac cttgcct                                           27





<210>  845

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  845

tccccttgtc accactaaat cagccct                                           27





<210>  846

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  846

accccttcaa accgctaaac aagccct                                           27





<210>  847

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  847

ggtccatacc tcctctaccc tttatat                                           27





<210>  848

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  848

acctgtctcc tccactagct gaccgat                                           27





<210>  849

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  849

ccttcttcgc agccctagtt gaaagat                                           27





<210>  850

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  850

agttggatca tagtctactc ttaccat                                           27





<210>  851

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  851

atgccccgat ccagctatac aaaattg                                           27





<210>  852

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  852

acggcttcgg ctctctaggt tcctctg                                           27





<210>  853

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  853

gtgctcttct tcccctatgt ccagccg                                           27





<210>  854

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  854

gagccgttcc atccctacta attctag                                           27





<210>  855

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  855

aaagcctcca tctcctatcc aagtttc                                           27





<210>  856

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  856

accagatccg ctccctactt ctctctc                                           27





<210>  857

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  857

ccgtgttgtc cccactagtt atccctc                                           27





<210>  858

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  858

gcaacactcc ccatctaccc actccgc                                           27





<210>  859

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  859

acctctccac caatctaccc gtgcagc                                           27





<210>  860

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  860

ccagcagtct ccgcctaatc cgtctcc                                           27





<210>  861

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  861

ggtcctctac gctcctatcc agcagcc                                           27





<210>  862

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  862

ccccttcact cgctctactc aaaaccc                                           27





<210>  863

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  863

tccacctcaa tccactaccc caatacc                                           27





<210>  864

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  864

ttgagctcct cttgctacat cgccacc                                           27





<210>  865

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  865

atccccctca atccctaact cctaacc                                           27





<210>  866

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  866

accacatgct cttactagtc acttgac                                           27





<210>  867

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  867

tcccctcaat ctccctatcc attccac                                           27





<210>  868

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  868

acgtcctcta ctctctactc cagcaac                                           27





<210>  869

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  869

ctcccctggt tctgctacct tcagcca                                           27





<210>  870

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  870

gtcctgttct tcctctactc taccaca                                           27





<210>  871

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  871

ccgtcggaaa taaactagag agtccct                                           27





<210>  872

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  872

ccgcgctccc aggactaaac gaaccct                                           27





<210>  873

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  873

gccgttccat ccctctagat tctagga                                           27





<210>  874

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  874

gcgccatcga acagctaaga gctccca                                           27





<210>  875

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  875

atatcgcgct gctactacct tcgtctt                                           27





<210>  876

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  876

gtccatctca ctgcctaccc gtttctt                                           27





<210>  877

<211>  28

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  877

aattcaattc ggctcctaaa tcttttct                                          28





<210>  878

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  878

cctccttctc tcatctacag tctggct                                           27





<210>  879

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  879

cccaccatta gcctatacag gctct                                             25





<210>  880

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  880

cgtcctctac ccttctacca acaacgt                                           27





<210>  881

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  881

tgtgtcgttc ttagctagcc gctacct                                           27





<210>  882

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  882

aggcagcaac tctagcataa cttg                                              24





<210>  883

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  883

caccatctct tcctactcca ttctg                                             25





<210>  884

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  884

ggggcgacct gctaagaaca catg                                              24





<210>  885

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  885

agccgttccg ttccctaagt atatagg                                           27





<210>  886

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  886

gggcaacctt ctctctactc cacagat                                           27





<210>  887

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  887

atactgcatg gcctacccct gacat                                             25





<210>  888

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  888

gggccggccc ggcactacag tcaggat                                           27





<210>  889

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  889

aagccgttcc gttcctacag tatatag                                           27





<210>  890

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  890

agctttctct acctaggcga actcg                                             25





<210>  891

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  891

gctcgctcca gactctacga tctcgtc                                           27





<210>  892

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  892

tccctagtcc ctctacccca tactc                                             25





<210>  893

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  893

aaccctcctt cgtcctacga atcagtc                                           27





<210>  894

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  894

tgtgcttcgt ttactagtgt tcagac                                            26





<210>  895

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  895

gtcctctacc cttcctacaa caacgtc                                           27





<210>  896

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  896

ggccggcccg tgaactacta cagtagc                                           27





<210>  897

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  897

cctctcctga gcctctacta tttcgtc                                           27





<210>  898

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  898

ccccatcgcc aactatcacg aatcc                                             25





<210>  899

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  899

tgtcctgcct ttccctagtt tctcacc                                           27





<210>  900

<211>  28

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  900

aaccagaaac aggctctaca cgaatacc                                          28





<210>  901

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  901

agccttctca ccctctagct cagacac                                           27





<210>  902

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  902

atccctcgcc tacgctacct ccaaaac                                           27





<210>  903

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  903

atcaacagat gctacagcgt ccca                                              24





<210>  904

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  904

agccgttccg ttccctaagt atataga                                           27





<210>  905

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  905

ctcaagatgc atctagctcc ttcca                                             25





<210>  906

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  906

gacgtcctct acccctactc caacaac                                           27





<210>  907

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  907

tgggtcttac actaaggtca agaa                                              24





<210>  908

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  908

cccgtcccat cccgctatcc tgtcatt                                           27





<210>  909

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  909

tattgtggta tgaactagcc gttccgt                                           27





<210>  910

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  910

ccatctcttc ctctaccatt ctgct                                             25





<210>  911

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  911

tcctccttct gcaactacag tgtccag                                           27





<210>  912

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  912

tcatccctcc tcctctaatc ctatttc                                           27





<210>  913

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  913

ccgtgctcta aatgctatcg gcccgtc                                           27





<210>  914

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  914

gcccgtgagt ctgtctatag tcgtgcc                                           27





<210>  915

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  915

tggaggttcc tacaccggga tt                                                22





<210>  916

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  916

tctctctcat tcgtctactt gtcgtgt                                           27





<210>  917

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  917

cgtctcgaag ctatcctcgt cgt                                               23





<210>  918

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  918

agagtaccct attttatccg t                                                 21





<210>  919

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  919

gccctccagt ttctatcgac atact                                             25





<210>  920

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  920

agagttagcc tacggtgctt at                                                22





<210>  921

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  921

tgccaataac cacgctaccc gctgaat                                           27





<210>  922

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  922

ctccggcacc tagaccactt tg                                                22





<210>  923

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  923

atcgactatg ctagcacccg ctg                                               23





<210>  924

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  924

gcggcccgat ctatctcaag ctg                                               23





<210>  925

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  925

agagcagccc ctagtgtcgc aaa                                               23





<210>  926

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  926

ttgaggacct acgtcgcaat g                                                 21





<210>  927

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  927

tcctcctctc tatgtcacag gg                                                22





<210>  928

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  928

gctccgcata actctaagtt agcagg                                            26





<210>  929

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  929

ggtttcactc tatctgagtt cg                                                22





<210>  930

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  930

gcccttctcc tctatgacga agcg                                              24





<210>  931

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  931

gtaccttttc taatccgttg ag                                                22





<210>  932

<211>  29

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  932

accctgcaac ttaacgctac ccagttaag                                         29





<210>  933

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  933

agccaacatc tacctgactg tc                                                22





<210>  934

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  934

cgccgacacc gactaaggat cagtc                                             25





<210>  935

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  935

tcgtctcgtc ttttctaaat cttcggc                                           27





<210>  936

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  936

tcaggatggt ctacggcaaa ggc                                               23





<210>  937

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  937

atccacgatt acctatagcg attcc                                             25





<210>  938

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  938

ggtacaccag ctaaggttcg tcc                                               23





<210>  939

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  939

cccacgacca ctagagctgc tcc                                               23





<210>  940

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  940

tttgaacata gctatcgagc ctcc                                              24





<210>  941

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  941

gcccatgttc tcctaacatc cctcc                                             25





<210>  942

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  942

ccctcagttc tactccagcg cc                                                22





<210>  943

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  943

agtctttatc tattaggccc cc                                                22





<210>  944

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  944

gcctctagac tacgaagggg ac                                                22





<210>  945

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  945

accaactaca ctaccactca gac                                               23





<210>  946

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  946

ttcacgacgg ctaacgttag cac                                               23





<210>  947

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  947

gccaactgct actctaccaa c                                                 21





<210>  948

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  948

tgtacaagac cctacgggaa cgta                                              24





<210>  949

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  949

ccctcccgaa ctaggttaag cta                                               23





<210>  950

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  950

cacccccatc ctattcatcc ata                                               23





<210>  951

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  951

cggagtacct ttctatatcc gttga                                             25





<210>  952

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  952

tgagccttct ctctattctt tctca                                             25





<210>  953

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  953

gcccagaaca tctctaaagg acatca                                            26





<210>  954

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  954

cattcaaact agcactgggc a                                                 21





<210>  955

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  955

gctcgacttg tctacggtct cgca                                              24





<210>  956

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  956

agagcagccc ctagtgtcgc aaa                                               23





<210>  957

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  957

atgtgtcttc ggctatttct ctttt                                             25





<210>  958

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  958

catgctactc ctctacatcc tcttt                                             25





<210>  959

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  959

agcccaagca cgctaacacg acgtt                                             25





<210>  960

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  960

cctcctcaac cctacatgtg tatt                                              24





<210>  961

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  961

aatctcatgt atctatggtc caggt                                             25





<210>  962

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  962

actccgtccc atctatgtcg cttct                                             25





<210>  963

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  963

gcctccttgg cactagtccg cttct                                             25





<210>  964

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  964

gtccctctat cccctacaaa ccctct                                            26





<210>  965

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  965

cttatcctcg tttctagttc cttcct                                            26





<210>  966

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  966

atcccattgc gctatcagca tcct                                              24





<210>  967

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  967

gtccccaata gcctactcac atcct                                             25





<210>  968

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  968

catgctctgc cctatcatcc ctat                                              24





<210>  969

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  969

cggtgacggg tactacaaat agcat                                             25





<210>  970

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  970

tcatccctcc ttctattatc cacat                                             25





<210>  971

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  971

atggtcctcc ttctagttcc tgttg                                             25





<210>  972

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  972

gctctgccct tcctacatct cttgg                                             25





<210>  973

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  973

gcctggtctg ccctactcga cttgg                                             25





<210>  974

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  974

ttgaactccg tctacccgtt gtcg                                              24





<210>  975

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  975

agcatctctt tctactcaac tcag                                              24





<210>  976

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  976

atgcaactcc acctactccc atcag                                             25





<210>  977

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  977

accaaaatgt tccctaatct tcccag                                            26





<210>  978

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  978

ctcctcatca tcctagtata tcttc                                             25





<210>  979

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  979

atgagcccaa actacgatag attc                                              24





<210>  980

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  980

cgaatccttt tctagtagct cgtc                                              24





<210>  981

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  981

tctgacgtac ctctactcca tcctc                                             25





<210>  982

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  982

cctactctca ctctacctcg tcatc                                             25





<210>  983

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  983

cacacgacgc tctctaccta cccatc                                            26





<210>  984

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  984

ctaccgtcac ctctaatgaa ccatc                                             25





<210>  985

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  985

acatctctat gtctactcgg ctccc                                             25





<210>  986

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  986

tgtcctcctg ccactagaag atgccc                                            26





<210>  987

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  987

ccgtctcatt atctacactc ctcac                                             25





<210>  988

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  988

ataaacctgc taactaagcc ccaaac                                            26





<210>  989

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  989

aaaacttgct cctattcttc cgta                                              24





<210>  990

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  990

ctttgttctc tcctagctct ttcta                                             25





<210>  991

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  991

atctcttccg ccctacagct atgga                                             25





<210>  992

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  992

cacctatcct actacacatg ccga                                              24





<210>  993

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  993

cgcttccaca ccctacagcc tatca                                             25





<210>  994

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  994

aaccagtcgt cctacataat atca                                              24





<210>  995

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  995

tcgcctcccc agctatctgt ttgca                                             25





<210>  996

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  996

ctcctcggca tctaggccct tcca                                              24





<210>  997

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  997

gctcatcaac gctactgcgc tcaa                                              24





<210>  998

<211>  26

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  998

actccaaact accctacgtt atccaa                                            26





<210>  999

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  999

ctcccttatc ctctagtcag ccaaa                                             25





<210>  1000

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1000

ctcttccgcc cactagctat gaaaa                                             25





<210>  1001

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1001

gcgccgtcct acctctaatt taaagtt                                           27





<210>  1002

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1002

tgggtgaatg actagtcggc agct                                              24





<210>  1003

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1003

ccttgaacca gctaacaaca ttcc                                              24





<210>  1004

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1004

gtggccttcc gcctagaaca ttaca                                             25





<210>  1005

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1005

acctcctcct gactatcatc gtaca                                             25





<210>  1006

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1006

cgggggcgac cctatgagaa caca                                              24





<210>  1007

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1007

gttgattgag cctacatgcc aaca                                              24





<210>  1008

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1008

ctccctctgt tctatctttt tagt                                              24





<210>  1009

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1009

atgaggtggc acctaggcgt cagcg                                             25





<210>  1010

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1010

gcagaagggt ctacgagccg gtc                                               23





<210>  1011

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1011

aggtctaaag ctaaggccca ggc                                               23





<210>  1012

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1012

gaaccctctc cactatccat cctac                                             25





<210>  1013

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1013

cgggcaaatc actatgcttg gcta                                              24





<210>  1014

<211>  23

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1014

cacatccgcc ctaagcccgt tga                                               23





<210>  1015

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1015

accctctcca tcctacatcc tacca                                             25





<210>  1016

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1016

tgtagccaag gactacagac ttgcc                                             25





<210>  1017

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1017

caggcaaatc actatccctg gcta                                              24





<210>  1018

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1018

caggcaaatc actatccctg gcta                                              24





<210>  1019

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1019

atgcagcatc actatcaaga ttcc                                              24





<210>  1020

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1020

catcaacgct gctacgctca atga                                              24





<210>  1021

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1021

catgtgttcc cctaagtccg cccc                                              24





<210>  1022

<211>  25

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1022

tctgccaaag gactagaagt tgccc                                             25





<210>  1023

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1023

ccgggcaaat cctacccttt ggca                                              24





<210>  1024

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1024

aggctgtact cctatctctc ttct                                              24





<210>  1025

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Bulge Reverse Complement miR



<400>  1025

tgtttgctga tctaggtcat ctaa                                              24





<210>  1026

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  1026

tttagcgatg aacttcactc                                                   20





<210>  1027

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1027

ggggcgaact gagaacacat g                                                 21





<210>  1028

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1028

gggtcgacat gagaacatat g                                                 21





<210>  1029

<211>  22

<212>  DNA

<213>  Brachypodium distachyon



<400>  1029

caggagtgtc actgagaaca ca                                                22





<210>  1030

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1030

gggttgatat gaggacacat g                                                 21





<210>  1031

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1031

ggagtgtcat gagaacacag a                                                 21





<210>  1032

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1032

ggcaagttgt ccttggctac a                                                 21





<210>  1033

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1033

ggcaagttgt ccttggctac a                                                 21





<210>  1034

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1034

ggcaagttgt tcttggctac a                                                 21





<210>  1035

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1035

ggcaagttgt tcttggctac a                                                 21





<210>  1036

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1036

ggcatgtctt ccttggctac t                                                 21





<210>  1037

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1037

tccggcaagt tgaccttggc t                                                 21





<210>  1038

<211>  22

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1038

ggcaagttgt ccttcggcta ca                                                22





<210>  1039

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1039

ggcaagtcat ctctggctat g                                                 21





<210>  1040

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1040

gcaagttgac cttggctctg t                                                 21





<210>  1041

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1041

gcaagttgac cttggctctg t                                                 21





<210>  1042

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1042

gcaagttgac cttggctctg c                                                 21





<210>  1043

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1043

gcaagttgac cttggctctg t                                                 21





<210>  1044

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1044

ggcaggtctt cttggctagc                                                   20





<210>  1045

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1045

ggcaagtcat ctggggctac g                                                 21





<210>  1046

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1046

ggcagtctcc ttggctatt                                                    19





<210>  1047

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1047

ggcagtctcc ttggctatc                                                    19





<210>  1048

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1048

ggcagtctcc ttggctatc                                                    19





<210>  1049

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1049

ggcagtctcc ttggctatc                                                    19





<210>  1050

<211>  18

<212>  DNA

<213>  Zea mays



<400>  1050

ggcagtctcc ttggctag                                                     18





<210>  1051

<211>  18

<212>  DNA

<213>  Zea mays



<400>  1051

ggcagtctcc ttggctag                                                     18





<210>  1052

<211>  18

<212>  DNA

<213>  Zea mays



<400>  1052

ggcagtctcc ttggctag                                                     18





<210>  1053

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1053

ggcaaatcat ccctgctacc                                                   20





<210>  1054

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1054

ggcatccatt cttggctaag                                                   20





<210>  1055

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1055

ggcaggcctt cttggctaag                                                   20





<210>  1056

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1056

ggcagtctcc ttggatatc                                                    19





<210>  1057

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1057

ggcagtcttc ttggctatc                                                    19





<210>  1058

<211>  19

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1058

ggcagtctct ttggctatc                                                    19





<210>  1059

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1059

tagccaagga tgacttgcct a                                                 21





<210>  1060

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1060

tagccaagaa tgacttgcct a                                                 21





<210>  1061

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1061

tagccaagga tgacttgcct a                                                 21





<210>  1062

<211>  22

<212>  DNA

<213>  Brachypodium distachyon



<400>  1062

ccagccaaga atggcttgcc ta                                                22





<210>  1063

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1063

tagccaagga tgacttgcct a                                                 21





<210>  1064

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1064

tagccaagga tgacttgcct a                                                 21





<210>  1065

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1065

tagccaagga tgacttgcct a                                                 21





<210>  1066

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1066

tagccaagga tgacttgcct a                                                 21





<210>  1067

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1067

tagccaagga tgacttgcct gc                                                22





<210>  1068

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1068

tagccaagga tgacttgcct gc                                                22





<210>  1069

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1069

tagccaagga tgacttgcct gc                                                22





<210>  1070

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1070

tagccaagga tgacttgcct gc                                                22





<210>  1071

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1071

tagccaagga tgacttgcct gc                                                22





<210>  1072

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1072

tagccaagga tgacttgcct gc                                                22





<210>  1073

<211>  21

<212>  DNA

<213>  Festuca arundinacea



<400>  1073

tagccaagga tgacttgcct a                                                 21





<210>  1074

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1074

aagccaagga tgacttgcct a                                                 21





<210>  1075

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1075

tagccaagga tgacttgcct a                                                 21





<210>  1076

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1076

tagccaagga tgacttgcct a                                                 21





<210>  1077

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1077

tagccaagaa tgacttgcct a                                                 21





<210>  1078

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1078

tagccaagaa tgacttgcct a                                                 21





<210>  1079

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1079

tagccaagga tgacttgcct a                                                 21





<210>  1080

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1080

tagccaagga tgacttgcct a                                                 21





<210>  1081

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1081

tagccaagga tgacttgcct a                                                 21





<210>  1082

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1082

tagccaagaa tgacttgcct a                                                 21





<210>  1083

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1083

tagccaagga tgacttgcct a                                                 21





<210>  1084

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1084

tagccaagga tgacttgcct a                                                 21





<210>  1085

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1085

tagccaagaa tggcttgcct a                                                 21





<210>  1086

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1086

tagccaagaa tggcttgcct a                                                 21





<210>  1087

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1087

tagccaagga tgacttgcct a                                                 21





<210>  1088

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1088

tagccaagga tgacttgcct a                                                 21





<210>  1089

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1089

tagccaagga tgacttgcct a                                                 21





<210>  1090

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1090

tagccaagga tgacttgcct a                                                 21





<210>  1091

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1091

tagccaagga tgacttgcct a                                                 21





<210>  1092

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1092

tagccaagga tgacttgcct a                                                 21





<210>  1093

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1093

tagccaagaa tggcttgcct a                                                 21





<210>  1094

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1094

tagccaagga tgacttgcct a                                                 21





<210>  1095

<211>  22

<212>  DNA

<213>  Vitis vinifera



<400>  1095

tagccaagga tgacttgcct gc                                                22





<210>  1096

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1096

tagccaagaa tggcttgcct a                                                 21





<210>  1097

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1097

tagccaagaa tgacttgcct a                                                 21





<210>  1098

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1098

tagccaagaa tggcttgcct a                                                 21





<210>  1099

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1099

tagccaggga tgatttgcct g                                                 21





<210>  1100

<211>  23

<212>  DNA

<213>  Glycine max



<400>  1100

tgagccaagg atgacttgcc ggt                                               23





<210>  1101

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1101

tgagccaagg atgacttgcc g                                                 21





<210>  1102

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1102

tgagccaagg atgacttgcc g                                                 21





<210>  1103

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1103

tgagccaagg atgacttgcc g                                                 21





<210>  1104

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1104

gagccaagga tgacttgccg g                                                 21





<210>  1105

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1105

tgagccaagg atgacttgcc g                                                 21





<210>  1106

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1106

tgagccaagg atgacttgcc g                                                 21





<210>  1107

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1107

tgagccaagg atgacttgcc g                                                 21





<210>  1108

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1108

tgagccaagg atgacttgcc g                                                 21





<210>  1109

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1109

tgagccaagg atgacttgcc g                                                 21





<210>  1110

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1110

tgagccagga tggcttgccg g                                                 21





<210>  1111

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1111

tgagccaagg atgacttgcc g                                                 21





<210>  1112

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1112

gagccaagga tgacttgccg g                                                 21





<210>  1113

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1113

gagccaagga tgacttgccg g                                                 21





<210>  1114

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1114

tgagccaagg atgacttgcc g                                                 21





<210>  1115

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1115

gagccaagga tgacttgccg g                                                 21





<210>  1116

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1116

tgagccaagg atgacttgcc g                                                 21





<210>  1117

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1117

gagccaagga tgacttgccg g                                                 21





<210>  1118

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1118

tgagccaaag atgacttgcc g                                                 21





<210>  1119

<211>  20

<212>  DNA

<213>  Glycine max



<400>  1119

agccaaggat gacttgccgg                                                   20





<210>  1120

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1120

tgagccaagg atggcttgcc g                                                 21





<210>  1121

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1121

gagccaaaga tgacttgccg g                                                 21





<210>  1122

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1122

ggagccaagg atgacttgcc g                                                 21





<210>  1123

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1123

gagccaagaa tgacttgccg g                                                 21





<210>  1124

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1124

gagccaagga tgacttgccg c                                                 21





<210>  1125

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1125

tgagtcaagg atgacttgcc g                                                 21





<210>  1126

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1126

tgagtcaagg atgacttgcc g                                                 21





<210>  1127

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1127

tgagccaagg atggcttgcc g                                                 21





<210>  1128

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1128

gagccaagga tgacttgccg t                                                 21





<210>  1129

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1129

tgagccaaag atgacttgcc g                                                 21





<210>  1130

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1130

tgagccaaag atgacttgcc g                                                 21





<210>  1131

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1131

tgagccaaag atgacttgcc g                                                 21





<210>  1132

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1132

aagccaagga tgacttgccg g                                                 21





<210>  1133

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1133

tcagccaagg atgacttgcc g                                                 21





<210>  1134

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1134

gagccaagaa tgacttgtcg g                                                 21





<210>  1135

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1135

aagccaagga tgacttgcct g                                                 21





<210>  1136

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1136

aagccaagga tgacttgcct g                                                 21





<210>  1137

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1137

gagccaagaa tgacttgccg a                                                 21





<210>  1138

<211>  20

<212>  DNA

<213>  Antirrhinum majus



<400>  1138

agccaaggat gacttgccga                                                   20





<210>  1139

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1139

gagccaagga tgactggccg t                                                 21





<210>  1140

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1140

cgagtcaagg atgacttgcc g                                                 21





<210>  1141

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1141

aagccaagga tgaattgccg g                                                 21





<210>  1142

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1142

aagccaagga tgacttgccg a                                                 21





<210>  1143

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1143

tgagtcaaga atgacttgcc g                                                 21





<210>  1144

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1144

aagccaagga tgacttgcct a                                                 21





<210>  1145

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1145

tagccaagga tgacttgccg g                                                 21





<210>  1146

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1146

tagccatgga tgaattgcct g                                                 21





<210>  1147

<211>  21

<212>  DNA

<213>  Saccharum officinarum



<400>  1147

tagccaagga tgacttgccg g                                                 21





<210>  1148

<211>  21

<212>  DNA

<213>  Hordeum vulgare



<400>  1148

aagccaagga tgagttgcct g                                                 21





<210>  1149

<211>  21

<212>  DNA

<213>  Saccharum ssp.



<400>  1149

tagccaagga tgacttgccg g                                                 21





<210>  1150

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1150

tagccaagga tgacttgccg g                                                 21





<210>  1151

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1151

tagccaagga tgacttgccg g                                                 21





<210>  1152

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1152

tagccaagga tgacttgccg g                                                 21





<210>  1153

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1153

aagccaagaa tgacttgcct g                                                 21





<210>  1154

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1154

tagccaagga tgacttgcct g                                                 21





<210>  1155

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1155

cagccaagga tgacttgccg g                                                 21





<210>  1156

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1156

cagccaagga tgacttgccg g                                                 21





<210>  1157

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1157

tagccaagga tgacttgcct g                                                 21





<210>  1158

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1158

tagccaagga tgacttgcct g                                                 21





<210>  1159

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1159

tagccaagga tgacttgcct g                                                 21





<210>  1160

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1160

tagccaagga tgacttgcct g                                                 21





<210>  1161

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1161

tagccaagga tgacttgcct g                                                 21





<210>  1162

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1162

tagccaagga tgacttgcct g                                                 21





<210>  1163

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1163

tagccaagga tgacttgcct g                                                 21





<210>  1164

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1164

tagccaagga tgacttgcct g                                                 21





<210>  1165

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1165

tagccaagga tgacttgcct g                                                 21





<210>  1166

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1166

tagccaagga tgacttgcct g                                                 21





<210>  1167

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1167

cagccaagga tgacttgccg g                                                 21





<210>  1168

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1168

tagccaagga tgacttgcct g                                                 21





<210>  1169

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1169

tagccaagga tgacttgcct g                                                 21





<210>  1170

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1170

tagccaagga tgacttgcct g                                                 21





<210>  1171

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1171

cagccaagga tgacttgccg g                                                 21





<210>  1172

<211>  21

<212>  DNA

<213>  Gossypium herbacium



<400>  1172

tagccaagga tgacttgcct g                                                 21





<210>  1173

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1173

tagccaagga tgacttgcct g                                                 21





<210>  1174

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1174

tagccaagga tgacttgcct g                                                 21





<210>  1175

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1175

tagccaagga tgacttgcct g                                                 21





<210>  1176

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1176

cagccaagga tgacttgccg g                                                 21





<210>  1177

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1177

tagccaagga tgacttgcct g                                                 21





<210>  1178

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1178

tagccaagga tgacttgcct gc                                                22





<210>  1179

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1179

cagccaagga tgacttgccg g                                                 21





<210>  1180

<211>  22

<212>  DNA

<213>  Vitis vinifera



<400>  1180

tagccaagga tgacttgcct gc                                                22





<210>  1181

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1181

cagccaagga tgacttgccg g                                                 21





<210>  1182

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1182

tagccaagga tgacttgcct g                                                 21





<210>  1183

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1183

cagccaagga tgacttgccg g                                                 21





<210>  1184

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1184

tagccaagga tgacttgcct g                                                 21





<210>  1185

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1185

cagccaagga tgacttgccg g                                                 21





<210>  1186

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1186

cagccaagga tgacttgccg g                                                 21





<210>  1187

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1187

cagccaagga tgacttgccg g                                                 21





<210>  1188

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1188

cagccaagga tgacttgccg g                                                 21





<210>  1189

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1189

tagccaagga tgacttgcct g                                                 21





<210>  1190

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1190

tagccaagga tgacttgcct g                                                 21





<210>  1191

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1191

cagccaagga tgacttgccg g                                                 21





<210>  1192

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1192

tagccaagga tgacttgcct g                                                 21





<210>  1193

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1193

tagccaagga tgacttgcct g                                                 21





<210>  1194

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1194

cagccaagga tgacttgccg g                                                 21





<210>  1195

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1195

cagccaagga tgacttgccg g                                                 21





<210>  1196

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1196

cagccaagga tgacttgccg g                                                 21





<210>  1197

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1197

tagccaagga tgacttgcct g                                                 21





<210>  1198

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1198

cagccaagga tgacttgccg g                                                 21





<210>  1199

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1199

cagccaagga tgacttgccg g                                                 21





<210>  1200

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1200

cagccaagga tgacttgccg g                                                 21





<210>  1201

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1201

cagccaagga tgacttgccg g                                                 21





<210>  1202

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1202

cagccaagga tgacttgccg g                                                 21





<210>  1203

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1203

tagccaagga tgacttgcct gc                                                22





<210>  1204

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1204

tagccaagga tgacttgcct gc                                                22





<210>  1205

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1205

tagccaagga tgacttgcct g                                                 21





<210>  1206

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1206

cagccaagga tgacttgccg g                                                 21





<210>  1207

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1207

tagccaagga tgacttgcct g                                                 21





<210>  1208

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1208

tagccaagga tgacttgcct g                                                 21





<210>  1209

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1209

tagccaagga tgacttgcct g                                                 21





<210>  1210

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1210

cagccaagga tgacttgccg g                                                 21





<210>  1211

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1211

cagccaagga tgacttgccg g                                                 21





<210>  1212

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1212

cagccaagga tgacttgccg g                                                 21





<210>  1213

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1213

tagccaggaa tggcttgcct a                                                 21





<210>  1214

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1214

tagccaagga tgacttgcct g                                                 21





<210>  1215

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1215

tagccaagga tgacttgcct g                                                 21





<210>  1216

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1216

tagccaagga tgacttgcct g                                                 21





<210>  1217

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1217

cagccaagga tgacttgccg g                                                 21





<210>  1218

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1218

tagccaagga tgacttgcct gc                                                22





<210>  1219

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1219

cagccaagga tgacttgccg g                                                 21





<210>  1220

<211>  21

<212>  DNA

<213>  Glycine soja



<400>  1220

cagccaagga tgacttgccg g                                                 21





<210>  1221

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1221

cagccaagga tgacttgccg g                                                 21





<210>  1222

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1222

cagccaagga tgacttgccg g                                                 21





<210>  1223

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1223

tagccaagga tgaattgccg g                                                 21





<210>  1224

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1224

cagccaagga tgacttgccg g                                                 21





<210>  1225

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1225

tagccaagga tgacttgcct g                                                 21





<210>  1226

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1226

cagccaagga tgacttgccg g                                                 21





<210>  1227

<211>  21

<212>  DNA

<213>  Petunia x hybrida



<400>  1227

cagccaagga tgacttgccg g                                                 21





<210>  1228

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1228

tagccaagga tgacttgcct g                                                 21





<210>  1229

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1229

tagccaagga tgacttgcct g                                                 21





<210>  1230

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1230

tagccaagga tgacttgcct gc                                                22





<210>  1231

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1231

cagccaagga tgacttgccg g                                                 21





<210>  1232

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1232

cagccaagga tgacttgccg g                                                 21





<210>  1233

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1233

cagccaagga tgacttgccg g                                                 21





<210>  1234

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1234

tagccaagga tgacttgcct gc                                                22





<210>  1235

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1235

cagccaagga tgacttgccg a                                                 21





<210>  1236

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1236

tagccaagga tgacttgcct a                                                 21





<210>  1237

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1237

tagccaagga tgacttgcct a                                                 21





<210>  1238

<211>  22

<212>  DNA

<213>  Brachypodium distachyon



<400>  1238

ccagccaaga atggcttgcc ta                                                22





<210>  1239

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1239

tagccaagga tgacttgctc g                                                 21





<210>  1240

<211>  22

<212>  DNA

<213>  Brachypodium distachyon



<400>  1240

tagccaagga tgatttgcct gt                                                22





<210>  1241

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1241

tagccaagga cgacttgcct g                                                 21





<210>  1242

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1242

cagccaagga tgacttgccg a                                                 21





<210>  1243

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1243

cagccaagga tgacttgccg a                                                 21





<210>  1244

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1244

cagccaagga tgacttgccg a                                                 21





<210>  1245

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1245

cagccaagga tgacttgccg a                                                 21





<210>  1246

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1246

cagccaagga tgacttgccg a                                                 21





<210>  1247

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1247

cagccaagga tgacttgccg a                                                 21





<210>  1248

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1248

tagccaagga tgacttgcct a                                                 21





<210>  1249

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1249

tagccaagga tgacttgcct a                                                 21





<210>  1250

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1250

cagccaagga tgacttgccg a                                                 21





<210>  1251

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1251

cagccaagga tgacttgccg a                                                 21





<210>  1252

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1252

tagccaagga tgacttgcct a                                                 21





<210>  1253

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1253

cagccaagga tgacttgccg a                                                 21





<210>  1254

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1254

tagccaagga tgacttgcct a                                                 21





<210>  1255

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1255

tagccaagga tgacttgcct a                                                 21





<210>  1256

<211>  21

<212>  DNA

<213>  Festuca arundinacea



<400>  1256

tagccaagga tgacttgcct a                                                 21





<210>  1257

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1257

cagccaagga tgacttgccg a                                                 21





<210>  1258

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1258

tagccaagga tgacttgcct a                                                 21





<210>  1259

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1259

tagccaagga tgacttgcct a                                                 21





<210>  1260

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1260

cagccaagga tgacttgccg a                                                 21





<210>  1261

<211>  21

<212>  DNA

<213>  Aegilops tauschii



<400>  1261

tagccaagga tgaattgcca g                                                 21





<210>  1262

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1262

tagccaagga tgacttgcct a                                                 21





<210>  1263

<211>  22

<212>  DNA

<213>  Oryza sativa



<400>  1263

tagccaagga caaacttgcc gg                                                22





<210>  1264

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1264

tagccaaaga tgacttgcct g                                                 21





<210>  1265

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1265

tagccaagga tgacttgcct a                                                 21





<210>  1266

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1266

tagccaagga tgacttgcct a                                                 21





<210>  1267

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1267

cagccaagga tgacttgccg a                                                 21





<210>  1268

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1268

tagccaagga tgacttgcct a                                                 21





<210>  1269

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1269

tagccaagga tgacttgcct a                                                 21





<210>  1270

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1270

tagccaagga tgacttgccc a                                                 21





<210>  1271

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1271

tagccaagga tgacttgccc a                                                 21





<210>  1272

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1272

cagccaagga tgacttgccg a                                                 21





<210>  1273

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1273

cagccaagga tgacttgccg a                                                 21





<210>  1274

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1274

cagccaagga tgacttgccg a                                                 21





<210>  1275

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1275

cagccaagga tgacttgccg a                                                 21





<210>  1276

<211>  21

<212>  DNA

<213>  Populus tremula



<400>  1276

cagccaagga tgacttgccg a                                                 21





<210>  1277

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1277

cagccaagga tgacttgccg a                                                 21





<210>  1278

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1278

tagccaagga tgacttgcct a                                                 21





<210>  1279

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1279

tagccaagga tgacttgcct a                                                 21





<210>  1280

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1280

tagccaagga tgatttgcct g                                                 21





<210>  1281

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1281

tagccaagga tgacttgcct a                                                 21





<210>  1282

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1282

tagccaagga tgacttgcct a                                                 21





<210>  1283

<211>  20

<212>  DNA

<213>  Prunus salicina



<400>  1283

agccaaaaat gacttgctgc                                                   20





<210>  1284

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1284

tagccaagga tgacttgcct a                                                 21





<210>  1285

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1285

cagccaagga tgacttgccg a                                                 21





<210>  1286

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1286

cagccaagga tgacttgccg a                                                 21





<210>  1287

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1287

cagccaagga tgacttgccg a                                                 21





<210>  1288

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1288

tagccaagga tgagttgcct g                                                 21





<210>  1289

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1289

cagccaagga tgacttgccg a                                                 21





<210>  1290

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1290

cagccaagga tgacttgccg a                                                 21





<210>  1291

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1291

cagccaagga tgacttgccg a                                                 21





<210>  1292

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1292

tagccaagga cgacttgccc a                                                 21





<210>  1293

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1293

cagccaagaa tgatttgccg g                                                 21





<210>  1294

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1294

tagccaagga cgacttgccc a                                                 21





<210>  1295

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1295

tagccaagaa tgacttgcct a                                                 21





<210>  1296

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1296

tagccaggga tgacttgcct a                                                 21





<210>  1297

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1297

cagccaagaa tgatttgccg g                                                 21





<210>  1298

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1298

tagccaagga cgacttgcct a                                                 21





<210>  1299

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1299

acgccaagga tgtcttgcgt c                                                 21





<210>  1300

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1300

cagccaaggg tgatttgccg g                                                 21





<210>  1301

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1301

tagccaagga cgacttgccc a                                                 21





<210>  1302

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1302

tagccaagga cgacttgccc a                                                 21





<210>  1303

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1303

tagccaagaa tgacttgcct a                                                 21





<210>  1304

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1304

tagccaagaa tgacttgcct a                                                 21





<210>  1305

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1305

tagcgaagga tgacttgcct a                                                 21





<210>  1306

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1306

tagccaagga cgacttgccc a                                                 21





<210>  1307

<211>  21

<212>  DNA

<213>  Populus tremula



<400>  1307

cagccaagga tgatttgccg a                                                 21





<210>  1308

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1308

tagccaagaa tgacttgcct a                                                 21





<210>  1309

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1309

tagccaagaa tggcttgcct a                                                 21





<210>  1310

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1310

tagccaagaa tggcttgcct a                                                 21





<210>  1311

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1311

tccggcaagt tgaccttggc t                                                 21





<210>  1312

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1312

aagccaagga tgacttgccg g                                                 21





<210>  1313

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1313

tagccaagga tgacttgccg g                                                 21





<210>  1314

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1314

tagccaagga tgacttgcct g                                                 21





<210>  1315

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1315

tagccaagga tgacttgcct a                                                 21





<210>  1316

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1316

tagccaagaa tgacttgcct a                                                 21





<210>  1317

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1317

tagccaggga tgatttgcct g                                                 21





<210>  1318

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1318

cagccaaggg tgatttgccg g                                                 21





<210>  1319

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1319

tagccaagaa tggcttgcct a                                                 21





<210>  1320

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1320

tagccaagaa tggcttgcct a                                                 21





<210>  1321

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1321

tagccaagaa tggcttgcct a                                                 21





<210>  1322

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1322

tgccaaaggg gatttgcccg g                                                 21





<210>  1323

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1323

tgccaaagga gatttgcccg g                                                 21





<210>  1324

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1324

tgccaaagga gatttgcccg g                                                 21





<210>  1325

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1325

tgccaaagga gatttgcccg g                                                 21





<210>  1326

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1326

tgccaaagga gatttgcccg g                                                 21





<210>  1327

<211>  21

<212>  DNA

<213>  Brassica napus



<400>  1327

tgccaaagga gatttgcccg g                                                 21





<210>  1328

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1328

tgccaaagga gatttgcccg g                                                 21





<210>  1329

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1329

tgccaaagga gatttgcccg g                                                 21





<210>  1330

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1330

tgccaaagga gatttgcccg g                                                 21





<210>  1331

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1331

tgccaaagga gatttgcccg g                                                 21





<210>  1332

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1332

tgccaaagga gatttgcccg g                                                 21





<210>  1333

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1333

tgccaaagga gatttgcccg g                                                 21





<210>  1334

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1334

tgccaaagga gatttgcccg g                                                 21





<210>  1335

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1335

tgccaaagga gatttgcccg g                                                 21





<210>  1336

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1336

tgccaaagga gatttgcccc g                                                 21





<210>  1337

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1337

tgccaaagga gatttgccct g                                                 21





<210>  1338

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1338

tgccaaagga gatttgcccc g                                                 21





<210>  1339

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1339

tgccaaagga gatttgcccc g                                                 21





<210>  1340

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1340

tgccaaagga gatttgccct g                                                 21





<210>  1341

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1341

tgccaaagga gatttgcccc g                                                 21





<210>  1342

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1342

tgccaaagga gatttgccct g                                                 21





<210>  1343

<211>  21

<212>  DNA

<213>  Hordeum vulgare



<400>  1343

tgccaaagga gatttgcccc g                                                 21





<210>  1344

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1344

tgccaaagga gatttgccca g                                                 21





<210>  1345

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1345

tgccaaagga gatttgccct g                                                 21





<210>  1346

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1346

tgccaaagga gatttgccca g                                                 21





<210>  1347

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1347

tgccaaagga gatttgccca g                                                 21





<210>  1348

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1348

tgccaaagga gatttgccca g                                                 21





<210>  1349

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1349

tgccaaagga gatttgccct g                                                 21





<210>  1350

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1350

tgccaaagga gatttgccct g                                                 21





<210>  1351

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1351

tgccaaagga gatttgccca g                                                 21





<210>  1352

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1352

tgccaaagga gatttgccca g                                                 21





<210>  1353

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1353

tgccaaagga gatttgccca g                                                 21





<210>  1354

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1354

tgccaaagga gatttgcccc g                                                 21





<210>  1355

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1355

tgccaaagga gatttgtccg g                                                 21





<210>  1356

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1356

tgccaaagga gatttgccca g                                                 21





<210>  1357

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1357

tgccaaagga gatttgccca g                                                 21





<210>  1358

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1358

tgccaaagga gatttgccca g                                                 21





<210>  1359

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1359

tgccaaagga gatttgcccc g                                                 21





<210>  1360

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1360

tgccaaagga gagttgccct g                                                 21





<210>  1361

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1361

tgccaaagga gagttgccct g                                                 21





<210>  1362

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1362

tgccaaagga gatttgcctc g                                                 21





<210>  1363

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1363

tgccaaagga gagttgccct g                                                 21





<210>  1364

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1364

tgccaaagga gagttgccct g                                                 21





<210>  1365

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1365

tgccaaagga gatttgcctc g                                                 21





<210>  1366

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1366

tgccaaagga gaattgccct g                                                 21





<210>  1367

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1367

tgccaaagga gaattgccct g                                                 21





<210>  1368

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1368

tgccaaagga gagttgccct g                                                 21





<210>  1369

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1369

tgccaaagga gaattgccct g                                                 21





<210>  1370

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1370

tgccaaagaa gatttgccct g                                                 21





<210>  1371

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1371

tgccaaagga gagttgccct g                                                 21





<210>  1372

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1372

tgccaaagga gagttgccct g                                                 21





<210>  1373

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1373

tgccaaagga gaattgccct g                                                 21





<210>  1374

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1374

tgccaaagga gaattgccct g                                                 21





<210>  1375

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1375

tgccaaagga gaattgccct g                                                 21





<210>  1376

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1376

tgccaaagga gagttgccct g                                                 21





<210>  1377

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1377

tgccaaagga gacttgccca g                                                 21





<210>  1378

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1378

tgccaaagga aatttgcccc g                                                 21





<210>  1379

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1379

tgccaaagaa gatttgcccc g                                                 21





<210>  1380

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1380

tgccaaagaa gatttgcccc g                                                 21





<210>  1381

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1381

tgccaaagga gaattgccct g                                                 21





<210>  1382

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1382

tgccaaagga gaattgccct g                                                 21





<210>  1383

<211>  21

<212>  DNA

<213>  Phaseolus vulgaris



<400>  1383

tgccaaagga gagttgccct g                                                 21





<210>  1384

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1384

tgccaaagga gagttgccct g                                                 21





<210>  1385

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1385

tgccaaagga gaattgccct g                                                 21





<210>  1386

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1386

tgccaaagga gaattgccct g                                                 21





<210>  1387

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1387

tgccaaagga gagttgccct g                                                 21





<210>  1388

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1388

tgccaaagga aatttgcccc g                                                 21





<210>  1389

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1389

tgccaaagga gaattgccct g                                                 21





<210>  1390

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1390

tgccaaagga gagttgccct g                                                 21





<210>  1391

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1391

tgccaaagga gaattgccct g                                                 21





<210>  1392

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1392

tgccaatgga gatttgccca g                                                 21





<210>  1393

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1393

tgccagagga gatttgccct g                                                 21





<210>  1394

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1394

tgccaaagga gaattgccct g                                                 21





<210>  1395

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1395

tgccaaagga gagttgccct g                                                 21





<210>  1396

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1396

tgccaaagga gaattgccct g                                                 21





<210>  1397

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1397

tgccaaagga gagttgccct g                                                 21





<210>  1398

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1398

tgccaaagga gagttgccct g                                                 21





<210>  1399

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1399

tgccaaagga gatttgctcg t                                                 21





<210>  1400

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1400

tgccaaagga gatttgcccc t                                                 21





<210>  1401

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1401

tgccaaagga gaattgccct g                                                 21





<210>  1402

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1402

tgccaaagga gaattgccct g                                                 21





<210>  1403

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1403

tgccaaagga gaattgccct g                                                 21





<210>  1404

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1404

tgccaaagga gagttgccct g                                                 21





<210>  1405

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1405

tgccaaagga aatttgcccc g                                                 21





<210>  1406

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1406

tgccaaagga gaattgccct g                                                 21





<210>  1407

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1407

tgccaaagga gagttgccct g                                                 21





<210>  1408

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1408

tgccaaagga gagttgccct g                                                 21





<210>  1409

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1409

tgccaaagga gagttgccct a                                                 21





<210>  1410

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1410

tgccaaagga gaattaccct g                                                 21





<210>  1411

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1411

tgccaaagga gagttgccct a                                                 21





<210>  1412

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1412

cgccaatgga gatttgtccg g                                                 21





<210>  1413

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1413

cgccaatgga gatttgtccg g                                                 21





<210>  1414

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1414

tgccaaagga gagctgccct g                                                 21





<210>  1415

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1415

cgccaaagaa gatttgcccc g                                                 21





<210>  1416

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1416

tgccaaagga gagctgccct g                                                 21





<210>  1417

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1417

tgccaaagga gagctgccct g                                                 21





<210>  1418

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1418

tgccaaagga gagttgccct a                                                 21





<210>  1419

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1419

tgccaaagga gagtttccct g                                                 21





<210>  1420

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1420

tgccaaagga gagttgccct a                                                 21





<210>  1421

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1421

tgccaaagga gatttgctca c                                                 21





<210>  1422

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1422

tgccaaagga gagctgccct g                                                 21





<210>  1423

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1423

tgccaaagga gatttgctca c                                                 21





<210>  1424

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1424

tgccaaagga gagctgccct g                                                 21





<210>  1425

<211>  21

<212>  DNA

<213>  Solanum lycopersicum



<400>  1425

tgccaaagga gagttgccct a                                                 21





<210>  1426

<211>  19

<212>  DNA

<213>  Triticum aestivum



<400>  1426

tgccaaagga gaattgccc                                                    19





<210>  1427

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1427

cgccaaagga gagttgccct g                                                 21





<210>  1428

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1428

cgccaaagga gaattgccct g                                                 21





<210>  1429

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1429

tgccgaagga gatttgtcct g                                                 21





<210>  1430

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1430

cgccaaagga gagttgccct g                                                 21





<210>  1431

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1431

tgccaaagga gagctgccct g                                                 21





<210>  1432

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1432

tgccaaagga gagttggcct t                                                 21





<210>  1433

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1433

tgccaaagga gagctgccct a                                                 21





<210>  1434

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1434

tgccaaagga gagctgccct a                                                 21





<210>  1435

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1435

tgccaaagga gagctgccct a                                                 21





<210>  1436

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1436

cgccaaagga gagttgccct c                                                 21





<210>  1437

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1437

tgccaaagga gagctgtcct g                                                 21





<210>  1438

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1438

tgccaaagga gagctgctct t                                                 21





<210>  1439

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1439

tggaaggggc atgcagagga g                                                 21





<210>  1440

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1440

tggaaggggc atgcagagga g                                                 21





<210>  1441

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1441

tggaaggggc atgcagagga g                                                 21





<210>  1442

<211>  21

<212>  DNA

<213>  Saccharum ssp.



<400>  1442

tggaaggggc atgcagagga g                                                 21





<210>  1443

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1443

tggaaggggc atgcagagga g                                                 21





<210>  1444

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1444

tggaaggggc atgcagagga g                                                 21





<210>  1445

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1445

agaagagaga gagcacagcc c                                                 21





<210>  1446

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1446

cgaagagaga gagcacagcc c                                                 21





<210>  1447

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1447

cgaagagaga gagcacagcc c                                                 21





<210>  1448

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1448

cgaagagaga gagcacagcc c                                                 21





<210>  1449

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1449

agaagagaga gagtacagcc c                                                 21





<210>  1450

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1450

agaagagaga gagtacagcc c                                                 21





<210>  1451

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1451

agaagagaga gagtacagcc t                                                 21





<210>  1452

<211>  21

<212>  DNA

<213>  Festuca arundinacea



<400>  1452

agaagagaga gagcacagct t                                                 21





<210>  1453

<211>  21

<212>  DNA

<213>  Physcomitrella patens



<400>  1453

cgaagagaga gagcacagtc c                                                 21





<210>  1454

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1454

agaagagaga gagtacagcc t                                                 21





<210>  1455

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1455

agaagagaga gagtacagct t                                                 21





<210>  1456

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1456

gtgaagtgtt tgggggaact c                                                 21





<210>  1457

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1457

gtgaagtgtt tgggggaact c                                                 21





<210>  1458

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1458

gtgaagtgtt tgggggaact c                                                 21





<210>  1459

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1459

gtgaagtgtt tgggggaact c                                                 21





<210>  1460

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1460

gtgaagtgtt tgggggaact c                                                 21





<210>  1461

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1461

gtgaagtgtt tgggggaact c                                                 21





<210>  1462

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1462

gtgaagtgtt tgggggaact c                                                 21





<210>  1463

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1463

gtgaagtgtt tgggggaact c                                                 21





<210>  1464

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1464

gtgaagtgtt tgggggaact c                                                 21





<210>  1465

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1465

gtgaagtgtt tgggggaact c                                                 21





<210>  1466

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1466

gtgaagtgtt tgggggaact c                                                 21





<210>  1467

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1467

gtgaagtgtt tgggggaact c                                                 21





<210>  1468

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1468

gtgaagtgtt tgggggaact c                                                 21





<210>  1469

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1469

gtgaagtgtt tgggggaact c                                                 21





<210>  1470

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1470

gtgaagtgtt tgggggaact c                                                 21





<210>  1471

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1471

gtgaagtgtt tgggggaact c                                                 21





<210>  1472

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1472

gtgaagtgtt tgggggaact c                                                 21





<210>  1473

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1473

gtgaagtgtt tgggggaact c                                                 21





<210>  1474

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1474

gtgaagtgtt tgggggaact c                                                 21





<210>  1475

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1475

gtgaagtgtt tgggggaact c                                                 21





<210>  1476

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1476

gtgaagtgtt tgggggaact c                                                 21





<210>  1477

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1477

gtgaagtgtt tgggggaact c                                                 21





<210>  1478

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1478

gtgaagtgtt tgggggaact c                                                 21





<210>  1479

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1479

gtgaagtgtt tgggggaact c                                                 21





<210>  1480

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1480

gtgaagtgtt tgggggaact c                                                 21





<210>  1481

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1481

gtgaagtgtt tgggggaact c                                                 21





<210>  1482

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1482

gtgaagtgtt tgggggaact c                                                 21





<210>  1483

<211>  21

<212>  DNA

<213>  Triticum aestivum



<400>  1483

gtgaagtgtt tgggggaact c                                                 21





<210>  1484

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1484

gtgaagtgtt tgggggaact c                                                 21





<210>  1485

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1485

gtgaagtgtt tgggggaact c                                                 21





<210>  1486

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1486

gtgaagtgtt tgggggaact c                                                 21





<210>  1487

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1487

gtgaagtgtt tgggggaact c                                                 21





<210>  1488

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1488

gtgaagtgtt tgggggaact c                                                 21





<210>  1489

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1489

gtgaagtgtt tgggggaact c                                                 21





<210>  1490

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1490

gtgaagtgtt tgggggaact c                                                 21





<210>  1491

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1491

gtgaagtgtt tgggggaact c                                                 21





<210>  1492

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1492

ctgaagtgtt tgggggaact c                                                 21





<210>  1493

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1493

ctgaagtgtt tgggggaact c                                                 21





<210>  1494

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1494

ctgaagtgtt tgggggaact c                                                 21





<210>  1495

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1495

ctgaagtgtt tgggggaact c                                                 21





<210>  1496

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1496

ctgaagtgtt tgggggaact c                                                 21





<210>  1497

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1497

ctgaagtgtt tgggggaact c                                                 21





<210>  1498

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1498

tgaagtgttt gggggaactc                                                   20





<210>  1499

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1499

tgaagtgttt gggggaactc                                                   20





<210>  1500

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1500

tgaagtgttt gggggaactc                                                   20





<210>  1501

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1501

tgaagtgttt gggggaactc                                                   20





<210>  1502

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1502

tgaagtgttt gggggaactc                                                   20





<210>  1503

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1503

tgaagtgttt gggggaactc                                                   20





<210>  1504

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1504

tgaagtgttt gggggaactc                                                   20





<210>  1505

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1505

tgaagtgttt gggggaactc                                                   20





<210>  1506

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1506

tgaagtgttt gggggaactc                                                   20





<210>  1507

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1507

tgaagtgttt gggggaactc                                                   20





<210>  1508

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1508

tgaagtgttt gggggaactc                                                   20





<210>  1509

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1509

tgaagtgttt gggggaactc                                                   20





<210>  1510

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1510

tgaagtgttt gggggaactc                                                   20





<210>  1511

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1511

ctgaagtgtt tgggggaact c                                                 21





<210>  1512

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1512

ctgaagtgtt tgggggaact c                                                 21





<210>  1513

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1513

atgaagtgtt tgggggaact c                                                 21





<210>  1514

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1514

atgaagtgtt tgggggaact c                                                 21





<210>  1515

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1515

atgaagtgtt tgggggaact c                                                 21





<210>  1516

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1516

atgaagtgtt tgggggaact c                                                 21





<210>  1517

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1517

atgaagtgtt tgggggaact c                                                 21





<210>  1518

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1518

atgaagtgtt tgggggaact c                                                 21





<210>  1519

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1519

ttgaagtgtt tgggggaact c                                                 21





<210>  1520

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1520

atgaagtgtt tgggggaact c                                                 21





<210>  1521

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1521

atgaagtgtt tgggggaact c                                                 21





<210>  1522

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1522

atgaagtgtt tgggggaact c                                                 21





<210>  1523

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1523

atgaagtgtt tgggggaact c                                                 21





<210>  1524

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1524

atgaagtgtt tgggggaact c                                                 21





<210>  1525

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1525

atgaagtgtt tgggggaact c                                                 21





<210>  1526

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1526

atgaagtgtt tgggggaact c                                                 21





<210>  1527

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1527

atgaagtgtt tgggggaact c                                                 21





<210>  1528

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1528

atgaagtgtt tgggggaact c                                                 21





<210>  1529

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1529

gtgaagtgct tgggggaact c                                                 21





<210>  1530

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1530

gtgaagtgtt tggaggaact c                                                 21





<210>  1531

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1531

gtgaattgtt tgggggaact c                                                 21





<210>  1532

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1532

gtgaagtgtt tggggaaact c                                                 21





<210>  1533

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1533

ctgaagtgtt tgggggaact c                                                 21





<210>  1534

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1534

ctgaagtgtt tgggggaact c                                                 21





<210>  1535

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1535

ctgaagtgtt tgggggaact c                                                 21





<210>  1536

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1536

ctgaagtgtt tgggggaact c                                                 21





<210>  1537

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1537

ctgaagtgtt tgggggaact c                                                 21





<210>  1538

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1538

ctgaagtgtt tgggggaact c                                                 21





<210>  1539

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1539

ctgaagtgtt tgggggaact c                                                 21





<210>  1540

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1540

ctgaagtgtt tgggggaact c                                                 21





<210>  1541

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1541

ctgaagtgtt tgggggaact c                                                 21





<210>  1542

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1542

ctgaagtgtt tgggggaact c                                                 21





<210>  1543

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1543

ctgaagtgtt tgggggaact c                                                 21





<210>  1544

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1544

ctgaagtgtt tgggggaact c                                                 21





<210>  1545

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1545

ctgaagtgtt tgggggaact c                                                 21





<210>  1546

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1546

ctgaagtgtt tgggggaact c                                                 21





<210>  1547

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1547

atgaagtgtt tgggggaact c                                                 21





<210>  1548

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1548

gtgaagtgtt tggaggaact c                                                 21





<210>  1549

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1549

gtgaagtgct tgggggaact c                                                 21





<210>  1550

<211>  21

<212>  DNA

<213>  Solanum demissum



<400>  1550

ctgaagtgtt tgggggaact c                                                 21





<210>  1551

<211>  22

<212>  DNA

<213>  Solanum lycopersicum



<400>  1551

ctgaagtgtt tgggggaact cc                                                22





<210>  1552

<211>  22

<212>  DNA

<213>  Solanum lycopersicum



<400>  1552

ctgaagtgtt tgggggaact cc                                                22





<210>  1553

<211>  20

<212>  DNA

<213>  Triticum aestivum



<400>  1553

tgaagtgttt gggggaactc                                                   20





<210>  1554

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1554

ctgaagtgtt tgggggaact c                                                 21





<210>  1555

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1555

ctgaagtgtt tgggggaact c                                                 21





<210>  1556

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1556

ctgaagtgtt tgggggaact c                                                 21





<210>  1557

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1557

ctgaagtgtt tgggggaact c                                                 21





<210>  1558

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1558

ctgaagtgtt tgggggaact c                                                 21





<210>  1559

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1559

ctgaagtgtt tgggggaact c                                                 21





<210>  1560

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1560

ctgaagtgtt tgggggaact c                                                 21





<210>  1561

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1561

ctgaagtgtt tgggggaact c                                                 21





<210>  1562

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1562

ctgaagtgtt tgggggaact c                                                 21





<210>  1563

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1563

ctgaagtgtt tgggggaact c                                                 21





<210>  1564

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1564

ctgaagtgtt tgggggaact c                                                 21





<210>  1565

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1565

ctgaagtgtt tgggggaact c                                                 21





<210>  1566

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1566

ctgaagtgtt tgggggaact c                                                 21





<210>  1567

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1567

ctgaagtgtt tgggggaact c                                                 21





<210>  1568

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1568

ctgaagtgtt tgggggaact c                                                 21





<210>  1569

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1569

gtgaagtgtt tggaggaact c                                                 21





<210>  1570

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1570

gtgaagtgtt tggaggaact c                                                 21





<210>  1571

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1571

gtgaagtgtt tggaggaact c                                                 21





<210>  1572

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1572

gtgaagtgtt tgggtgaact c                                                 21





<210>  1573

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1573

ctgaagtgtt tggggggact c                                                 21





<210>  1574

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1574

ctgaagtgtt tggggggact c                                                 21





<210>  1575

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1575

ctgaagtgtt tggggggact c                                                 21





<210>  1576

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1576

ctgaagtgtt tggaggaact c                                                 21





<210>  1577

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1577

ctgaagtgtt tggggggact c                                                 21





<210>  1578

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1578

ctgaagtgtt tggggggact c                                                 21





<210>  1579

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1579

ctgaagtgtt tggggggact c                                                 21





<210>  1580

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1580

ttgaagtgtt tgggggaact t                                                 21





<210>  1581

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1581

atgaagtatt tgggggaact c                                                 21





<210>  1582

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1582

atgaagtgtt tgggggaact t                                                 21





<210>  1583

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1583

ttgaagcgtt tgggggaact c                                                 21





<210>  1584

<211>  20

<212>  DNA

<213>  Oryza sativa



<400>  1584

tgaagtgctt gggggaactc                                                   20





<210>  1585

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1585

atgaagtgtt tggaggaact c                                                 21





<210>  1586

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1586

gtgaagcgtt tgggggaaat c                                                 21





<210>  1587

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1587

gtgaagtatt tggcggaact c                                                 21





<210>  1588

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1588

gtgaagtgtt tgaggaaact c                                                 21





<210>  1589

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1589

ctgaagtgtt tggggggact t                                                 21





<210>  1590

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1590

ctgaagggtt tggaggaact c                                                 21





<210>  1591

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1591

ctgaagggtt tggaggaact c                                                 21





<210>  1592

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1592

ctaaagtgtt taggggaact c                                                 21





<210>  1593

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1593

gtgaagtgtt tggagtagct c                                                 21





<210>  1594

<211>  21

<212>  DNA

<213>  Picea abies



<400>  1594

ctgaagtgtt tggaggaact t                                                 21





<210>  1595

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1595

ctgaagggtt tggaggaact c                                                 21





<210>  1596

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1596

aagtgtttgg ggaactctag g                                                 21





<210>  1597

<211>  22

<212>  DNA

<213>  Oryza sativa



<400>  1597

gtgaagtgtt tgggggattc tc                                                22





<210>  1598

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1598

ctgaagagtc tggaggaact c                                                 21





<210>  1599

<211>  20

<212>  DNA

<213>  Physcomitrella patens



<400>  1599

ctgaagcgtt tgggggaagg                                                   20





<210>  1600

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1600

tgtgttctca ggtcgccccc g                                                 21





<210>  1601

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1601

tgtgttctca ggtcgccccc g                                                 21





<210>  1602

<211>  21

<212>  DNA

<213>  Triticum aestivum



<400>  1602

tgtgttctca ggtcgccccc g                                                 21





<210>  1603

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1603

tgtgttctca ggtcgccccc g                                                 21





<210>  1604

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1604

tgtgttctca ggtcgccccc g                                                 21





<210>  1605

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1605

tgtgttctca ggtcgcccct g                                                 21





<210>  1606

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1606

tgtgttctca ggtcgcccct g                                                 21





<210>  1607

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1607

tgtgttctca ggtcgcccct g                                                 21





<210>  1608

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1608

tgtgttctca ggtcgcccct g                                                 21





<210>  1609

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1609

tgtgttctca ggtcgcccct g                                                 21





<210>  1610

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1610

tgtgttctca ggtcgcccct g                                                 21





<210>  1611

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1611

tgtgttctca ggtcgcccct g                                                 21





<210>  1612

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1612

tgtgttctca ggtcgcccct g                                                 21





<210>  1613

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1613

tgtgttctca ggtcgcccct g                                                 21





<210>  1614

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1614

tgtgttctca ggtcgcccct g                                                 21





<210>  1615

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1615

tgtgttctca ggtcgcccct g                                                 21





<210>  1616

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1616

tgtgttctca ggtcgcccct g                                                 21





<210>  1617

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1617

tgtgttctca ggtcacccct t                                                 21





<210>  1618

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1618

tgtgttctca ggtcacccct g                                                 21





<210>  1619

<211>  23

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1619

tgtgttaact caggtcaccc ctg                                               23





<210>  1620

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1620

tgtgttctca ggtcacccct g                                                 21





<210>  1621

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1621

tgtgttctca ggtcacccct g                                                 21





<210>  1622

<211>  20

<212>  DNA

<213>  Arachis hypogaea



<400>  1622

tgtgttctca ggtcacccct                                                   20





<210>  1623

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1623

tgtgttctca ggtcacccct t                                                 21





<210>  1624

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1624

tgtgttctca ggtcacccct t                                                 21





<210>  1625

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1625

tgtgttctca ggtcacccct t                                                 21





<210>  1626

<211>  21

<212>  DNA

<213>  Brassica oleracea



<400>  1626

tgtgttctca ggtcacccct t                                                 21





<210>  1627

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1627

tgtgttctca ggtcacccct t                                                 21





<210>  1628

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1628

tgtgttctca ggtcacccct t                                                 21





<210>  1629

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1629

tgtgttctca ggtcacccct t                                                 21





<210>  1630

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1630

tgtgttctca ggtcacccct t                                                 21





<210>  1631

<211>  21

<212>  DNA

<213>  Gossypium raimondii



<400>  1631

tgtgttctca ggtcacccct t                                                 21





<210>  1632

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1632

tgtgttctca ggtcacccct t                                                 21





<210>  1633

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1633

tgtgttctca ggtcacccct t                                                 21





<210>  1634

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1634

tgtgttctca ggtcacccct t                                                 21





<210>  1635

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1635

tgtgttctca ggtcacccct t                                                 21





<210>  1636

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1636

tgtgttctca ggtcacccct t                                                 21





<210>  1637

<211>  21

<212>  DNA

<213>  Pinus taeda



<400>  1637

tgtgttccaa ggtcacccca g                                                 21





<210>  1638

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1638

tcattgagcg cagcgttgat g                                                 21





<210>  1639

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1639

tcattgagtg cagcgttgat g                                                 21





<210>  1640

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1640

tcattgagtg cagcgttgat g                                                 21





<210>  1641

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1641

tcattgagtg cagcgttgat g                                                 21





<210>  1642

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1642

tcattgagtg cagcgttgat g                                                 21





<210>  1643

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1643

tcattgagtg cagcgttgat g                                                 21





<210>  1644

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1644

tcattgagtg cagcgttgat gt                                                22





<210>  1645

<211>  22

<212>  DNA

<213>  Brassica napus



<400>  1645

tcattgagtg cagcgttgat gt                                                22





<210>  1646

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1646

tcattgagtg cagcgttgat g                                                 21





<210>  1647

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1647

tcattgagtg cagcgttgat g                                                 21





<210>  1648

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1648

tcattgagtg cagcgttgat g                                                 21





<210>  1649

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1649

tcattgagtg cagcgttgat g                                                 21





<210>  1650

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1650

tcattgagtg cagcgttgat g                                                 21





<210>  1651

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1651

tcattgagtg cagcgttgat g                                                 21





<210>  1652

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1652

tcattgagtg cagcgttgat g                                                 21





<210>  1653

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1653

tcattgagtg cagcgttgat g                                                 21





<210>  1654

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1654

tcattgagtg catcgttgat g                                                 21





<210>  1655

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1655

ttattgagtg cagcgttgat g                                                 21





<210>  1656

<211>  21

<212>  DNA

<213>  Picea abies



<400>  1656

tcattgagtg cagcgttgac g                                                 21





<210>  1657

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1657

ccattgagtg cagcgttgat g                                                 21





<210>  1658

<211>  20

<212>  DNA

<213>  Solanum lycopersicum



<400>  1658

attgagtgca gcgttgatga                                                   20





<210>  1659

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1659

attgagtgca gcgttgatga a                                                 21





<210>  1660

<211>  22

<212>  DNA

<213>  Gossypium hirsutum



<400>  1660

ttcattgagt gcagtgttga tt                                                22





<210>  1661

<211>  21

<212>  DNA

<213>  Hordeum vulgare



<400>  1661

ccgttgagtg cagcgttgat g                                                 21





<210>  1662

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1662

tcattgagtg gagctttgat g                                                 21





<210>  1663

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1663

ttgagtgcag cgttgatgaa c                                                 21





<210>  1664

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1664

ttgagtgcag cgttgatgaa c                                                 21





<210>  1665

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1665

ttattgagtg cagccgtgat a                                                 21





<210>  1666

<211>  21

<212>  DNA

<213>  Glycine max



<400>  1666

atgaagtgtt tgggggaact c                                                 21





<210>  1667

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1667

atgaagtgtt tgggggaact c                                                 21





<210>  1668

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1668

atgaagtgtt tgggggaact c                                                 21





<210>  1669

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1669

atgaagtgtt tgggggaact c                                                 21





<210>  1670

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1670

atgaagtgtt tgggggaact c                                                 21





<210>  1671

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1671

atgaagtgtt tgggggaact c                                                 21





<210>  1672

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1672

atgaagtgtt tgggggaact c                                                 21





<210>  1673

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1673

atgaagtgtt tgggggaact c                                                 21





<210>  1674

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1674

atgaagtgtt tgggggaact c                                                 21





<210>  1675

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1675

atgaagtgtt tgggggaact c                                                 21





<210>  1676

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1676

atgaagtgtt tgggggaact c                                                 21





<210>  1677

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1677

atgaagtgtt tgggggaact c                                                 21





<210>  1678

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1678

atgaagtgtt tgggggaact c                                                 21





<210>  1679

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1679

atgaagtgtt tgggggaact c                                                 21





<210>  1680

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1680

atgaagtgtt tgggggaact c                                                 21





<210>  1681

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1681

gtgaagtgtt tgggggaact c                                                 21





<210>  1682

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1682

gtgaagtgtt tgggggaact c                                                 21





<210>  1683

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1683

gtgaagtgtt tgggggaact c                                                 21





<210>  1684

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1684

ctgaagtgtt tgggggaact c                                                 21





<210>  1685

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1685

ctgaagtgtt tgggggaact c                                                 21





<210>  1686

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1686

ctgaagtgtt tgggggaact c                                                 21





<210>  1687

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1687

ctgaagtgtt tgggggaact c                                                 21





<210>  1688

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1688

ctgaagtgtt tgggggaact c                                                 21





<210>  1689

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1689

ctgaagtgtt tgggggaact c                                                 21





<210>  1690

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1690

tgaagtgttt gggggaactc                                                   20





<210>  1691

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1691

tgaagtgttt gggggaactc                                                   20





<210>  1692

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1692

tgaagtgttt gggggaactc                                                   20





<210>  1693

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1693

tgaagtgttt gggggaactc                                                   20





<210>  1694

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1694

tgaagtgttt gggggaactc                                                   20





<210>  1695

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1695

tgaagtgttt gggggaactc                                                   20





<210>  1696

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1696

tgaagtgttt gggggaactc                                                   20





<210>  1697

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1697

tgaagtgttt gggggaactc                                                   20





<210>  1698

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1698

tgaagtgttt gggggaactc                                                   20





<210>  1699

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1699

tgaagtgttt gggggaactc                                                   20





<210>  1700

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1700

tgaagtgttt gggggaactc                                                   20





<210>  1701

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1701

tgaagtgttt gggggaactc                                                   20





<210>  1702

<211>  20

<212>  DNA

<213>  Brachypodium distachyon



<400>  1702

tgaagtgttt gggggaactc                                                   20





<210>  1703

<211>  21

<212>  DNA

<213>  Citrus sinensis



<400>  1703

ctgaagtgtt tgggggaact c                                                 21





<210>  1704

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1704

ctgaagtgtt tgggggaact c                                                 21





<210>  1705

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1705

atgaagtatt tgggggaact c                                                 21





<210>  1706

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1706

ttgaagtgtt tgggggaact c                                                 21





<210>  1707

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1707

atgaagtgtt tgggggaact t                                                 21





<210>  1708

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1708

gtgaagtgtt tgggggaact c                                                 21





<210>  1709

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1709

gtgaagtgtt tgggggaact c                                                 21





<210>  1710

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1710

gtgaagtgtt tgggggaact c                                                 21





<210>  1711

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1711

gtgaagtgtt tgggggaact c                                                 21





<210>  1712

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1712

gtgaagtgtt tgggggaact c                                                 21





<210>  1713

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1713

gtgaagtgtt tgggggaact c                                                 21





<210>  1714

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1714

gtgaagtgtt tgggggaact c                                                 21





<210>  1715

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1715

gtgaagtgtt tgggggaact c                                                 21





<210>  1716

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1716

gtgaagtgtt tgggggaact c                                                 21





<210>  1717

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1717

gtgaagtgtt tgggggaact c                                                 21





<210>  1718

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1718

gtgaagtgtt tgggggaact c                                                 21





<210>  1719

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1719

atgaagtgtt tggaggaact c                                                 21





<210>  1720

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1720

gtgaagtgtt tgggggaact c                                                 21





<210>  1721

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1721

gtgaagtgtt tgggggaact c                                                 21





<210>  1722

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1722

gtgaagtgtt tgggggaact c                                                 21





<210>  1723

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1723

gtgaagtgtt tgggggaact c                                                 21





<210>  1724

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1724

gtgaagtgtt tgggggaact c                                                 21





<210>  1725

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1725

ctgaagtgtt tgggggaact c                                                 21





<210>  1726

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1726

ctgaagtgtt tgggggaact c                                                 21





<210>  1727

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1727

ctgaagtgtt tgggggaact c                                                 21





<210>  1728

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1728

ctgaagtgtt tgggggaact c                                                 21





<210>  1729

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1729

ctgaagtgtt tgggggaact c                                                 21





<210>  1730

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1730

ctgaagtgtt tgggggaact c                                                 21





<210>  1731

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1731

ctgaagtgtt tgggggaact c                                                 21





<210>  1732

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1732

ctgaagtgtt tgggggaact c                                                 21





<210>  1733

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1733

ctgaagtgtt tgggggaact c                                                 21





<210>  1734

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1734

ctgaagtgtt tgggggaact c                                                 21





<210>  1735

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1735

ctgaagtgtt tgggggaact c                                                 21





<210>  1736

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1736

ctgaagtgtt tgggggaact c                                                 21





<210>  1737

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1737

ctgaagtgtt tgggggaact c                                                 21





<210>  1738

<211>  21

<212>  DNA

<213>  Ricinus communis



<400>  1738

ctgaagtgtt tgggggaact c                                                 21





<210>  1739

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1739

gtgaagtgtt tgggggaact c                                                 21





<210>  1740

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1740

gtgaagtgtt tgggggaact c                                                 21





<210>  1741

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1741

gtgaagtgtt tgggggaact c                                                 21





<210>  1742

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1742

gtgaagtgtt tgggggaact c                                                 21





<210>  1743

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1743

gtgaagtgtt tgggggaact c                                                 21





<210>  1744

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1744

gtgaagtgtt tgggggaact c                                                 21





<210>  1745

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1745

gtgaagtgtt tgggggaact c                                                 21





<210>  1746

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1746

gtgaagtgtt tgggggaact c                                                 21





<210>  1747

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1747

gtgaagtgtt tgggggaact c                                                 21





<210>  1748

<211>  21

<212>  DNA

<213>  Solanum demissum



<400>  1748

ctgaagtgtt tgggggaact c                                                 21





<210>  1749

<211>  22

<212>  DNA

<213>  Solanum lycopersicum



<400>  1749

ctgaagtgtt tgggggaact cc                                                22





<210>  1750

<211>  22

<212>  DNA

<213>  Solanum lycopersicum



<400>  1750

ctgaagtgtt tgggggaact cc                                                22





<210>  1751

<211>  21

<212>  DNA

<213>  Triticum aestivum



<400>  1751

gtgaagtgtt tgggggaact c                                                 21





<210>  1752

<211>  20

<212>  DNA

<213>  Triticum aestivum



<400>  1752

tgaagtgttt gggggaactc                                                   20





<210>  1753

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1753

ctgaagtgtt tgggggaact c                                                 21





<210>  1754

<211>  21

<212>  DNA

<213>  Theobroma cacao



<400>  1754

ctgaagtgtt tgggggaact c                                                 21





<210>  1755

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1755

ctgaagtgtt tgggggaact c                                                 21





<210>  1756

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1756

ctgaagtgtt tgggggaact c                                                 21





<210>  1757

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1757

ctgaagtgtt tgggggaact c                                                 21





<210>  1758

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1758

ctgaagtgtt tgggggaact c                                                 21





<210>  1759

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1759

ctgaagtgtt tgggggaact c                                                 21





<210>  1760

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1760

ctgaagtgtt tgggggaact c                                                 21





<210>  1761

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1761

ctgaagtgtt tgggggaact c                                                 21





<210>  1762

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1762

ctgaagtgtt tgggggaact c                                                 21





<210>  1763

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1763

ctgaagtgtt tgggggaact c                                                 21





<210>  1764

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1764

ctgaagtgtt tgggggaact c                                                 21





<210>  1765

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1765

ctgaagtgtt tgggggaact c                                                 21





<210>  1766

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1766

ctgaagtgtt tgggggaact c                                                 21





<210>  1767

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1767

ctgaagtgtt tgggggaact c                                                 21





<210>  1768

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1768

gtgaagtgtt tgggggaact c                                                 21





<210>  1769

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1769

gtgaagtgtt tgggggaact c                                                 21





<210>  1770

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1770

gtgaagtgtt tgggggaact c                                                 21





<210>  1771

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1771

gtgaagtgtt tgggggaact c                                                 21





<210>  1772

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1772

gtgaagtgtt tgggggaact c                                                 21





<210>  1773

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1773

gtgaagtgtt tgggggaact c                                                 21





<210>  1774

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1774

gtgaagtgtt tgggggaact c                                                 21





<210>  1775

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1775

gtgaagtgtt tgggggaact c                                                 21





<210>  1776

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1776

ctgaagtgtt tggggggact c                                                 21





<210>  1777

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1777

ctgaagtgtt tggggggact c                                                 21





<210>  1778

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1778

ctgaagtgtt tggggggact c                                                 21





<210>  1779

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1779

ctgaagtgtt tggaggaact c                                                 21





<210>  1780

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1780

ctgaagtgtt tggggggact c                                                 21





<210>  1781

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1781

ctgaagtgtt tggggggact c                                                 21





<210>  1782

<211>  21

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1782

ctgaagtgtt tggggggact c                                                 21





<210>  1783

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1783

ttgaagtgtt tgggggaact t                                                 21





<210>  1784

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1784

ttgaagcgtt tgggggaact c                                                 21





<210>  1785

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1785

gtgaagtgct tgggggaact c                                                 21





<210>  1786

<211>  20

<212>  DNA

<213>  Oryza sativa



<400>  1786

tgaagtgctt gggggaactc                                                   20





<210>  1787

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1787

gtgaagtgtt tggaggaact c                                                 21





<210>  1788

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1788

gtgaattgtt tgggggaact c                                                 21





<210>  1789

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1789

gtgaagtgtt tggggaaact c                                                 21





<210>  1790

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1790

gtgaagtgtt tggaggaact c                                                 21





<210>  1791

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1791

gtgaagtgct tgggggaact c                                                 21





<210>  1792

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1792

gtgaagtgtt tggaggaact c                                                 21





<210>  1793

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1793

gtgaagtgtt tggaggaact c                                                 21





<210>  1794

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1794

gtgaagtgtt tggaggaact c                                                 21





<210>  1795

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1795

gtgaagtgtt tgggtgaact c                                                 21





<210>  1796

<211>  21

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1796

ctgaagtgtt tggggggact t                                                 21





<210>  1797

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1797

ctgaagggtt tggaggaact c                                                 21





<210>  1798

<211>  21

<212>  DNA

<213>  Aquilegia caerulea



<400>  1798

ctgaagggtt tggaggaact c                                                 21





<210>  1799

<211>  21

<212>  DNA

<213>  Gossypium hirsutum



<400>  1799

ctaaagtgtt taggggaact c                                                 21





<210>  1800

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1800

gtgaagcgtt tgggggaaat c                                                 21





<210>  1801

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1801

gtgaagtatt tggcggaact c                                                 21





<210>  1802

<211>  21

<212>  DNA

<213>  Picea abies



<400>  1802

ctgaagtgtt tggaggaact t                                                 21





<210>  1803

<211>  21

<212>  DNA

<213>  Populus trichocarpa



<400>  1803

ctgaagggtt tggaggaact c                                                 21





<210>  1804

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1804

gtgaagtgtt tgaggaaact c                                                 21





<210>  1805

<211>  21

<212>  DNA

<213>  Brachypodium distachyon



<400>  1805

aagtgtttgg ggaactctag g                                                 21





<210>  1806

<211>  21

<212>  DNA

<213>  Oryza sativa



<400>  1806

gtgaagtgtt tggagtagct c                                                 21





<210>  1807

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1807

ctgaagagtc tggaggaact c                                                 21





<210>  1808

<211>  22

<212>  DNA

<213>  Oryza sativa



<400>  1808

gtgaagtgtt tgggggattc tc                                                22





<210>  1809

<211>  20

<212>  DNA

<213>  Physcomitrella patens



<400>  1809

ctgaagcgtt tgggggaagg                                                   20





<210>  1810

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1810

tagccaagga tgacttgcct a                                                 21





<210>  1811

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1811

tagccaagga tgacttgcct g                                                 21





<210>  1812

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1812

tagccaagga tgacttgcct g                                                 21





<210>  1813

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1813

tagccaagga tgacttgccg g                                                 21





<210>  1814

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1814

tagccaagga tgacttgccg g                                                 21





<210>  1815

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1815

tagccaagga tgacttgccg g                                                 21





<210>  1816

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1816

tagccaagga tgacttgcct a                                                 21





<210>  1817

<211>  21

<212>  DNA

<213>  Vitis vinifera



<400>  1817

tagccaagga tgacttgcct g                                                 21





<210>  1818

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1818

aagccaagga tgacttgctg g                                                 21





<210>  1819

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1819

tagccaagga tgacttgcct g                                                 21





<210>  1820

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1820

tagccaagga gactgcctat g                                                 21





<210>  1821

<211>  21

<212>  DNA

<213>  Sorghum bicolor



<400>  1821

tagccaagga tgacttgcct g                                                 21





<210>  1822

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1822

tagccaagga tgacttgccg g                                                 21





<210>  1823

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1823

tagccaagga tgacttgcct a                                                 21





<210>  1824

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1824

tagccaagga caacttgccg g                                                 21





<210>  1825

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1825

tagccaagga tgacttgccg g                                                 21





<210>  1826

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1826

tagccaagga tgacttgccg g                                                 21





<210>  1827

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1827

tagccaagga tgacttgcct a                                                 21





<210>  1828

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1828

gtgaagtgtt tggaggaact c                                                 21





<210>  1829

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1829

gtgaagtgtt tggaggaact                                                   20





<210>  1830

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1830

gtgaagtgtt tgaggaaact c                                                 21





<210>  1831

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1831

tgtgttctca gttcgccccc g                                                 21





<210>  1832

<211>  21

<212>  DNA

<213>  Medicago truncatula



<400>  1832

tgtgttctca ggtcgcccct g                                                 21





<210>  1833

<211>  20

<212>  DNA

<213>  Solanum lycopersicum



<400>  1833

ttgagtgcag cgttgatgac                                                   20





<210>  1834

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1834

gtgaagtgtt tggaggaact c                                                 21





<210>  1835

<211>  20

<212>  DNA

<213>  Zea mays



<400>  1835

gtgaagtgtt tggaggaact                                                   20





<210>  1836

<211>  21

<212>  DNA

<213>  Zea mays



<400>  1836

gtgaagtgtt tgaggaaact c                                                 21





<210>  1837

<211>  140

<212>  DNA

<213>  Zea mays



<400>  1837

gggggcgaac tgagaacaca tgagaataat gagatgagat tgctcgcctc gcggtacggt       60



tcgtgctggc ctggaccacc gtcgtcgccg ttcatcttgt acgcataata atgctgcatg      120



tgttctcagg tcgcccccgc                                                  140





<210>  1838

<211>  132

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1838

ggtagtggat ctcgacaggg tcgacatgag aacatatgag caatcaacgg ctgtaaatga       60



cgctacgtca ttattacatc tctcggtttc atgtgttaac tcaggtcacc cctgctgagc      120



tctttctcta cc                                                          132





<210>  1839

<211>  163

<212>  DNA

<213>  Brachypodium distachyon



<400>  1839

ggatgggatg caattgaggg aagctgaacc cacaggagtg tcactgagaa cacaggtgca       60



gatgccaatg catggtgagt tttcattttt gcatcgcaat tgtgttctca ggtcacccct      120



ttgggttgct tcccttgatt ccatggccag gttatgtgtc atg                        163





<210>  1840

<211>  142

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1840

gatatatttt gaaggtagtg gatctcgaca gggttgatat gaggacacat gtgtaatcaa       60



cggctgtaat gacgccacgt cattgttaca tgtgttctca ggtcacccct gctgagctct      120



ttctctaccg accatcttta tc                                               142





<210>  1841

<211>  182

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1841

taatcagtgg aagtaaagta tgaagaaaaa gagaagaaca acaggaggtg aaatctcaaa       60



ggagtgtcat gagaacacag atcctatggt ttctttacat tttcattgaa accattgagt      120



ttgtgttctc aggtcacccc tttgaatctc ccctgttcct ttattttacc ttaccaaaat      180



ta                                                                     182





<210>  1842

<211>  263

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1842

aacgcgtatg tgacgaaagt agtgtgcagc caaggatgac ttgccgattt aaatgatctt       60



tctttatact ctattaagac attttaagtt tcaaatttct ttggttcttc aaggattaag      120



gaagaaagta ggctatatat gtagatatat atattatgct gtattaaata tatgtacaag      180



ataagaccaa aaaagaaaaa gtaacaatca tgatcggcaa gttgtccttg gctacacgtt      240



actttgtgtc gcgcataggt gtt                                              263





<210>  1843

<211>  126

<212>  DNA

<213>  Zea mays



<400>  1843

gcagccaagg atgacttgcc gggtattttg agcatgcatg ttacagggga gcatatgcaa       60



tctgtttgga attttgagcc cataccgtgc ggtgcctgtc ttccggcaag ttgtccttgg      120



ctacat                                                                 126





<210>  1844

<211>  130

<212>  DNA

<213>  Zea mays



<400>  1844

taggctcggg gactatggtg cagccaagga tgacttgccg atcgatgtga cgcctcttga       60



tctcgtcgtc gtcagatcgt cgccgatcat cggcaagttg ttcttggcta caccgtggct      120



cctgctcctg                                                             130





<210>  1845

<211>  156

<212>  DNA

<213>  Zea mays



<400>  1845

taggctcggg gactacggtg cagccaagga tgacttgccg atctatcgtc gatcaacgag       60



cgacgcctct gatgtctgat ctcgacatct atcgtcgtca gaccatcatc atctatcggc      120



aagttgttct tggctacacc gtggctcctg ctcctg                                156





<210>  1846

<211>  150

<212>  DNA

<213>  Zea mays



<400>  1846

accagagctg attcgttcag tagccaagga tgacttgcct aggtatatat gcatgggcta       60



tggctacatg cctgagagcc agtctcttgt gacgctgagc atgtatagtg taggcatgtc      120



ttccttggct actcggagcg gctctagtca                                       150





<210>  1847

<211>  379

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1847

tgcctataaa taccttcatc acgagtatga caagatcaca agacaagaaa agaaaggtag       60



agaaaacatg ataatgatga ttacgatgat gagagtctct agttgtatca gagggtcttg      120



catggaagaa tagagaatga ggttgagcca aggatgactt gccgggtttt tttaccaatg      180



aatctaatta actgattctg gtgtccggca agttgacctt ggctctgttt ccttctcttc      240



ttttggatgt cagactccaa gatatctatc atcatgaatc gtgatcaaac tttgtaattt      300



cattgaaatg tgtttttctt gatgcgaatt ttttggctta cggtttttcg atttgaatga      360



tcagattttt gtttttgca                                                   379





<210>  1848

<211>  173

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1848

gtgcccaacg gagtagaatt gcatgaagtg gagtagagta taatgcagcc aaggatgact       60



tgccggaacg ttgttaatca tacgtataaa ttatgtgatg aacatatttc tggcaagttg      120



tccttcggct acattttgct ctcttcttct catgcaaact ctctttggga tat             173





<210>  1849

<211>  292

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1849

gtctcatcta aagccttgaa tgtgggaaaa aggccattgt tgttcagcca aggatgactt       60



gccggtagct ttgtatattt actctatatt cggtttatat tatggagatt atgctttata      120



tatatatata catagtttta attgattttt tttcgtacgt acgtaatcta atacgaaaaa      180



gtatttactt atttatatgt gtgttggtga gatgtgtaaa caaagcaagc ccggcaagtc      240



atctctggct atgcaactgc ctcttcctct cattctaggc ttacgatgac ac              292





<210>  1850

<211>  155

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1850

gtatctttga gtcttacatg gaaaaaatag agaatgagat tgagccaagg atgacttgcc       60



gatttttatc aacaaatctt aactgattat ggtgcccggc aagttgacct tggctctgtt      120



tccttctctt cttttcgatg tcaaactcta gatat                                 155





<210>  1851

<211>  174

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1851

gtcactaatt gtatcataga gtcttgcatg gaaaaaatag agaatgagat tgagccaagg       60



atgacttgcc gaatttatta acaaatctca aatgattatg gtgcccggca agttgacctt      120



ggctctgttt ccttctcttc ttttcgatgt caaactctag atatatcaat cgat            174





<210>  1852

<211>  184

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1852

tgtatcagag ggtcttgcat gaaggaataa agaatggaat tgagccaagg atgacttgcc       60



ggtttaaaca caaccggatt atgaccattg atttggtctc attcacaatc tgttgattcg      120



tgtctggcaa gttgaccttg gctctgcttc gttctctatt cttccatgtt agattccaga      180



tata                                                                   184





<210>  1853

<211>  202

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1853

atgatgatga tgagtctcta gttgtatcag agggtcttgc atggaagagt agagaatgag       60



gttgagccaa ggatgacttg ccgggttttt taccaatgaa tcttaactga ttttggtgtc      120



cggcaagttg accttggctc tgtttccttc tcttcttttc gatgtcagac tccgcgatat      180



atatctattt catcatcgtc at                                               202





<210>  1854

<211>  138

<212>  DNA

<213>  Zea mays



<400>  1854

gtagccaaga atgacttgcc tatgcacgcc ctctgttggc agttccgtcc ggcagccatg       60



gcgacggttg cacaaggtga gtttttgcgg cgtggatgat gcaatgtggc tgcatcggca      120



ggtcttcttg gctagcca                                                    138





<210>  1855

<211>  65

<212>  DNA

<213>  Zea mays



<400>  1855

gtagccaagg atgacttgcc ggcattatat ttcttggccc gccggcaagt catctggggc       60



tacgc                                                                   65





<210>  1856

<211>  205

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1856

tagaaaatca tataagagaa aatggtgaca tgaagaatga gaacttgtgt ggtagccaag       60



gatgacttgc ctgcgtttta acaatacaat atcaaagact actcgatcga tcgatagtct      120



tagagttggt tagtcgtcag gcagtctcct tggctattca aacaattctt gttctcctca      180



tttcacatct ctctttcgtt ttttg                                            205





<210>  1857

<211>  300

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1857

gaatgaggca aaacatattg agtaatggag tgtataatga ggaagagagg tctaacatgg       60



cgaaaagagt catgtttaat agccaaggat gacttgcctg atctttttca cctccatgat      120



tcaatttgaa gttcatgcgt tttggattat tatgcatcta aaaggtataa taattcgaaa      180



atcatgttga atcatgcggg ttaggtttca ggcagtctcc ttggctatct tgacatgctt      240



ttttcatcca tgttatacct gtttttcttt ctgtctctaa agtcactatt aagtctcttc      300





<210>  1858

<211>  203

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1858

gaaggagatg tcaaagatga ataagagaac cacatttggt agccaaggat gacttgcctg       60



tttctttgaa caaaatggtt ggtgtcatgt ttgatgtgac tacaagttat atcaagaatg      120



acattttgct tataaaaaga catcaggcag tctccttggc tatccttata tgttcttctt      180



tctcatctca gacatttacc ttc                                              203





<210>  1859

<211>  272

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1859

gttaagaaat gtatgatgaa gatgagaggt ctaacatggc gaaaagagtc atgtttaata       60



gccaaggatg acttgcctga tctttttcac ctccatgatt caatttgaat ttcatgggtt      120



ttggattatt atgcatctaa aaggtgtaat aattcgaaaa tcaagttgaa tcttgcgggt      180



taggtttcag gcagtctcct tggctatctt gacatactct tttcatccat gttataccta      240



attttctttt tttattgagg atatttgagg at                                    272





<210>  1860

<211>  191

<212>  DNA

<213>  Zea mays



<400>  1860

gatgagagtg gtagctctgg tagccaagga tgacttgcct gtgtgctggc cacgctcccc       60



tcatgcaagg accatctcgt gtcgaccgac gagcgagcga gcgatcgatc gatgagagga      120



tgacgaagct tggggtgtac gttggtctct cacgggcagt ctccttggct agccctgact      180



cactcttacc g                                                           191





<210>  1861

<211>  151

<212>  DNA

<213>  Zea mays



<400>  1861

gcgataagag tctgtccaga tagccaagga tgacttgcct gtggcttctt ggcttggctt       60



ggctcgggca aaaccttgtg cacgttttat tgctcgcctc gtggcctcga tcacaggcag      120



tctccttggc tagtccgggc gggcccctta t                                     151





<210>  1862

<211>  133

<212>  DNA

<213>  Zea mays



<400>  1862

cgatgagagc actgctctgg tagccaagga tgacttgcct gtggcctcca tcagtcgcag       60



aggacgctgt tcttctgctt gtggttgtcg atcgcaggca gtctccttgg ctagcccgag      120



cggctctcat cca                                                         133





<210>  1863

<211>  89

<212>  DNA

<213>  Zea mays



<400>  1863

gtagccaggg atgatttgcc tgtggttcct gtcgttgcca tgccaatgcc tgtactgttc       60



gatctacggg caaatcatcc ctgctaccg                                         89





<210>  1864

<211>  101

<212>  DNA

<213>  Zea mays



<400>  1864

ttagccaaga atggcttgcc tatctccatt attttgttca tcgcaggaag cccttccgtg       60



atggatgaaa tgtggatgat ggcatccatt cttggctaag t                          101





<210>  1865

<211>  104

<212>  DNA

<213>  Zea mays



<400>  1865

ttagccaaga atggcttgcc tatctccact gtttggttcg tcttgggaga ccaccctgat       60



gatgggtgta ctgtgtggat gatggcaggc cttcttggct aagc                       104





<210>  1866

<211>  210

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1866

gaaggagatg tcaaagatga gtaggagaat catatttggt agccaaggat gacttgcctg       60



attcctttgc gtaaaatggt tagtgtcatg tttgacaaag tgactatcaa ttacatcaag      120



cgatgaccat tttgcttata aaaaagatgt caggcagtct ccttggatat ccttatatgt      180



tcttctcttt catctcagac attcatcttc                                       210





<210>  1867

<211>  230

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1867

tcattattta gaaggaaatg tcaaagatga ataggagaat catatttggt agccaaggat       60



gacttgcctg tttctttgag taaaatggtt attgtcatgt ttgacaagtg actataagtt      120



atatcaagta acgaccattt tactcatcaa aagacatgag gcagtcttct tggctatcct      180



tatatgttct tctgtctcat ctcagacgtt aaccttcatc taaaataaga                 230





<210>  1868

<211>  252

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1868

gaagtgtata acgaggaaaa gaggtctaac atggcgaaaa gagtcatgtt tagtagccaa       60



agatgacttg cctgatcttt ttcacctcca tgattcaatt tgaattccat gggttttgga      120



ttattatgca ttttaaaagc ataatagttc gaaaatcatg ttgaatcttg cgggttaggt      180



ttcaggcagt ctctttggct atcttgacat gcttttttca ttcatgttat acctattttt      240



ctttctgtct tc                                                          252





<210>  1869

<211>  158

<212>  DNA

<213>  Aquilegia caerulea



<400>  1869

gcatgaaagt aggaggcgtg tttagtagcc aaggatgact tgcctaccaa gggtctcatt       60



ttaaggcatt atcttccttg gataatgcgt ctggaatcct cgactggtta ataggcagtc      120



tccttggcca acttgactgc ctcctattac tcatgcta                              158





<210>  1870

<211>  187

<212>  DNA

<213>  Brachypodium distachyon



<400>  1870

atggagatgg agagcctccc ttgattttgg tagccaagaa tgacttgcct atgcttgccc       60



tctgctaacc agctagccat gcatggtaac caatggacaa atttcttgtg gttggcgtgg      120



ttagtgtggt tgcatgggtg ggtcttcttg gctagccaga gcggctctca tccaccatgc      180



caggcca                                                                187





<210>  1871

<211>  164

<212>  DNA

<213>  Brachypodium distachyon



<400>  1871

cttgcatgag ggccagagcc tgcttcctcc ggtagccaag gatgacttgc ctatatttgc       60



tccttcagaa gtcctggtta attacatgcc aggtttcaga tgagtttggc gataggcagt      120



caccttggct agcctgagtg gctcttgcct cttatggaag gcct                       164





<210>  1872

<211>  175

<212>  DNA

<213>  Brachypodium distachyon



<400>  1872

tggagacgag gagccccttt gcaggctcta ccagccaaga atggcttgcc tatgcccacg       60



ttctgtttca tcaccactgg gcttaatctt ggagccctgg tgatggatga gatgtgattg      120



tatggtcaag ccatcttggc tagaagagag atcctcgtcc cccatgctag gctgc           175





<210>  1873

<211>  176

<212>  DNA

<213>  Brassica napus



<400>  1873

agatgaatag aagaatcata tttggtagcc aaggatgact tgcctatttc ttgagagtaa       60



aatgggcatg gtgtcatgtt aaaagttact gtaggtagtt tcaatttgac cattttcctt      120



acaaatgata ttaggcagtc tccttggcta tccttatatg ttcttctctc tcatct          176





<210>  1874

<211>  220

<212>  DNA

<213>  Brassica napus



<400>  1874

gaaggagatg tcaaagatga ataggagatt tctatttggt agccaaggat gacttgccta       60



cttctttgcg aaggaaaatg gtcacggtgt catgtttgaa agtgaatata catttttaag      120



agtatatcaa ttagtgacca ttttgcgtat aaaaagatat taggcagtct ccttggctat      180



ccttatatgt tcttctttct catctcagac atttaccttc                            220





<210>  1875

<211>  277

<212>  DNA

<213>  Brassica napus



<400>  1875

gtttcaggca gtctccttgg ctatcttgac atgctttttt cttccatgtt ataccttctt       60



tctttgtatt tttcgaatcc aaataatatt tttttctata aatttactac gaaaatcctt      120



taaacaatct ctaacaaagt atgttattag aaaactacca ctttttgcat ttattacaaa      180



tgcatgtacg tggtgagtgt atgcattctt tagaaggaaa tgtcaaaggt gaatagaaga      240



atcatatttg gtagccaagg atgacttgcc tatttct                               277





<210>  1876

<211>  201

<212>  DNA

<213>  Brassica napus



<400>  1876

gtcaaagatg aataggagaa ttctatttgg tagccaagga tgacttgcct acttctttgc       60



gaaggaaaat ggtcacggtg tcatgtttga aagtgaatat atatttataa gagtatatca      120



attagtgacc attttgcgta taaaaagata ttaggcagtc tccttggcta tccttatatg      180



ttcttctttc tcatctcaga c                                                201





<210>  1877

<211>  168

<212>  DNA

<213>  Brassica napus



<400>  1877

gagaaacggt gacatgaaga atgagaagtt gtgtggtagc caaggatgac ttgcctgcgt       60



ctttaacacc atatcaaaga ctttatcgat agtctctgag ttggttaggc tgtaggcagt      120



ctccttggct attcagacac tcctctttct cctcatttca catttctc                   168





<210>  1878

<211>  176

<212>  DNA

<213>  Brassica napus



<400>  1878

gagaaatggt gacatgaaga atgagaagtt gtgtggtagc caaggatgac ttgcctgcgt       60



cttagaccat atctatcaaa gactaaaaga ttgatagtct tcgatgaatt ggttaatcgg      120



taggcagtct cctcggctat tcagacagtt ctctttctcc tcatttcaca tttctc          176





<210>  1879

<211>  174

<212>  DNA

<213>  Brassica napus



<400>  1879

agagtcatgt ttagtagcca aggatgactt gcctgctctt tttcacctcc atgattcaat       60



tttatgtaca gttttggatt actatgcttc taaagagtat agtaattcaa aatcttgttg      120



aatctttgag ggtaacagtt tcaggcagtc tccttggcta tcttgacatg cttt            174





<210>  1880

<211>  167

<212>  DNA

<213>  Brassica napus



<400>  1880

gtgtttagta gccaaggatg acttgcctgc tcttgttcac ctccacgatt caactttata       60



cgttgaaggg ttttggatta ttgtgcattc aacatgtata ataatttgaa atcatgttga      120



atctttgtgg gttaggtttc aggcagtctc cttggctatt ttgacat                    167





<210>  1881

<211>  155

<212>  DNA

<213>  Brassica napus



<400>  1881

aaacggtgac atgaagaatg agaagttgtg tggtagccaa ggatgacttg cctgcgtctt       60



aacaccatat cacagacttt atcgatagtc tctgagttgg ttaggctgta ggcagtctcc      120



tcggctattc agacactcct ctttctcctc atttc                                 155





<210>  1882

<211>  199

<212>  DNA

<213>  Brassica napus



<400>  1882

catggcgaaa agagtcgtgt ttagtagcca aggatgactt gcctgctctt gttcacctcc       60



acgattcaac tttatacgtt gaagggtttt ggattattgt gcattcaaca tgtataataa      120



tttgaaatca tgttgaatct ttgtgggtta ggtttcaggc agtctccttg gctattttga      180



catacttttt tcatccatg                                                   199





<210>  1883

<211>  150

<212>  DNA

<213>  Festuca arundinacea



<400>  1883

ggcacgaggg caaagcctta catggctgca agggccttac ctctgatagc caaggatgac       60



ttgcctatgt cttcttcctc cctcagatgc ctaattagcc ttggaggtgt ggggtctcat      120



gggcagtcac cttggctagc ctgagtggct                                       150





<210>  1884

<211>  139

<212>  DNA

<213>  Medicago truncatula



<400>  1884

tttataagcc aaggatgact tgcctagcta aaaaccattt acattaattg gggacttaat       60



ttgtatatgt tatgtctgat cgatgatgag tatgtccctt gtttagttta ttagcaggca      120



ggtatcctag gctttttga                                                   139





<210>  1885

<211>  170

<212>  DNA

<213>  Oryza sativa



<400>  1885

gctgattcgg tagccaagga tgacttgcct aatgcctatg tgcatgtgtt tatacgctgc       60



tcatctgcat tttgattatc ccctgatcag tcctgtcgtc aattatatgt gtgtgtagta      120



ctctgtactc atacatatat aggcatgtct tccttggcta ttcggagcgg                 170





<210>  1886

<211>  126

<212>  DNA

<213>  Oryza sativa



<400>  1886

ctgcctctgg tagccaagga tgacttgcct attgtgctct tctgaatgat gcagtgccat       60



gatcagtgtg gcctggctgg ttcagatgag ccgagatagg cagtctcctt ggctagcctg      120



agtggc                                                                 126





<210>  1887

<211>  177

<212>  DNA

<213>  Oryza sativa



<400>  1887

ctccctttgg tagccaagaa tgacttgcct atgtgttttg ccttgtgttg gctcatccat       60



ccatctatca gccgttgcag atttgcagtg gcagattaaa gggtttcaga aagaaattct      120



tgtgatggat gtgcaatgtg gctgcatggg ccggtcttct tggctagcca gagtggc         177





<210>  1888

<211>  173

<212>  DNA

<213>  Oryza sativa



<400>  1888

ctccctttgg tagccaagaa tgacttgcct acgcttttgc cctctgttgg ctcatccatc       60



cgtctatcta tctgccatgg cagatggcag attaagggtt tctgaaagaa attcttgtga      120



taggatgtgc aatgaggctg catgggccgg tcttcttggc tagccagagt ggc             173





<210>  1889

<211>  119

<212>  DNA

<213>  Populus trichocarpa



<400>  1889

gagggtttgg tagccaagga tgacttgcct atttcctcca taaggcttta aaaagcatga       60



aatgtggttt agagctcaat tgaagggttc ataggcagtc tactttggtt atcctagct       119





<210>  1890

<211>  126

<212>  DNA

<213>  Sorghum bicolor



<400>  1890

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acacggcctt gcgagttccg       60



gttgcatggc cagttcagtt gggtttgtgg gcggtcacct tggctagcct gagtggctct      120



tgcctg                                                                 126





<210>  1891

<211>  103

<212>  DNA

<213>  Sorghum bicolor



<400>  1891

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acatggcatt gcgagttccg       60



gttgcatggc cagttcagct gagtttgtgg gcggtcacct tgg                        103





<210>  1892

<211>  169

<212>  DNA

<213>  Sorghum bicolor



<400>  1892

gatggagagc ccccttttgc tagccaagaa tgacttgcct atgcatgccc tctgttggca       60



attcctccag ccatggagat tgcacaaggt gaatttttgc ggcatagatg atggatgcaa      120



tgtggctgca tgggcaggtc ttcttggcta gccagagtgc tctcatcca                  169





<210>  1893

<211>  92

<212>  DNA

<213>  Sorghum bicolor



<400>  1893

tagccaagga tgacttgcct atatcctctc taaaggatca gcaaatattg aggcttctag       60



tggtctcata tgggcagtct ccttggctag cc                                     92





<210>  1894

<211>  93

<212>  DNA

<213>  Sorghum bicolor



<400>  1894

ggtagccaag gatgacttgc ctatatcctc tatgaaggat cagcaaatat cgaggctttg       60



agtggtctca tgggcagtct ccttggctag cct                                    93





<210>  1895

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  1895

ttagccaaga atggcttgcc tatctccatt atttggttca tcagagggac ctctgatccc       60



tcatgatgga tgaaatgtgg atgatggcag cccttctggc taagt                      105





<210>  1896

<211>  104

<212>  DNA

<213>  Sorghum bicolor



<400>  1896

ttagccaaga atggcttgcc tatctccatt attttgttca tcgatgcagg cctagggatc       60



gtcatggatg aaatgtggat gatggcatcc attcttggct aagt                       104





<210>  1897

<211>  176

<212>  DNA

<213>  Solanum lycopersicum



<400>  1897

gaagaggggt tttatatgaa gttgagagta ttatttagta gccaaggatg acttgcctac       60



ttcatttgat atatagttta aaataataat attgacaata tttgtcattt ggtcgtaggc      120



aagttatcct ggctatcttg acatgctcgt aatttttcat gtaagacctt atcttc          176





<210>  1898

<211>  152

<212>  DNA

<213>  Theobroma cacao



<400>  1898

agattaagag tcttgttggg tagccaagga tgacttgcct atatccaaaa aggattttga       60



ggaaagaaaa gctgaatctg ataaatctca tcagagtcct tttaatggtt tctgggcagt      120



ctcctttggc tatcctgact ggctcttatc tt                                    152





<210>  1899

<211>  125

<212>  DNA

<213>  Vitis vinifera



<400>  1899

gtctcgtctg gtagccaagg atgacttgcc taaatccacc aggtttcaaa acactgaatg       60



taattatcca caaagcgatt ccgtggtctt taggcagtca ttccttcggc taaactgacc      120



ggctc                                                                  125





<210>  1900

<211>  150

<212>  DNA

<213>  Zea mays



<400>  1900

accagagctg attcgttcag tagccaagga tgacttgcct aggtatatat gcatgggcta       60



tggctacatg cctgagagcc agtctcttgt gacgctgagc atgtatagtg taggcatgtc      120



ttccttggct actcggagcg gctctagtca                                       150





<210>  1901

<211>  140

<212>  DNA

<213>  Zea mays



<400>  1901

cagagctagc ctgcctctgg tagccaagga tgacttgcct acatggtctc gctagttccg       60



gttgttgcat gcatgccact atgccagtcc tgctgggttt gtgggcggtc tccttggcta      120



gcctgagtgg ctcttgcctg                                                  140





<210>  1902

<211>  128

<212>  DNA

<213>  Zea mays



<400>  1902

caataagggc ctgcctctga tagccaagga tgacttgcct atgtcctttg tttacaaagg       60



atcagaattg tggacctttg tgttggttcg taggcagtct ccttggctag cctgagtggc      120



ccctattg                                                               128





<210>  1903

<211>  101

<212>  DNA

<213>  Zea mays



<400>  1903

ttagccaaga atggcttgcc tatctccatt attttgttca tcgcaggaag cccttccgtg       60



atggatgaaa tgtggatgat ggcatccatt cttggctaag t                          101





<210>  1904

<211>  98

<212>  DNA

<213>  Sorghum bicolor



<400>  1904

tagccaagga tgacttgcct agctatatgc ctgagagcct gtctcttggt ggtaaatttg       60



tatgtgctga gcatataggc atgtcttcct tggctact                               98





<210>  1905

<211>  149

<212>  DNA

<213>  Vitis vinifera



<400>  1905

gtcttgtctg atagccaagg atgacttgcc tgccctatcc caagtgggtc aatttctttc       60



ttttttccaa gtagtgtttg atatttgata tatcatgaat ccggttgttt gggttccagg      120



cagtcacctt ggctaatttt acaggctct                                        149





<210>  1906

<211>  104

<212>  DNA

<213>  Zea mays



<400>  1906

ttagccaaga atggcttgcc tatctccact gtttggttcg tcttgggaga ccaccctgat       60



gatgggtgta ctgtgtggat gatggcaggc cttcttggct aagc                       104





<210>  1907

<211>  138

<212>  DNA

<213>  Zea mays



<400>  1907

gtagccaaga atgacttgcc tatgcacgcc ctctgttggc agttccgtcc ggcagccatg       60



gcgacggttg cacaaggtga gtttttgcgg cgtggatgat gcaatgtggc tgcatcggca      120



ggtcttcttg gctagcca                                                    138





<210>  1908

<211>  106

<212>  DNA

<213>  Zea mays



<400>  1908

ttagccaaga atggcttgcc tatctccatt atttggtcca tcttcttggg agacctccct       60



catggtgtgg atggaatgtg gatggtggca ggccttctgg ctaagt                     106





<210>  1909

<211>  89

<212>  DNA

<213>  Zea mays



<400>  1909

gtagccaggg atgatttgcc tgtggttcct gtcgttgcca tgccaatgcc tgtactgttc       60



gatctacggg caaatcatcc ctgctaccg                                         89





<210>  1910

<211>  88

<212>  DNA

<213>  Glycine max



<400>  1910

agattagtgg atgtgagcca aggatgactt gccggttgta taatagcacc cggtttaagt       60



ccttcttggt tcttatttac tattctta                                          88





<210>  1911

<211>  184

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1911

tgtatcagag ggtcttgcat gaaggaataa agaatggaat tgagccaagg atgacttgcc       60



ggtttaaaca caaccggatt atgaccattg atttggtctc attcacaatc tgttgattcg      120



tgtctggcaa gttgaccttg gctctgcttc gttctctatt cttccatgtt agattccaga      180



tata                                                                   184





<210>  1912

<211>  379

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1912

tgcctataaa taccttcatc acgagtatga caagatcaca agacaagaaa agaaaggtag       60



agaaaacatg ataatgatga ttacgatgat gagagtctct agttgtatca gagggtcttg      120



catggaagaa tagagaatga ggttgagcca aggatgactt gccgggtttt tttaccaatg      180



aatctaatta actgattctg gtgtccggca agttgacctt ggctctgttt ccttctcttc      240



ttttggatgt cagactccaa gatatctatc atcatgaatc gtgatcaaac tttgtaattt      300



cattgaaatg tgtttttctt gatgcgaatt ttttggctta cggtttttcg atttgaatga      360



tcagattttt gtttttgca                                                   379





<210>  1913

<211>  217

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1913

tgatgatgat gatgagtcac taattaattg tatcatagag tcttgcatgg aaaaatagaa       60



aatgagattg agccaaggat gacttgccga ttttctcaac gaatcttact gattatggta      120



tccggcaagt tgactttggc tctgtttcct tcccttcttt tcgatgtcaa actctagata      180



cctaaccaca tatcatatat atcatcatca ttcatca                               217





<210>  1914

<211>  101

<212>  DNA

<213>  Vitis vinifera



<400>  1914

tgagtggaat agagccaagg atgacttgcc ggcaactgca gcaaggcata gggtttaact       60



ggtcataact ggcaagcatc tgaggctcta tttcaccctc t                          101





<210>  1915

<211>  174

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1915

gtcactaatt gtatcataga gtcttgcatg gaaaaaatag agaatgagat tgagccaagg       60



atgacttgcc gaatttatta acaaatctca aatgattatg gtgcccggca agttgacctt      120



ggctctgttt ccttctcttc ttttcgatgt caaactctag atatatcaat cgat            174





<210>  1916

<211>  155

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1916

gtatctttga gtcttacatg gaaaaaatag agaatgagat tgagccaagg atgacttgcc       60



gatttttatc aacaaatctt aactgattat ggtgcccggc aagttgacct tggctctgtt      120



tccttctctt cttttcgatg tcaaactcta gatat                                 155





<210>  1917

<211>  154

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1917

gtatcataga gtcttgcatg gaaaaattaa agaatgagat tgagccaagg atgacttgcc       60



gatgttatca acaaatctta actgattttg gtgtccggca agttgacctt ggctctgttt      120



ccttcttttc ttttcaatgt caaactctag atat                                  154





<210>  1918

<211>  167

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1918

gggtcttgca tgaaggaata acgaatggaa ttgagccaag gatgacttgc cggtttaaac       60



ccaaccggtt tatgaccatt gatttggtct cattcacaat ctgttgattc gtgtctggca      120



agttgacctt ggctctgctt cgttctctat tcttccatgt tagattc                    167





<210>  1919

<211>  114

<212>  DNA

<213>  Ricinus communis



<400>  1919

ggacctgagc caaggatgac ttgccgcgca tatataaaat tctttctgtc gccagcaatc       60



atcgatagcc tgaaaagggt tttccgtggc aagacattct tggctctact tcac            114





<210>  1920

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  1920

gaaggtagag agagtggatt tgagccagga tggcttgccg gcatgcattt tagggtgttg       60



ctagcgggcc atcttgtctc acatttgcta tctttcctct                            100





<210>  1921

<211>  202

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1921

atgatgatga tgagtctcta gttgtatcag agggtcttgc atggaagagt agagaatgag       60



gttgagccaa ggatgacttg ccgggttttt taccaatgaa tcttaactga ttttggtgtc      120



cggcaagttg accttggctc tgtttccttc tcttcttttc gatgtcagac tccgcgatat      180



atatctattt catcatcgtc at                                               202





<210>  1922

<211>  102

<212>  DNA

<213>  Vitis vinifera



<400>  1922

agtgtggaat tgagccaagg atgacttgcc ggcagctgca gcaaggcatt aaggtttaac       60



tggctataac tggcaagcat ccgaggctct gtttcaccct ct                         102





<210>  1923

<211>  97

<212>  DNA

<213>  Vitis vinifera



<400>  1923

agggtggaat agagccaagg atgacttgcc ggcatttgca gtaagtctat attaactgga       60



acagccggca tgtaatcctg gctctatttg gtcctct                                97





<210>  1924

<211>  107

<212>  DNA

<213>  Populus trichocarpa



<400>  1924

agagtggatt tgagccaagg atgacttgcc gcagatgcat ggtccttgct gctgatcaca       60



taccaagggg ggttttgggt ggcaagcatc cttggttctc cttcgct                    107





<210>  1925

<211>  102

<212>  DNA

<213>  Vitis vinifera



<400>  1925

agagtggaag tgagccaagg atgacttgcc ggcagctgca gcaaggcatt aaggtttaac       60



tggccataac tggcaagcat ccgaggctct gtttcaccct ct                         102





<210>  1926

<211>  124

<212>  DNA

<213>  Theobroma cacao



<400>  1926

aagaaaggga cagtggagtt tgagccaagg atgacttgcc gggatatttg ctgcggagca       60



gtatatgcct caactgtctt ccgaaaagtc atttttggct caccttcgct ctcatgtttt      120



ccat                                                                   124





<210>  1927

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  1927

aaatggagcc aaggatgact tgccggtata ttagtttgtc gctaaagcta actagcttta       60



gttgttgggt actcccggca ggtcatcctt cggctatatt                            100





<210>  1928

<211>  163

<212>  DNA

<213>  Brassica napus



<400>  1928

tatatgtatc agagagtcat gcatgggaaa atagagaatg ataatgagcc aaagatgact       60



tgccgatttt accaaagaat ttaaaactga taatggtgac tggcaagtcg actttggctc      120



tgtttccttc tcttcttttc gatgtaagac tctagatatc tat                        163





<210>  1929

<211>  120

<212>  DNA

<213>  Glycine max



<400>  1929

gtcttgcatg aagaggtaga gagagtgctt ttgagccaag gatgacttgc cggcgtaatt       60



acgggtattg ccagcgagac atccttgttc acttatgctc tcttttcact catataagac      120





<210>  1930

<211>  105

<212>  DNA

<213>  Vitis vinifera



<400>  1930

ggggtcgaat tgagccaagg atggcttgcc gtcatctgca gcaagagttg gagactttta       60



actgtgcgtg cacggttagt catccttggc tcatttggcc cttct                      105





<210>  1931

<211>  86

<212>  DNA

<213>  Medicago truncatula



<400>  1931

gatttgagcc aaagatgact tgccggcatg ctgcctgaaa agcaagaagg gtgttgtttt       60



gctggcagtt gtcattggtt catgtt                                            86





<210>  1932

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  1932

gaaatggagc caaggatgac ttgccggtat attagtttgt cgctaaagct aactagcttt       60



agttgttggg tactcccggc aggtcatcct tcggctatat t                          101





<210>  1933

<211>  108

<212>  DNA

<213>  Populus trichocarpa



<400>  1933

ctagagtccg agccaagaat gacttgccgg caggctagca tttgctagct acagggcaag       60



atgtatgcta aagtgacatt ccgccaggtt gttcttggct ctactttg                   108





<210>  1934

<211>  103

<212>  DNA

<213>  Vitis vinifera



<400>  1934

agggtggatt tgagccaagg atgacttgcc gccatcagca gcaagcattg aagctttaac       60



tgggcatgga cagcgagtta ttcttggctc atgcggcccc tct                        103





<210>  1935

<211>  110

<212>  DNA

<213>  Vitis vinifera



<400>  1935

agggtggaat tgagtcaagg atgacttgcc gttatatatt tgcagaaggg cacgcagggg       60



cctttagcta tgtgttaccg gcaagttgac ttgactctgt ttggccctct                 110





<210>  1936

<211>  109

<212>  DNA

<213>  Vitis vinifera



<400>  1936

agggtggaat tgagtcaagg atgacttgcc gatatatatt tgcagaaggc atgcaggggc       60



ttttagctat gtgtaaccgg caagttgact tgactcagtt tggccctct                  109





<210>  1937

<211>  101

<212>  DNA

<213>  Vitis vinifera



<400>  1937

agggtggaat tgagccaagg atggcttgcc gtcctttgtc actatttgag gcattaactg       60



gtcacgcacg gagggttatc cttgactcct ttagctcctc t                          101





<210>  1938

<211>  103

<212>  DNA

<213>  Vitis vinifera



<400>  1938

agggtggaat tgagccaagg atgacttgcc gtcctttgca tcaagcattg aagctttaac       60



tgggcatgca cggctagtta ttcttggctc atttggcccc tct                        103





<210>  1939

<211>  89

<212>  DNA

<213>  Medicago truncatula



<400>  1939

agatttgagc caaagatgac ttgccggcat gctgcctgaa aagcaagaag ggtgttgttt       60



tgctggcagt tgtcattggt tcatgtttg                                         89





<210>  1940

<211>  89

<212>  DNA

<213>  Medicago truncatula



<400>  1940

agatttgagc caaagatgac ttgccggcat gctgcctgaa aagcaagaag ggtgttgttt       60



tgctggcagt tgtcattggt tcatgtttg                                         89





<210>  1941

<211>  89

<212>  DNA

<213>  Medicago truncatula



<400>  1941

agatttgagc caaagatgac ttgccggcat gctgcctgaa aagcaagaag ggtgttgttt       60



tgctggcagt tgtcattggt tcatgtttg                                         89





<210>  1942

<211>  240

<212>  DNA

<213>  Medicago truncatula



<400>  1942

agatgaagcc aaggatgact tgccggtata atagtaattt gccacaaatc tagatagcta       60



ttagctatgt ttggatgggc ggtgagatta acaaaattac agcagcattg tgattttgtt      120



gatgctttaa agtgtagttt ttatcaaaat tacagtggtt cactgtaatt atgagaatct      180



caccgtcaat ctaaatatgc atttagtttc atttccggca ggtcatcctt cggctatatt      240





<210>  1943

<211>  120

<212>  DNA

<213>  Populus trichocarpa



<400>  1943

agagtgtgat tcagccaagg atgacttgcc ggcagcaggt aagagcaaag ctccgttttt       60



ggaagttcaa ggatatctta acttttccgg ccggcaagct gtccttggct acattgtact      120





<210>  1944

<211>  109

<212>  DNA

<213>  Populus trichocarpa



<400>  1944

gtagagatcg agccaagaat gacttgtcgg caggctagca attgctacgt atagagcaat       60



atgtatgcta gaatgagtat tccgccaggt cgttcttggc tcaactttg                  109





<210>  1945

<211>  104

<212>  DNA

<213>  Populus trichocarpa



<400>  1945

ccttgcgtgg aagccaagga tgacttgcct gagaatttta ggaaggtttc tatatgaaag       60



ctttttatta gttttgcagg aagtcaacct tggctttcct atag                       104





<210>  1946

<211>  104

<212>  DNA

<213>  Populus trichocarpa



<400>  1946

ccttgcgtgg aagccaagga tgacttgcct gagaatttta ggaaggtttc tatatgaaag       60



ctttttatta gttttgcagg aagtcaacct tggctttcct atag                       104





<210>  1947

<211>  755

<212>  DNA

<213>  Citrus sinensis



<400>  1947

atcaagtgct accttatata cagaatagaa agaataacaa aggttggaaa ttggtctagg       60



gtttcttata tgaagggata aatagaggat ctagagccaa gaatgacttg ccgacggcat      120



tgaccataat atcatacggc aggccattct tgtctcaact ccgctctcta tcttctcatc      180



tgagactctc ggacactgac aaccaacctc agcaatgcag caccagatga ttctttctat      240



tctcaggtga tctatgatac tatgctcatc taatgagctc tgcgtcacat ttttattttt      300



cccccatttt tctgacttct cctccttgag ccatttttcc agatccatga acagtacaaa      360



atctctatta caaccaacag agttaagcaa tgctgttctt aatcataagc ttattttagg      420



gtggcatata ttttgcaata atctagttag aaataattaa aagttttttc ttggagcttt      480



ggcgtttctc ctggcatttg tacaaccttt tatgcaaaca gttgtagaat tggggatgac      540



acaatctttg gttggagtgt gattttatgc tgtatttatt atgcacacaa tagcaggctc      600



gtcgatcctc tgttcatgca agaactagag cgaaggaata gatagcttga ttatcgaaca      660



aattaaaata attaatcgtg catcaatttt gacaaggagt gaggaacctc tcctcatctg      720



cattatcatg aaattttaat aattttgtac atatc                                 755





<210>  1948

<211>  100

<212>  DNA

<213>  Antirrhinum majus



<400>  1948

aggttacgag gtatagccaa ggatgacttg ccgacgaaag taagtacatt catgtatttt       60



gtaaggtcgg caagttatct ttggctacat ctctacctaa                            100





<210>  1949

<211>  105

<212>  DNA

<213>  Vitis vinifera



<400>  1949

agggtggaat tgagccaagg atgactggcc gtcatttttc agttggtatt tgaggcttta       60



actggtcatg cacggctggt tatccctgtc tcctttagct cctct                      105





<210>  1950

<211>  110

<212>  DNA

<213>  Vitis vinifera



<400>  1950

agggtggaat cgagtcaagg atgacttgcc gatatatatt tgcggaagga cttgcatggg       60



cctttagcta tgtgtaaccg gcaagttgac ttgactcagt ttggccctct                 110





<210>  1951

<211>  96

<212>  DNA

<213>  Vitis vinifera



<400>  1951

agggaggaac aaagccaagg atgaattgcc ggcgatgaaa gtaggcagct ttgtccatgg       60



atcggcaatt tatttcttgg ctatgttggg ctctct                                 96





<210>  1952

<211>  115

<212>  DNA

<213>  Glycine max



<400>  1952

aagtgggatg aagccaagga tgacttgccg acattaattt gccattaagc taacgagtta       60



ggtagaatca tttgttagat tttcccggca ggtcatcctc tggctatatt tggct           115





<210>  1953

<211>  142

<212>  DNA

<213>  Theobroma cacao



<400>  1953

aaagggaggg agtgggggct tgagtcaaga atgacttgcc ggtgtttgct tcttggcagg       60



cattaattaa gccggctcac cggccttaac ctagtcctcc ggcaagttgt tcttggctca      120



ccttcgctct cttttctttc at                                               142





<210>  1954

<211>  139

<212>  DNA

<213>  Medicago truncatula



<400>  1954

tttataagcc aaggatgact tgcctagcta aaaaccattt acattaattg gggacttaat       60



ttgtatatgt tatgtctgat cgatgatgag tatgtccctt gtttagttta ttagcaggca      120



ggtatcctag gctttttga                                                   139





<210>  1955

<211>  123

<212>  DNA

<213>  Sorghum bicolor



<400>  1955

tgtagccaag gatgacttgc cggccgatcg atgcctcatc cctgtccggg aacgtcatgc       60



atgtgatgca aactgtgagg ccgcatcgtc gatcgaccgg caggttcttc tctttggcta      120



cac                                                                    123





<210>  1956

<211>  123

<212>  DNA

<213>  Populus trichocarpa



<400>  1956

tcttgtttag tagccatgga tgaattgcct gcttccaaaa tgaggtgtca agccgagata       60



aacatacaag tttgatccct cattggggtt cccaggcagt catcagcttg gctaacttga      120



cag                                                                    123





<210>  1957

<211>  143

<212>  DNA

<213>  Saccharum officinarum



<400>  1957

tagccaagga tgacttgccg gcaatgcttc gatggatccc taatccccgt ccggccggga       60



acgtcgcacg tatgtatgta tgcgtgcata tgctgcgaac tgtgaggcat ccatatcgac      120



cggcaggttc ttctcttggg cta                                              143





<210>  1958

<211>  83

<212>  DNA

<213>  Hordeum vulgare



<400>  1958

taacacgcca gaaataaagc caaggatgag ttgcctgatc atcaggactc atggaggtag       60



ggctttctgt ttttggtgag ttt                                               83





<210>  1959

<211>  146

<212>  DNA

<213>  Saccharum ssp.



<400>  1959

gtagccaagg atgacttgcc ggccgatgct tcgatggatc cctcatcccc gtccggccgg       60



gaacgtcgca cgtatgtatg tatgcgtgca tatgctgcga actgtgaggc atccatatcg      120



accggcaggt tcttctcttt ggctac                                           146





<210>  1960

<211>  65

<212>  DNA

<213>  Zea mays



<400>  1960

gtagccaagg atgacttgcc ggcattatat ttcttggccc gccggcaagt catctggggc       60



tacgc                                                                   65





<210>  1961

<211>  132

<212>  DNA

<213>  Oryza sativa



<400>  1961

gctggttgtg tagccaagga tgacttgccg gcctggtttg tgttcatcag caatccagca       60



tatgctgtat tgccgtgtgt gatcgatcga tgcatggacc ggcaagttat tttctttggc      120



tacattacaa cc                                                          132





<210>  1962

<211>  106

<212>  DNA

<213>  Brachypodium distachyon



<400>  1962

gagatagaga gtggaatgta gccaaggatg acttgccggg tatgtgcatg tacgcttcag       60



ggaattatat gcatccctgg tctgaatcca tgctgatatt tcccgg                     106





<210>  1963

<211>  141

<212>  DNA

<213>  Theobroma cacao



<400>  1963

aagaagagag cctcgctgga aagccaagaa tgacttgcct gcttcctcct tgaggtttca       60



aaatttcaat gaaactttta aaacccgcca ttctggctcg cgggcagtct tcttcgcttt      120



cttgacaggc tattcttttc c                                                141





<210>  1964

<211>  205

<212>  DNA

<213>  Solanum lycopersicum



<400>  1964

ttttaatttg gtttcaggca gtctccttgg ctaccttgac atgctctttt cttttatgca       60



agatatcttt tcaaaataga agttttagtc atcgttaaaa tatcgagacg gggttacaag      120



tcttatttaa aagaagagaa gtctagcatg atgagaagag tcttatttgg tagccaagga      180



tgacttgcct gcaccgtact tgaaa                                            205





<210>  1965

<211>  151

<212>  DNA

<213>  Brachypodium distachyon



<400>  1965

ttgccatacg ctaagaggca gagaagggga tgcagccaag gatgacttgc cggctcctgg       60



tgttggggga attgcagctt tgttgagcct tgagttagcc ggcaggttgt ccttggctac      120



acctagttct cttcttctgg tgtttggccc t                                     151





<210>  1966

<211>  239

<212>  DNA

<213>  Populus trichocarpa



<400>  1966

ttatgtggtg cagccaagga tgacttgccg gaataagcta tgatcaatag ctatagctat       60



ggtatttttc atcctaggtt tggctatata tatatatata tatagccagt taattgctat      120



aaatctcagc acatttatgt tttatatgtc tgcacacaga cacacacatc attgaatgtt      180



gatgttccac ctcctatgat cagtagtcaa tcggcaagtc atctctggct actcaactc       239





<210>  1967

<211>  108

<212>  DNA

<213>  Oryza sativa



<400>  1967

ttatctctga tagccaagga tgacttgcct gtgtcctccc tgaaggatta gcaatttaat       60



gatcctttaa gctggttcat gggcagtctc cttggctagc ctgagtgg                   108





<210>  1968

<211>  122

<212>  DNA

<213>  Oryza sativa



<400>  1968

ttagctctgg tagccaagga tgacttgcct gtgtccttgt gtgtaaggat cattaattat       60



tattcagaaa atgatccttt cagcaggttt catgggcagt ctccttggct agcctgagtg      120



at                                                                     122





<210>  1969

<211>  213

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1969

ttagaaggag atgtcaaaga tgaataggag aacaatattt ggtagccaag gatgacttgc       60



ctgcttctct gaacaaaatg gtcgatgtca tgttttgaag tgactataag ttataccaag      120



aaatgaccat tttgtttata aatagacatc aggcagtctc cttggctatc cttatatgtt      180



cttctttctc aactcagata tttaccttca tcc                                   213





<210>  1970

<211>  138

<212>  DNA

<213>  Oryza sativa



<400>  1970

tgagtcctgg tagccaagga tgacttgcct gtatatttat atatatatgt gtgtgtgatc       60



aatggatgga ttgatcaagc tgcttgcagg ctcatgcata tatatgtaca ggcagtctcc      120



ttggctagcc cggctacc                                                    138





<210>  1971

<211>  203

<212>  DNA

<213>  Populus trichocarpa



<400>  1971

tcttgtttgg tagccaagga tgacttgcct gtagcctccc tcggattcat gaacacgagc       60



atttatgtgg tgctcaaaag aaaaggagag aatgatccca gctggcagcg acaaggtcaa      120



tccattgaag tagcgagaag caggtgattt atagctagaa tccacaagag gttcccagca      180



agtgtccttg gctaacgaga cgg                                              203





<210>  1972

<211>  119

<212>  DNA

<213>  Populus trichocarpa



<400>  1972

tcttgtttgg tagccaagga tgacttgcct gctcccttca aggaggtttc atgaaatgca       60



gacatgatct ctcgaaaccc ctgttgggtt tcaggcggtc tccttggcta acttgacag       119





<210>  1973

<211>  123

<212>  DNA

<213>  Populus trichocarpa



<400>  1973

tcttgtttgg tagccaagga tgacttgcct gctccattgt aggaggtttc cgaaaaaatg       60



cagacatgta taatttcgaa acccctgttt cgtttcaggc agtctccttg gctaacttga      120



ctg                                                                    123





<210>  1974

<211>  137

<212>  DNA

<213>  Populus trichocarpa



<400>  1974

tcttgtttga tagccaagga tgacttgcct gctacttgca agagtttctg caaagagatc       60



agaaccaaat atgcatggaa ttatatgtaa tgaaactctt gtttgattgc caggcagtct      120



ccttggctag cctgaca                                                     137





<210>  1975

<211>  143

<212>  DNA

<213>  Populus trichocarpa



<400>  1975

tcttgtttga tagccaagga tgacttgcct gctacataca agagatcatt atgcataaat       60



agaacgaaat atgtacatgg tattaattaa tgcagtgaaa actcttgttt ggttgccagg      120



cagtctcctt ggctaagctg aca                                              143





<210>  1976

<211>  156

<212>  DNA

<213>  Oryza sativa



<400>  1976

tctgtctaga tagccaagga tgacttgcct gtggcctctt ggagagagag gtgtagctta       60



attagcagca tggtttgagc attgcttgat cggttgatcg cttcgcttgc tctgcatgag      120



atcttacagg cagtctcctt ggctagtctg ggcggc                                156





<210>  1977

<211>  411

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1977

tcgtccatta tgagtattaa ttatggttag ggaatcttac agaatgaaaa tgaaggtgtg       60



aatggattgt ctcatctaaa gccttgaatg tgggaaaaag gccattgttg ttcagccaag      120



gatgacttgc cggtagcttg tattatgatt actctatatt cgatttatat tatggagatg      180



atggtttata tatatttact tatctacata gttttagttg attttttttc gtacgtaata      240



taatacgaaa aagtatttac ttatttatat atgtgtgttg gggcaagaag tgtaaccaag      300



ctagcccggc aagtcatcta tggctatgca actgtctctt cctctcattc taggcttacg      360



atgacacgta aaaaatccca aatatcacta atatgatatg aatatggatg a               411





<210>  1978

<211>  125

<212>  DNA

<213>  Oryza sativa



<400>  1978

tcgcatctgg tagccaagga tgacttgcct gtgtctctgc tcatgtgcag tagaagaaga       60



tgcatttcta gctgctttct gcatatgtga tctcacaggc agtctccttg gctagcctga      120



gcggc                                                                  125





<210>  1979

<211>  230

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1979

tcattattta gaaggaaatg tcaaagatga ataggagaat catatttggt agccaaggat       60



gacttgcctg tttctttgag taaaatggtt attgtcatgt ttgacaagtg actataagtt      120



atatcaagta acgaccattt tactcatcaa aagacatgag gcagtcttct tggctatcct      180



tatatgttct tctgtctcat ctcagacgtt aaccttcatc taaaataaga                 230





<210>  1980

<211>  190

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1980

tcatataaga gaaaatggtg acatgaagaa tgagaacttg tgtggtagcc aaggatgact       60



tgcctgcgtt ttagaccata tatatcaaag actcactcga tcgatagtct tagagttggt      120



tggtcgtcag gcagtctcct tggctattca aacaattctc attctcttca ttcacatttc      180



tcttttttgg                                                             190





<210>  1981

<211>  166

<212>  DNA

<213>  Populus trichocarpa



<400>  1981

tatcgtggcg cagccaagga tgacttgccg gcaagctcct cacacgtatt ttgtttcgag       60



tttcattgat ggcattgcta gatagatata tatgatttcg taattcaaac ttttgggcca      120



ttgtctggtt gaaatgatcg gcaagctgtc cttggctatg tctcta                     166





<210>  1982

<211>  189

<212>  DNA

<213>  Gossypium herbacium



<400>  1982

tatagagagg aagaaaaggt ctaacatgaa gataaagagt cttgtttggt agccaaggat       60



gacttgcctg cacctaatgt ccacgaggtt ttaatacatc aaaaaccctg gttgggtccc      120



aggcagtcac cttggctaac tagacaggct gttttcattc atgctaggcc tcatcttccg      180



ccccattgg                                                              189





<210>  1983

<211>  180

<212>  DNA

<213>  Aquilegia caerulea



<400>  1983

tagccaagga tgacttgcct gtatcctctt agaggccggc ctgcgcgcct gtctctatat       60



tatcatacat tggaatatat catccttgtg tggttaatag gcgggcctgc ctgtctctat      120



attatcatac attggaatat atcatccttg tgtggttaat aggcagtctc cttggctaac      180





<210>  1984

<211>  212

<212>  DNA

<213>  Arabidopsis thaliana



<400>  1984

tagaaggaga agtcaaagat gaatagaaga atcatatttg gtagccaagg atgacttgcc       60



tgtttctttg agtaaaatgg gttagtgtca tgtttgacaa gtgactataa gttatatcaa      120



gcaatgacca ttttactcat caaaagacat caggcagtct ccttggctat ccttatatgt      180



tcttctctct catctcagac gtttaccttc at                                    212





<210>  1985

<211>  205

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1985

tagaaaatca tataagagaa aatggtgaca tgaagaatga gaacttgtgt ggtagccaag       60



gatgacttgc ctgcgtttta acaatacaat atcaaagact actcgatcga tcgatagtct      120



tagagttggt tagtcgtcag gcagtctcct tggctattca aacaattctt gttctcctca      180



tttcacatct ctctttcgtt ttttg                                            205





<210>  1986

<211>  93

<212>  DNA

<213>  Ricinus communis



<400>  1986

taattcagcc aaggatgact tgccggcaca gcctatatat gtcttctact cacagctgct       60



agctaccggc aagttgttct tggctacatt gta                                    93





<210>  1987

<211>  272

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1987

gttaagaaat gtatgatgaa gatgagaggt ctaacatggc gaaaagagtc atgtttaata       60



gccaaggatg acttgcctga tctttttcac ctccatgatt caatttgaat ttcatgggtt      120



ttggattatt atgcatctaa aaggtgtaat aattcgaaaa tcaagttgaa tcttgcgggt      180



taggtttcag gcagtctcct tggctatctt gacatactct tttcatccat gttataccta      240



attttctttt tttattgagg atatttgagg at                                    272





<210>  1988

<211>  167

<212>  DNA

<213>  Brassica napus



<400>  1988

gtgtttagta gccaaggatg acttgcctgc tcttgttcac ctccacgatt caactttata       60



cgttgaaggg ttttggatta ttgtgcattc aacatgtata ataatttgaa atcatgttga      120



atctttgtgg gttaggtttc aggcagtctc cttggctatt ttgacat                    167





<210>  1989

<211>  173

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1989

gtgcccaacg gagtagaatt gcatgaagtg gagtagagta taatgcagcc aaggatgact       60



tgccggaacg ttgttaatca tacgtataaa ttatgtgatg aacatatttc tggcaagttg      120



tccttcggct acattttgct ctcttcttct catgcaaact ctctttggga tat             173





<210>  1990

<211>  149

<212>  DNA

<213>  Vitis vinifera



<400>  1990

gtcttgtctg atagccaagg atgacttgcc tgccctatcc caagtgggtc aatttctttc       60



ttttttccaa gtagtgtttg atatttgata tatcatgaat ccggttgttt gggttccagg      120



cagtcacctt ggctaatttt acaggctct                                        149





<210>  1991

<211>  292

<212>  DNA

<213>  Arabidopsis lyrata



<400>  1991

gtctcatcta aagccttgaa tgtgggaaaa aggccattgt tgttcagcca aggatgactt       60



gccggtagct ttgtatattt actctatatt cggtttatat tatggagatt atgctttata      120



tatatatata catagtttta attgattttt tttcgtacgt acgtaatcta atacgaaaaa      180



gtatttactt atttatatgt gtgttggtga gatgtgtaaa caaagcaagc ccggcaagtc      240



atctctggct atgcaactgc ctcttcctct cattctaggc ttacgatgac ac              292





<210>  1992

<211>  108

<212>  DNA

<213>  Oryza sativa



<400>  1992

gtagctctgg tagccaagga tgacttgcct gtgtccttgt gtagaggatc attcagaaaa       60



tgagccttga actggttcat aggcagtctc cttggctagt ctgagtcg                   108





<210>  1993

<211>  143

<212>  DNA

<213>  Vitis vinifera



<400>  1993

ggttatgtgg tgcagccaag gatgacttgc cggcaactcc ctttattgta ctcatgcatg       60



ctcatactta tactgttgtg ggcatcattt aagtggcaaa aatggtggtc ggcgagtcat      120



tcttagctac atttctgcct cat                                              143





<210>  1994

<211>  181

<212>  DNA

<213>  Brachypodium distachyon



<400>  1994

ggtgttgcgt gggcagagaa gaagccttac atggcagcaa ggggcttatc tctgatagcc       60



aaggatgact tgcctgtgtc atacttcaag gcttggcaac atgatgcatg agcctttgtt      120



gtagtctcat aggcagtctc cttggctagc ctgagtggct cttgcggctc atgccaggct      180



g                                                                      181





<210>  1995

<211>  149

<212>  DNA

<213>  Solanum lycopersicum



<400>  1995

ggtctataag gtttgcatga agttgaagag agtcaagttg cagccaagga tgacttgccg       60



gaccaaaagt tgtgaccatt ttctagttcc ggcaagttgt ttttggctat aagtttgctc      120



tcttcttctc atgttatcct cgttagacc                                        149





<210>  1996

<211>  151

<212>  DNA

<213>  Brachypodium distachyon



<400>  1996

gggccatgca ggacgaggca cagagcagga tgcagccaag gatgacttgc cggccggctg       60



gccggcaatg tcgccgccgg cgtgacatga tgcttgcccg gcaagtttgt ccttggctac      120



accttgctct ctgcccatca tgtgttgccc t                                     151





<210>  1997

<211>  90

<212>  DNA

<213>  Vitis vinifera



<400>  1997

gggagtagaa tgcagccaag gatgacttgc cggagatggg gcattcctcg ttaatccggc       60



aagttgtcct tggctacatt gggctctctt                                        90





<210>  1998

<211>  193

<212>  DNA

<213>  Theobroma cacao



<400>  1998

ggaaatgagg ctatgtgctg cagccaagga tgacttgccg gaaaagctat attttacatt       60



atattaccct gttccctgat attaactata tgcttctgta tcaattttaa ctataaatta      120



ataaaattta taataaatgt tataagagtt tatcggcaag tcgtctctgg ctatatcact      180



gtttcatttt ctc                                                         193





<210>  1999

<211>  151

<212>  DNA

<213>  Zea mays



<400>  1999

gcgataagag tctgtccaga tagccaagga tgacttgcct gtggcttctt ggcttggctt       60



ggctcgggca aaaccttgtg cacgttttat tgctcgcctc gtggcctcga tcacaggcag      120



tctccttggc tagtccgggc gggcccctta t                                     151





<210>  2000

<211>  152

<212>  DNA

<213>  Sorghum bicolor



<400>  2000

gcgataagag tctgcccaga tagccaagga tgacttgcct gtggcctctt ggcttggctt       60



gagagcttat taactctgtg cacgtttaat ttgctcttct tgtggcctcg atcacaggca      120



gtctccttgg ctagtccggg cggctcttat ct                                    152





<210>  2001

<211>  126

<212>  DNA

<213>  Zea mays



<400>  2001

gcagccaagg atgacttgcc gggtattttg agcatgcatg ttacagggga gcatatgcaa       60



tctgtttgga attttgagcc cataccgtgc ggtgcctgtc ttccggcaag ttgtccttgg      120



ctacat                                                                 126





<210>  2002

<211>  191

<212>  DNA

<213>  Zea mays



<400>  2002

gatgagagtg gtagctctgg tagccaagga tgacttgcct gtgtgctggc cacgctcccc       60



tcatgcaagg accatctcgt gtcgaccgac gagcgagcga gcgatcgatc gatgagagga      120



tgacgaagct tggggtgtac gttggtctct cacgggcagt ctccttggct agccctgact      180



cactcttacc g                                                           191





<210>  2003

<211>  215

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2003

gatgaagaag agaggtctaa catggcggaa agcgtcatgt ttagtagcca aggatgactt       60



gcctgatctt tttcgcctcc acgattcaat ttcaaattca tgcattttgg attattatac      120



cttttaaagt ataataggtc aaatatcatg ttgaatcttg cgggttaggt ttcaggcagt      180



ctctttggct atcttgacat gctttttcca tccat                                 215





<210>  2004

<211>  118

<212>  DNA

<213>  Populus trichocarpa



<400>  2004

gagtgtaatt cagccaagga tgacttgccg gcagcacggg atctcagagc ttaataacta       60



gaagatcaag gctgtcatta cttttccggc cggcaagttg cccttggcta cattgtac        118





<210>  2005

<211>  77

<212>  DNA

<213>  Medicago truncatula



<400>  2005

gagtgcagcc aaggatgact tgccggtaat atatctaatt ccttggtttc ttccggcaag       60



ttgttcttga ctacatt                                                      77





<210>  2006

<211>  111

<212>  DNA

<213>  Populus trichocarpa



<400>  2006

gagtcgaatg cagccaagga tgacttgccg gcatttcctc ctaagtagcg agcccggcaa       60



ggcttctatt tggcacgccc ggccggcggg ttgtccttgg ctatatttgg t               111





<210>  2007

<211>  221

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2007

gagtataatg aggaagagag gtctaacatg gcgaaaagag tcatgtttag tagccaagga       60



tgacttgcct gatctttttc acctccatga ttcaatttgt aattcatggg ttttggatta      120



ttatacattc aaaagtataa taatttgaaa tcatgttgaa tcttgcgggt taggtttcag      180



gcagtctcct tggctatctt gacatgcttt tttcattcac g                          221





<210>  2008

<211>  106

<212>  DNA

<213>  Populus trichocarpa



<400>  2008

gagtagaatg cagccaagga tgacttgccg gcatttcctc ctaggtagct agcaagcctt       60



ctatttggca tgcctgtccg gcaggttgtc cttggctaaa ttttgt                     106





<210>  2009

<211>  122

<212>  DNA

<213>  Vitis vinifera



<400>  2009

gagagtggag tgcagccaag gatgacttgc cggaattcac atatagagtg gaatgaggca       60



atagaccggc ctcttctcat ggtgtccctg gcaggttgtc cttggctacc tttcgctctc      120



tt                                                                     122





<210>  2010

<211>  122

<212>  DNA

<213>  Vitis vinifera



<400>  2010

gagagtggag tgcagccaag gatgacttgc cggaattcac atatagagtg gaatgaggca       60



agaggccggc ctcttcccat ggtgtccctg gcaggttgtc cttggctacc tttcgttctc      120



tt                                                                     122





<210>  2011

<211>  124

<212>  DNA

<213>  Vitis vinifera



<400>  2011

gagagtggaa tgcagccaag gatgacttgc cggaatttat atatagtgag aagagaagag       60



gctatatgct ttcacatata tagtgaaccc tggcaagttg tccttggcta catttgattc      120



tctt                                                                   124





<210>  2012

<211>  122

<212>  DNA

<213>  Theobroma cacao



<400>  2012

gagaggtaga gaatttagtg cagccaagga tgacttgccg gcgtagacaa tactcaaata       60



ctaattatta ttgtattttt ccggcaagtc tgtccttggc tacattggtt tctcttcttc      120



tc                                                                     122





<210>  2013

<211>  176

<212>  DNA

<213>  Brassica napus



<400>  2013

gagaaatggt gacatgaaga atgagaagtt gtgtggtagc caaggatgac ttgcctgcgt       60



cttagaccat atctatcaaa gactaaaaga ttgatagtct tcgatgaatt ggttaatcgg      120



taggcagtct cctcggctat tcagacagtt ctctttctcc tcatttcaca tttctc          176





<210>  2014

<211>  168

<212>  DNA

<213>  Brassica napus



<400>  2014

gagaaacggt gacatgaaga atgagaagtt gtgtggtagc caaggatgac ttgcctgcgt       60



ctttaacacc atatcaaaga ctttatcgat agtctctgag ttggttaggc tgtaggcagt      120



ctccttggct attcagacac tcctctttct cctcatttca catttctc                   168





<210>  2015

<211>  300

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2015

gaatgaggca aaacatattg agtaatggag tgtataatga ggaagagagg tctaacatgg       60



cgaaaagagt catgtttaat agccaaggat gacttgcctg atctttttca cctccatgat      120



tcaatttgaa gttcatgcgt tttggattat tatgcatcta aaaggtataa taattcgaaa      180



atcatgttga atcatgcggg ttaggtttca ggcagtctcc ttggctatct tgacatgctt      240



ttttcatcca tgttatacct gtttttcttt ctgtctctaa agtcactatt aagtctcttc      300





<210>  2016

<211>  92

<212>  DNA

<213>  Ricinus communis



<400>  2016

gaatacagcc aaggatgact tgccggcatc aatttatata tatatatata tatatatata       60



tttatcggca agctgttctt ggctatattc at                                     92





<210>  2017

<211>  210

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2017

gaaggagatg tcaaagatga gtaggagaat catatttggt agccaaggat gacttgcctg       60



attcctttgc gtaaaatggt tagtgtcatg tttgacaaag tgactatcaa ttacatcaag      120



cgatgaccat tttgcttata aaaaagatgt caggcagtct ccttggatat ccttatatgt      180



tcttctcttt catctcagac attcatcttc                                       210





<210>  2018

<211>  206

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2018

gaaggagatg tcaaagatga atagaagaat catatttggt agccaaggat gacttgcctg       60



actctttgtg taaaatgttt agtgtcttgt ttgaagtcac tataagttgt atcaagcaat      120



gaccattttg cttataaaaa agatatcagg cagtctcctt ggctatcctt atatgttctt      180



ctctttcatc tcagacattc accttc                                           206





<210>  2019

<211>  203

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2019

gaaggagatg tcaaagatga ataagagaac cacatttggt agccaaggat gacttgcctg       60



tttctttgaa caaaatggtt ggtgtcatgt ttgatgtgac tacaagttat atcaagaatg      120



acattttgct tataaaaaga catcaggcag tctccttggc tatccttata tgttcttctt      180



tctcatctca gacatttacc ttc                                              203





<210>  2020

<211>  112

<212>  DNA

<213>  Oryza sativa



<400>  2020

gaacgggatg cagccaagga tgacttgccg gctcctggta ttgggggaat ctcagctttg       60



ctgaagcgcc ttggagttag ccggcaagtc tgtccttggc tacacctagc tc              112





<210>  2021

<211>  128

<212>  DNA

<213>  Oryza sativa



<400>  2021

gaacggaatg cagccaagga tgacttgccg gtacgtgtat gcatgtttca aggtactata       60



tgtgccccca actgttttag atccatgctg acattttccg gcaagttgtc cttggctacg      120



tcttgttc                                                               128





<210>  2022

<211>  99

<212>  DNA

<213>  Vitis vinifera



<400>  2022

gaaagtggat tgcagccaag gatgacttgc cggcacttgg cattaggcac catcgatcat       60



cttcccggca agttgttcct ggctacattc tgctctctt                              99





<210>  2023

<211>  183

<212>  DNA

<213>  Brachypodium distachyon



<400>  2023

cttacatgga gataaggagc ctacctctgt tagccaggaa tggcttgcct acgcacacat       60



ttttcggttc atcacagggg caaaactaac ttggagatag cccctagtat gatggacgga      120



gtgtggctgc atggtcaagc cttcctgact aggagagtgc tcctcatccc ccatgctagg      180



ctg                                                                    183





<210>  2024

<211>  133

<212>  DNA

<213>  Zea mays



<400>  2024

cgatgagagc actgctctgg tagccaagga tgacttgcct gtggcctcca tcagtcgcag       60



aggacgctgt tcttctgctt gtggttgtcg atcgcaggca gtctccttgg ctagcccgag      120



cggctctcat cca                                                         133





<210>  2025

<211>  148

<212>  DNA

<213>  Sorghum bicolor



<400>  2025

cgatgagagc actgctctgg tagccaagga tgacttgcct gtggcctcca ctccacctgc       60



ggcaggaggc tcttcttctg cgcgcgcgtg tgtgtgtggt tgtcgatcgc aggcagtctc      120



cttggctagc ctcagcggct ctcatcct                                         148





<210>  2026

<211>  164

<212>  DNA

<213>  Brachypodium distachyon



<400>  2026

ccttacatgg tgataagggg tttggccctg atagccaagg atgacttgcc tgtgcatgtc       60



ctcccttgat cgcttgcata atttcatata tgcatgtgat ctcgatttat cacaggcagt      120



ctccttggct agcctgggtg cctcttatcc tccatgctag gcct                       164





<210>  2027

<211>  181

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2027

cccaacggag tagaattgca tgaagtggag tagagtataa tgcagccaag gatgacttgc       60



cggaacgttg ttaaccatgc atatgaataa tgtgatgatt aattatgtga tgaacatatt      120



tctggcaagt tgtccttcgg ctacattttg ctctcttctt ctcatgcaaa ctttccttgg      180



g                                                                      181





<210>  2028

<211>  199

<212>  DNA

<213>  Brassica napus



<400>  2028

catggcgaaa agagtcgtgt ttagtagcca aggatgactt gcctgctctt gttcacctcc       60



acgattcaac tttatacgtt gaagggtttt ggattattgt gcattcaaca tgtataataa      120



tttgaaatca tgttgaatct ttgtgggtta ggtttcaggc agtctccttg gctattttga      180



catacttttt tcatccatg                                                   199





<210>  2029

<211>  97

<212>  DNA

<213>  Sorghum bicolor



<400>  2029

cagccaagga tgacttgccg gctcctcaaa tttgaagcgt cgtctaagct gctgaggctt       60



aataaaaact tagtcggcaa gtctgtcctt ggctaca                                97





<210>  2030

<211>  103

<212>  DNA

<213>  Glycine soja



<400>  2030

cagccaagga tgacttgccg gcattagcca agtgaatgag catcatatat atatatatat       60



atatatatga ctcatgttct tgtcggcaag ttggccttgg cta                        103





<210>  2031

<211>  111

<212>  DNA

<213>  Glycine max



<400>  2031

cagccaagga tgacttgccg gcattagcca agtgaatgag catcatatat atatatatat       60



atatatatat atatatgact catgttcttg tcggcaagtt ggccttggct a               111





<210>  2032

<211>  102

<212>  DNA

<213>  Sorghum bicolor



<400>  2032

cagccaagga tgacttgccg gatatgtgca tgcatatgtt acaaggcagc atatgcaccc       60



tgttacaagc ctgcctgttc tccggcaagt tgtccttggc ta                         102





<210>  2033

<211>  103

<212>  DNA

<213>  Oryza sativa



<400>  2033

atttatcgtg tagccaagga tgaattgccg gcgtttcacg ctgttgatgg tgcgtgcata       60



tataagttgg cgccggcaag tcatttcagg ctacatgttt gcc                        103





<210>  2034

<211>  134

<212>  DNA

<213>  Zea mays



<400>  2034

atgaggtaga gaacgggatg cagccaagga tgacttgccg gctcctggaa cctggaggcg       60



tctcagcttg ctgtgctgtg gcttagaact tagtcggcaa gtctgtcctt ggctacacct      120



agttctcttc ctct                                                        134





<210>  2035

<211>  211

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2035

atgaagaaga gaggtctaat atggcgaaaa gagtcatgtt taatagccaa ggatgacttg       60



cctgatcttt ttcacctcca tgattcaatt ttaagttcgt ggattttgga ttattatgcg      120



tttaaaaggt ataataattt gagatcatgt tgaatcttgc gggttaggtt tcaggcagtc      180



tctttggcta tcttgacatg ctttcttcat c                                     211





<210>  2036

<211>  211

<212>  DNA

<213>  Medicago truncatula



<400>  2036

atatgcagcc aaggatgact tgccggcgag cctctttcga tacttttatg acataattaa       60



tcatgtggat agccaaggta ctaaactcac tttgcactaa aacaaatatt tttgctttag      120



tgcaaactta gtttaggcgc ttcgcaacgg ctagtcaaat gtcctagttc caatgtgatt      180



ggttgtccgg caagtcgtct ctggctacgt a                                     211





<210>  2037

<211>  146

<212>  DNA

<213>  Petunia x hybrida



<400>  2037

aggttagtga aatgcagcca aggatgactt gccggcaagc ttgatcaact ctactttttt       60



aagtactttt tattatagtt aaaaactaag aagtggagat taataacttt gactggcaag      120



tcatttttgg ctacatctct gcctca                                           146





<210>  2038

<211>  139

<212>  DNA

<213>  Theobroma cacao



<400>  2038

aggtaaagag tcatgcttgg tagccaagga tgacttgcct gcacctttcc ccaaggattc       60



aagtaaatgg ctaagaaacc tgaaactcct ttcaggttgc caggcagtca cctaggctaa      120



tctagcaggt tcttttccc                                                   139





<210>  2039

<211>  141

<212>  DNA

<213>  Theobroma cacao



<400>  2039

agataaagag tcttgtttga tagccaagga tgacttgcct gtacctcaca gcaggtttct       60



cttaggttaa aagttcttcc ttggaagccc ctgtctagtt tcaggcaatt atccttggct      120



aacctgacag gctcttctct a                                                141





<210>  2040

<211>  174

<212>  DNA

<213>  Brassica napus



<400>  2040

agagtcatgt ttagtagcca aggatgactt gcctgctctt tttcacctcc atgattcaat       60



tttatgtaca gttttggatt actatgcttc taaagagtat agtaattcaa aatcttgttg      120



aatctttgag ggtaacagtt tcaggcagtc tccttggcta tcttgacatg cttt            174





<210>  2041

<211>  111

<212>  DNA

<213>  Aquilegia caerulea



<400>  2041

aatgcagcca aggatgactt gccggaacgt tgttaaccat gcatatgaat aatgtgatga       60



ttaattatgt gatgaacata tttctggcaa gttgtccttc ggctacattt t               111





<210>  2042

<211>  132

<212>  DNA

<213>  Theobroma cacao



<400>  2042

aagaggtaga cagtgtggtg cagccaagga tgacttgccg gctaatccct aggaggcatg       60



catttgcctt gtttctctgc tttagattat tccggctagt tgtccttggc tacggtgcgc      120



tgtcttcttc tc                                                          132





<210>  2043

<211>  121

<212>  DNA

<213>  Glycine max



<400>  2043

aagaggaaga gagagtgatg cagccaagga tgacttgccg gcgttattat ttgctcatgt       60



tcatgctcac cggtttcctt gccggcaagt tgtgtttggc tatgttttgc tctcttcttc      120



t                                                                      121





<210>  2044

<211>  155

<212>  DNA

<213>  Brassica napus



<400>  2044

aaacggtgac atgaagaatg agaagttgtg tggtagccaa ggatgacttg cctgcgtctt       60



aacaccatat cacagacttt atcgatagtc tctgagttgg ttaggctgta ggcagtctcc      120



tcggctattc agacactcct ctttctcctc atttc                                 155





<210>  2045

<211>  132

<212>  DNA

<213>  Brassica napus



<400>  2045

tgtgaccaaa gtagtgtgca gccaaggatg acttgccgat ttaaaatatc tgataagtat       60



tttatttcgt attttaaaga aaaaaatcat gatcggcaag ttgtccttgg ctatacgttt      120



ctttgtgtcg cg                                                          132





<210>  2046

<211>  103

<212>  DNA

<213>  Sorghum bicolor



<400>  2046

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acatggcatt gcgagttccg       60



gttgcatggc cagttcagct gagtttgtgg gcggtcacct tgg                        103





<210>  2047

<211>  126

<212>  DNA

<213>  Sorghum bicolor



<400>  2047

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acacggcctt gcgagttccg       60



gttgcatggc cagttcagtt gggtttgtgg gcggtcacct tggctagcct gagtggctct      120



tgcctg                                                                 126





<210>  2048

<211>  175

<212>  DNA

<213>  Brachypodium distachyon



<400>  2048

tggagacgag gagccccttt gcaggctcta ccagccaaga atggcttgcc tatgcccacg       60



ttctgtttca tcaccactgg gcttaatctt ggagccctgg tgatggatga gatgtgattg      120



tatggtcaag ccatcttggc tagaagagag atcctcgtcc cccatgctag gctgc           175





<210>  2049

<211>  118

<212>  DNA

<213>  Populus trichocarpa



<400>  2049

tgctgttttc tagccaagga tgacttgctc gttagccctt gaaagatgtt tcaaatttag       60



gctgcatatg ctcagaacct ttttctggct tcaggcaatc atcttggcta aatgacag        118





<210>  2050

<211>  174

<212>  DNA

<213>  Brachypodium distachyon



<400>  2050

tctttgcatg gaagtaggag gccatctttg atagccaagg atgatttgcc tgtaaaaccg       60



attgtcgtcg cctctcggtg ccgttccagg cactcgaagg gagggcggca gcaacaggtt      120



ctatgggcaa gtcagcctgg ctacccgagt acctcttacc catattccat gcca            174





<210>  2051

<211>  115

<212>  DNA

<213>  Populus trichocarpa



<400>  2051

tcttgttagt tagccaagga cgacttgcct gttcctagca atttgggatt tgccctggac       60



taagaggcag gaccctcatt ccgggtttca ggcagtctcc ttggctaggt tgaca           115





<210>  2052

<211>  183

<212>  DNA

<213>  Glycine max



<400>  2052

tatgatgctg cagccaagga tgacttgccg ataaattctt tctctaattt gactttcaat       60



tcatgtttgt caattgatag tgcattagtt ctaatatatg catttgatta tatagaacac      120



tattgtgaaa gtgtctttag ggatagggta aattcggcaa gtcatctttg gctacatgtc      180



tat                                                                    183





<210>  2053

<211>  130

<212>  DNA

<213>  Zea mays



<400>  2053

taggctcggg gactatggtg cagccaagga tgacttgccg atcgatgtga cgcctcttga       60



tctcgtcgtc gtcagatcgt cgccgatcat cggcaagttg ttcttggcta caccgtggct      120



cctgctcctg                                                             130





<210>  2054

<211>  156

<212>  DNA

<213>  Zea mays



<400>  2054

taggctcggg gactacggtg cagccaagga tgacttgccg atctatcgtc gatcaacgag       60



cgacgcctct gatgtctgat ctcgacatct atcgtcgtca gaccatcatc atctatcggc      120



aagttgttct tggctacacc gtggctcctg ctcctg                                156





<210>  2055

<211>  142

<212>  DNA

<213>  Theobroma cacao



<400>  2055

taggcctaga aaggatggtg cagccaagga tgacttgccg actactccct ccagcctttg       60



ctgtactgtt ttttatattg aaaaaatgga tatagatgaa gtgggcaagt cgtctttggc      120



tacatttttc tttctcctcc tc                                               142





<210>  2056

<211>  147

<212>  DNA

<213>  Theobroma cacao



<400>  2056

taggcacaga aagtgaagtg cagccaagga tgacttgccg attctttctc ttatatccat       60



tcagttttac caacactagc aactcatatg taaagacgaa tttaaatcgg caagttgtcc      120



ttggctacat gtttcttttt gctccac                                          147





<210>  2057

<211>  147

<212>  DNA

<213>  Theobroma cacao



<400>  2057

taggcacaga aagtgaagtg cagccaagga tgacttgccg attctccctc ttgcatccat       60



tcagttttgc caacaccagc aactcatatg tagagacgaa tttaaatcgg caggttgtcc      120



ttggctacat gtttctttct gctccac                                          147





<210>  2058

<211>  92

<212>  DNA

<213>  Sorghum bicolor



<400>  2058

tagccaagga tgacttgcct atatcctctc taaaggatca gcaaatattg aggcttctag       60



tggtctcata tgggcagtct ccttggctag cc                                     92





<210>  2059

<211>  277

<212>  DNA

<213>  Brassica napus



<400>  2059

gtttcaggca gtctccttgg ctatcttgac atgctttttt cttccatgtt ataccttctt       60



tctttgtatt tttcgaatcc aaataatatt tttttctata aatttactac gaaaatcctt      120



taaacaatct ctaacaaagt atgttattag aaaactacca ctttttgcat ttattacaaa      180



tgcatgtacg tggtgagtgt atgcattctt tagaaggaaa tgtcaaaggt gaatagaaga      240



atcatatttg gtagccaagg atgacttgcc tatttct                               277





<210>  2060

<211>  226

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2060

gtgacgaaag tagtgtgcag ccaaggatga cttgccgatt taaatgatct ttctttatac       60



tctattaaga caatttagtt tcaaactttt tttttttttt ttttttgaag gattcaggaa      120



gaaattagga tatattattc cgtataaaat acaagatata taaaaccaaa aagaaaaagt      180



aacatgatcg gcaagttgtc cttggctaca cgttactttg tgtcgc                     226





<210>  2061

<211>  188

<212>  DNA

<213>  Brassica napus



<400>  2061

gtgaccaaag tagtgtgcag ccaaggatga cttgccgatt tgaaatatat ttttaatact       60



ttactaagac atcttttcag tttcaaattt gtcttggaga ggctaggaag aaattacaat      120



ttatttcgta gtttaaagaa aaaatatgat cggcaagttt tccttggcta catgtttctt      180



tgtgtcgc                                                               188





<210>  2062

<211>  125

<212>  DNA

<213>  Vitis vinifera



<400>  2062

gtctcgtctg gtagccaagg atgacttgcc taaatccacc aggtttcaaa acactgaatg       60



taattatcca caaagcgatt ccgtggtctt taggcagtca ttccttcggc taaactgacc      120



ggctc                                                                  125





<210>  2063

<211>  147

<212>  DNA

<213>  Solanum lycopersicum



<400>  2063

gtctagagag ttattgtatg aagaggtagg gagtggagtg cagccaagga tgacttgccg       60



agatgttgta gcctaatgca atgacatatc ggcaggtcat ctttggctac attttattct      120



ctcctattca tgtaaaactt tatagac                                          147





<210>  2064

<211>  201

<212>  DNA

<213>  Brassica napus



<400>  2064

gtcaaagatg aataggagaa ttctatttgg tagccaagga tgacttgcct acttctttgc       60



gaaggaaaat ggtcacggtg tcatgtttga aagtgaatat atatttataa gagtatatca      120



attagtgacc attttgcgta taaaaagata ttaggcagtc tccttggcta tccttatatg      180



ttcttctttc tcatctcaga c                                                201





<210>  2065

<211>  93

<212>  DNA

<213>  Sorghum bicolor



<400>  2065

ggtagccaag gatgacttgc ctatatcctc tatgaaggat cagcaaatat cgaggctttg       60



agtggtctca tgggcagtct ccttggctag cct                                    93





<210>  2066

<211>  150

<212>  DNA

<213>  Festuca arundinacea



<400>  2066

ggcacgaggg caaagcctta catggctgca agggccttac ctctgatagc caaggatgac       60



ttgcctatgt cttcttcctc cctcagatgc ctaattagcc ttggaggtgt ggggtctcat      120



gggcagtcac cttggctagc ctgagtggct                                       150





<210>  2067

<211>  181

<212>  DNA

<213>  Brachypodium distachyon



<400>  2067

ggaagggtag gatacgtttt tgcttgcccg tggccgcgct aacattaggc ttggggacta       60



tggtgcagcc aaggatgact tgccgatcga aacgatgcac aatatgcatc gatcggcgag      120



ttgttcttgg ctacatctta gctcctgccc ctcatgttag gccggcatgc ggtggtatgt      180



a                                                                      181





<210>  2068

<211>  170

<212>  DNA

<213>  Oryza sativa



<400>  2068

gctgattcgg tagccaagga tgacttgcct aatgcctatg tgcatgtgtt tatacgctgc       60



tcatctgcat tttgattatc ccctgatcag tcctgtcgtc aattatatgt gtgtgtagta      120



ctctgtactc atacatatat aggcatgtct tccttggcta ttcggagcgg                 170





<210>  2069

<211>  158

<212>  DNA

<213>  Aquilegia caerulea



<400>  2069

gcatgaaagt aggaggcgtg tttagtagcc aaggatgact tgcctaccaa gggtctcatt       60



ttaaggcatt atcttccttg gataatgcgt ctggaatcct cgactggtta ataggcagtc      120



tccttggcca acttgactgc ctcctattac tcatgcta                              158





<210>  2070

<211>  184

<212>  DNA

<213>  Vitis vinifera



<400>  2070

gatattatgg tgcagccaag gatgacttgc cgaaaataat ttgctcgatc gttaatgtgc       60



ttctccagtt tctattgcaa tttatgcata gggcaatata tatatccttt atagcttgtt      120



aattcagata ttgactgagg aatcaataat gggcaagttg tgtttggcta catgtttatc      180



tcat                                                                   184





<210>  2071

<211>  144

<212>  DNA

<213>  Aegilops tauschii



<400>  2071

gagtggtatc atcttttagc tcttgcatgt ggggaggagg acatgtagcc aaggatgaat       60



tgccagcgcg gagtgatccg tcgcgcaggc aagtcattac tggctacgtg tttgcctcgt      120



ttcctcatgc tggagcgaag atgt                                             144





<210>  2072

<211>  119

<212>  DNA

<213>  Populus trichocarpa



<400>  2072

gagggtttgg tagccaagga tgacttgcct atttcctcca taaggcttta aaaagcatga       60



aatgtggttt agagctcaat tgaagggttc ataggcagtc tactttggtt atcctagct       119





<210>  2073

<211>  126

<212>  DNA

<213>  Oryza sativa



<400>  2073

gagcaaggtg tagccaagga caaacttgcc ggatcaacag agaaggactg ccagtctccg       60



gccaattaat taacctcgcc gtcggccatc gccggccggc aagtcatcct tggctgcatc      120



ctgctc                                                                 126





<210>  2074

<211>  252

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2074

gaagtgtata acgaggaaaa gaggtctaac atggcgaaaa gagtcatgtt tagtagccaa       60



agatgacttg cctgatcttt ttcacctcca tgattcaatt tgaattccat gggttttgga      120



ttattatgca ttttaaaagc ataatagttc gaaaatcatg ttgaatcttg cgggttaggt      180



ttcaggcagt ctctttggct atcttgacat gcttttttca ttcatgttat acctattttt      240



ctttctgtct tc                                                          252





<210>  2075

<211>  220

<212>  DNA

<213>  Brassica napus



<400>  2075

gaaggagatg tcaaagatga ataggagatt tctatttggt agccaaggat gacttgccta       60



cttctttgcg aaggaaaatg gtcacggtgt catgtttgaa agtgaatata catttttaag      120



agtatatcaa ttagtgacca ttttgcgtat aaaaagatat taggcagtct ccttggctat      180



ccttatatgt tcttctttct catctcagac atttaccttc                            220





<210>  2076

<211>  176

<212>  DNA

<213>  Solanum lycopersicum



<400>  2076

gaagaggggt tttatatgaa gttgagagta ttatttagta gccaaggatg acttgcctac       60



ttcatttgat atatagttta aaataataat attgacaata tttgtcattt ggtcgtaggc      120



aagttatcct ggctatcttg acatgctcgt aatttttcat gtaagacctt atcttc          176





<210>  2077

<211>  121

<212>  DNA

<213>  Vitis vinifera



<400>  2077

gaaagtatgg tgcagccaag gatgacttgc cgactctcta cttagccatc tgcctttctc       60



caaggaggct tgcagtactg atgaagccgg caagttgtct ttggctacat gcttctttct      120



g                                                                      121





<210>  2078

<211>  164

<212>  DNA

<213>  Brachypodium distachyon



<400>  2078

cttgcatgag ggccagagcc tgcttcctcc ggtagccaag gatgacttgc ctatatttgc       60



tccttcagaa gtcctggtta attacatgcc aggtttcaga tgagtttggc gataggcagt      120



caccttggct agcctgagtg gctcttgcct cttatggaag gcct                       164





<210>  2079

<211>  126

<212>  DNA

<213>  Oryza sativa



<400>  2079

ctgcctctgg tagccaagga tgacttgcct attgtgctct tctgaatgat gcagtgccat       60



gatcagtgtg gcctggctgg ttcagatgag ccgagatagg cagtctcctt ggctagcctg      120



agtggc                                                                 126





<210>  2080

<211>  109

<212>  DNA

<213>  Populus trichocarpa



<400>  2080

cgtgtttggt agccaaggat gacttgccca ctctatggaa agagttctca agcacacggc       60



agagaggacc cttacttcgg ctctgggcag tcaccttggc tatgctgac                  109





<210>  2081

<211>  110

<212>  DNA

<213>  Populus trichocarpa



<400>  2081

cgtgtttggt agccaaggat gacttgccca ctccattgaa agagtttttc aagcatatgg       60



tagtgtagaa cttttctttg gttctgggca gtcatcttgg ctatgctgac                 110





<210>  2082

<211>  173

<212>  DNA

<213>  Oryza sativa



<400>  2082

cgccggcggc ctgacattgg gatcggaggc catggtgcag ccaaggatga cttgccgatc       60



gatcgatcta tctatgaagc taagctagct ggccatggat ccatccatca attggcaagt      120



tgttcttggc tacatcttgg cccctgctcc tcatgtaagg ccggcctgtg gcg             173





<210>  2083

<211>  116

<212>  DNA

<213>  Zea mays



<400>  2083

cagccaagga tgacttgccg atctatcgtc gatcaacgag cgacgcctct gatgtctgat       60



ctcgacatct atcgtcgtca gaccatcatc atctatcggc aagttgttct tggcta          116





<210>  2084

<211>  90

<212>  DNA

<213>  Zea mays



<400>  2084

cagccaagga tgacttgccg atcgatgtga cgcctcttga tctcgtcgtc gtcagatcgt       60



cgccgatcat cggcaagttg ttcttggcta                                        90





<210>  2085

<211>  91

<212>  DNA

<213>  Sorghum bicolor



<400>  2085

cagccaagga tgacttgccg atcgatcgat gcaaactcct ctgatgtctg atctcatcag       60



attatcgttg tcggcaagtt gttcttggct a                                      91





<210>  2086

<211>  101

<212>  DNA

<213>  Populus tremula



<400>  2086

cagccaagga tgacttgccg acgactcgct tttgcttttg cttccatcaa tataggcata       60



atcaagaaga gatgaatccg ttggcaggtt gttcttggct a                          101





<210>  2087

<211>  150

<212>  DNA

<213>  Zea mays



<400>  2087

cagccaagga tgacttgccg acctattttt cttttaacat tccaatgtaa atccatggca       60



tatatatatg gttgtatatc atattgaagt ccagatctag aacattataa taaatgttat      120



atagggttta tcggcaagtc atcattggct                                       150





<210>  2088

<211>  140

<212>  DNA

<213>  Zea mays



<400>  2088

cagagctagc ctgcctctgg tagccaagga tgacttgcct acatggtctc gctagttccg       60



gttgttgcat gcatgccact atgccagtcc tgctgggttt gtgggcggtc tccttggcta      120



gcctgagtgg ctcttgcctg                                                  140





<210>  2089

<211>  128

<212>  DNA

<213>  Zea mays



<400>  2089

caataagggc ctgcctctga tagccaagga tgacttgcct atgtcctttg tttacaaagg       60



atcagaattg tggacctttg tgttggttcg taggcagtct ccttggctag cctgagtggc      120



ccctattg                                                               128





<210>  2090

<211>  103

<212>  DNA

<213>  Sorghum bicolor



<400>  2090

atagccaagg atgatttgcc tgtagcaacc tctgagtgct cctgctgcca tggcagtcag       60



gagcgccaag tgggtgcttc tccgggcaaa tcatctgggc tag                        103





<210>  2091

<211>  152

<212>  DNA

<213>  Theobroma cacao



<400>  2091

agattaagag tcttgttggg tagccaagga tgacttgcct atatccaaaa aggattttga       60



ggaaagaaaa gctgaatctg ataaatctca tcagagtcct tttaatggtt tctgggcagt      120



ctcctttggc tatcctgact ggctcttatc tt                                    152





<210>  2092

<211>  176

<212>  DNA

<213>  Brassica napus



<400>  2092

agatgaatag aagaatcata tttggtagcc aaggatgact tgcctatttc ttgagagtaa       60



aatgggcatg gtgtcatgtt aaaagttact gtaggtagtt tcaatttgac cattttcctt      120



acaaatgata ttaggcagtc tccttggcta tccttatatg ttcttctctc tcatct          176





<210>  2093

<211>  115

<212>  DNA

<213>  Prunus salicina



<400>  2093

agagtggagc tgagccaaaa atgacttgct gcaattaatc gaaggtgaag caacaatttg       60



tatatcgttg ggcatacata cgcagcaagt tgttcttggt tctgtttggt tctct           115





<210>  2094

<211>  150

<212>  DNA

<213>  Zea mays



<400>  2094

accagagctg attcgttcag tagccaagga tgacttgcct aggtatatat gcatgggcta       60



tggctacatg cctgagagcc agtctcttgt gacgctgagc atgtatagtg taggcatgtc      120



ttccttggct actcggagcg gctctagtca                                       150





<210>  2095

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2095

aagtttgatg cagccaagga tgacttgccg acgactcaat ttttgcttcc atatggtaga       60



agagatgaat aggttggcag gttttccttg gctacatttt cc                         102





<210>  2096

<211>  165

<212>  DNA

<213>  Populus trichocarpa



<400>  2096

aagtggtatg cagccaagga tgacttgccg acttaactga tctgtataaa ttaatgcatg       60



tgtagtcaaa attactacta ctatatatta atctgatctg tgaccacaaa ttaactaact      120



actagctagt aattagttgg caagttgtcc atggctacat gctgc                      165





<210>  2097

<211>  113

<212>  DNA

<213>  Populus trichocarpa



<400>  2097

aagattgatg cagccaagga tgacttgccg acgactcgtt tttgctttca tcaatatacg       60



cataattaag aagagatgaa tccgttggca ggttgttctt ggctacattt ttc             113





<210>  2098

<211>  115

<212>  DNA

<213>  Theobroma cacao



<400>  2098

aagataagag ttctgtttgg tagccaagga tgagttgcct gctccttcca agaggtttca       60



aatcttgttg ggttgccagg cattcacctt ggctaacttg actggctctt ttctt           115





<210>  2099

<211>  121

<212>  DNA

<213>  Medicago truncatula



<400>  2099

aagaggcaga gagagtaatg cagccaagga tgacttgccg acaacgttgg cgaatgttca       60



tgtgatttct gcctcattgt gccggccagt tgtccttggc tatgttagtc tctcatcttc      120



t                                                                      121





<210>  2100

<211>  121

<212>  DNA

<213>  Medicago truncatula



<400>  2100

aagaggcaga gagagtaatg cagccaagga tgacttgccg acaacattgg cgaatgttca       60



tgtgatttct gcctcattgt gccggcaagt tgtccttggc tatgttagtc tctcatcttc      120



t                                                                      121





<210>  2101

<211>  263

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2101

aacgcgtatg tgacgaaagt agtgtgcagc caaggatgac ttgccgattt aaatgatctt       60



tctttatact ctattaagac attttaagtt tcaaatttct ttggttcttc aaggattaag      120



gaagaaagta ggctatatat gtagatatat atattatgct gtattaaata tatgtacaag      180



ataagaccaa aaaagaaaaa gtaacaatca tgatcggcaa gttgtccttg gctacacgtt      240



actttgtgtc gcgcataggt gtt                                              263





<210>  2102

<211>  107

<212>  DNA

<213>  Populus trichocarpa



<400>  2102

tcttgtttgt agccaaggac gacttgccca caatatgtat cgtgagcgtt tccaatttgc       60



aacctcatac ttggtttgtt ttgggcagtc tccttggcta tgcagat                    107





<210>  2103

<211>  118

<212>  DNA

<213>  Populus trichocarpa



<400>  2103

tagtagaatg cagccaagaa tgatttgccg gcgccggcca gcacttgttg caaagcaact       60



aagcaagggc ttcaaatgtt tttggcaccc cggcaagttg ttcttggcta catttgga        118





<210>  2104

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2104

gatgttcggt agccaaggac gacttgccca cactatgaga caagtggtta gaattagcaa       60



cttcttaatt ggttatggga agtctccttg gctatgctga c                          101





<210>  2105

<211>  169

<212>  DNA

<213>  Sorghum bicolor



<400>  2105

gatggagagc ccccttttgc tagccaagaa tgacttgcct atgcatgccc tctgttggca       60



attcctccag ccatggagat tgcacaaggt gaatttttgc ggcatagatg atggatgcaa      120



tgtggctgca tgggcaggtc ttcttggcta gccagagtgc tctcatcca                  169





<210>  2106

<211>  144

<212>  DNA

<213>  Theobroma cacao



<400>  2106

gataaagagt ctttgtttgg tagccaggga tgacttgcct acggcttttc aggtggttaa       60



tattgatgct atgattatga atgtaaaacc cctggctctg gtctgcaggc agtcaccttg      120



gctatgctaa caggctcttt tctc                                             144





<210>  2107

<211>  120

<212>  DNA

<213>  Vitis vinifera



<400>  2107

gagtggaatg cagccaagaa tgatttgccg gaatttatat atagtgagaa gagaagaggc       60



tataggcttt cacatatata gtgaaccctg gcaagttgtc cttggctaca tttgattctc      120





<210>  2108

<211>  122

<212>  DNA

<213>  Populus trichocarpa



<400>  2108

gagggttggg tagccaagga cgacttgcct atttcctcca tggggtcctg aaaagaatga       60



aatactgtcg ttcagagctc attggtaggg ttcataggca gtctcctttg gctatcctaa      120



ct                                                                     122





<210>  2109

<211>  49

<212>  DNA

<213>  Gossypium hirsutum



<400>  2109

gacgacaacg tcttccaccg tctcgtcgac gccaaggatg tcttgcgtc                   49





<210>  2110

<211>  85

<212>  DNA

<213>  Medicago truncatula



<400>  2110

gaatgcagcc aagggtgatt tgccggcaga tatatatgaa tattcataga gatgcatgtg       60



tcggcaagtt cctcttggct acatt                                             85





<210>  2111

<211>  107

<212>  DNA

<213>  Populus trichocarpa



<400>  2111

cttgtttggt agccaaggac gacttgccca ccaccatctt agttgggtcc aatatattac       60



tgggcacctt ccatttggtt ttgggcaagc accttggcta gctgaca                    107





<210>  2112

<211>  107

<212>  DNA

<213>  Populus trichocarpa



<400>  2112

cttgtttggt agccaaggac gacttgccca ccaccatctc agttgggtcc aatatattac       60



tgggcacctt ccatttggtt ttgggcaagc accttggcta gctgaca                    107





<210>  2113

<211>  177

<212>  DNA

<213>  Oryza sativa



<400>  2113

ctccctttgg tagccaagaa tgacttgcct atgtgttttg ccttgtgttg gctcatccat       60



ccatctatca gccgttgcag atttgcagtg gcagattaaa gggtttcaga aagaaattct      120



tgtgatggat gtgcaatgtg gctgcatggg ccggtcttct tggctagcca gagtggc         177





<210>  2114

<211>  173

<212>  DNA

<213>  Oryza sativa



<400>  2114

ctccctttgg tagccaagaa tgacttgcct acgcttttgc cctctgttgg ctcatccatc       60



cgtctatcta tctgccatgg cagatggcag attaagggtt tctgaaagaa attcttgtga      120



taggatgtgc aatgaggctg catgggccgg tcttcttggc tagccagagt ggc             173





<210>  2115

<211>  248

<212>  DNA

<213>  Vitis vinifera



<400>  2115

cgttgtttgg tagcgaagga tgacttgcct acagcctcct taaggtttca aaataccgag       60



cttgtctacc tttgatcaaa tgattcaaga aacaaaagaa aagaaaggcc atggcagcca      120



tccatcagag tcaacatgag aatcatgttc tatagaaatt ggagtcattc ttgagaatga      180



acacgacact attagcttgg aatctataat gtggtttatg gcaagtctcc ttggcacctg      240



atggcctc                                                               248





<210>  2116

<211>  107

<212>  DNA

<213>  Populus trichocarpa



<400>  2116

cctgtttggt agccaaggac gacttgccca ccaccatctt agttgggtcc agtatattac       60



tgggcacctt ccatttggtt ttgggcaagc accttggcta gctgaca                    107





<210>  2117

<211>  84

<212>  DNA

<213>  Populus tremula



<400>  2117

cagccaagga tgatttgccg acgactcagt ttttgcttcc atatggtagg agagatgaag       60



aggttggcag gttttccttg gcta                                              84





<210>  2118

<211>  187

<212>  DNA

<213>  Brachypodium distachyon



<400>  2118

atggagatgg agagcctccc ttgattttgg tagccaagaa tgacttgcct atgcttgccc       60



tctgctaacc agctagccat gcatggtaac caatggacaa atttcttgtg gttggcgtgg      120



ttagtgtggt tgcatgggtg ggtcttcttg gctagccaga gcggctctca tccaccatgc      180



caggcca                                                                187





<210>  2119

<211>  104

<212>  DNA

<213>  Sorghum bicolor



<400>  2119

ttagccaaga atggcttgcc tatctccatt attttgttca tcgatgcagg cctagggatc       60



gtcatggatg aaatgtggat gatggcatcc attcttggct aagt                       104





<210>  2120

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  2120

ttagccaaga atggcttgcc tatctccatt atttggttca tcagagggac ctctgatccc       60



tcatgatgga tgaaatgtgg atgatggcag cccttctggc taagt                      105





<210>  2121

<211>  379

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2121

tgcctataaa taccttcatc acgagtatga caagatcaca agacaagaaa agaaaggtag       60



agaaaacatg ataatgatga ttacgatgat gagagtctct agttgtatca gagggtcttg      120



catggaagaa tagagaatga ggttgagcca aggatgactt gccgggtttt tttaccaatg      180



aatctaatta actgattctg gtgtccggca agttgacctt ggctctgttt ccttctcttc      240



ttttggatgt cagactccaa gatatctatc atcatgaatc gtgatcaaac tttgtaattt      300



cattgaaatg tgtttttctt gatgcgaatt ttttggctta cggtttttcg atttgaatga      360



tcagattttt gtttttgca                                                   379





<210>  2122

<211>  240

<212>  DNA

<213>  Medicago truncatula



<400>  2122

agatgaagcc aaggatgact tgccggtata atagtaattt gccacaaatc tagatagcta       60



ttagctatgt ttggatgggc ggtgagatta acaaaattac agcagcattg tgattttgtt      120



gatgctttaa agtgtagttt ttatcaaaat tacagtggtt cactgtaatt atgagaatct      180



caccgtcaat ctaaatatgc atttagtttc atttccggca ggtcatcctt cggctatatt      240





<210>  2123

<211>  109

<212>  DNA

<213>  Sorghum bicolor



<400>  2123

tagccaagga tgacttgccg gcatttcttg ggtcggatga ctgagttgtt gagcctgggg       60



atgaacagac ccggatcgac ggccggccgg caagtcatct gtggctacg                  109





<210>  2124

<211>  97

<212>  DNA

<213>  Sorghum bicolor



<400>  2124

tgatagccaa ggatgacttg cctgtgtcct ttgtgccgaa ggatcagaaa tgtgagcctt       60



tgagatagat ggttcatagg cagtctcctt ggctagc                                97





<210>  2125

<211>  98

<212>  DNA

<213>  Sorghum bicolor



<400>  2125

tagccaagga tgacttgcct agctatatgc ctgagagcct gtctcttggt ggtaaatttg       60



tatgtgctga gcatataggc atgtcttcct tggctact                               98





<210>  2126

<211>  138

<212>  DNA

<213>  Zea mays



<400>  2126

gtagccaaga atgacttgcc tatgcacgcc ctctgttggc agttccgtcc ggcagccatg       60



gcgacggttg cacaaggtga gtttttgcgg cgtggatgat gcaatgtggc tgcatcggca      120



ggtcttcttg gctagcca                                                    138





<210>  2127

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2127

gtagccaggg atgatttgcc tgtggttcct gtcgttgcca tgccaatgcc tgtactgttc       60



gatctacggg caaatcatcc ctgctaccg                                         89





<210>  2128

<211>  85

<212>  DNA

<213>  Medicago truncatula



<400>  2128

gaatgcagcc aagggtgatt tgccggcaga tatatatgaa tattcataga gatgcatgtg       60



tcggcaagtt cctcttggct acatt                                             85





<210>  2129

<211>  106

<212>  DNA

<213>  Zea mays



<400>  2129

ttagccaaga atggcttgcc tatctccatt atttggtcca tcttcttggg agacctccct       60



catggtgtgg atggaatgtg gatggtggca ggccttctgg ctaagt                     106





<210>  2130

<211>  104

<212>  DNA

<213>  Zea mays



<400>  2130

ttagccaaga atggcttgcc tatctccact gtttggttcg tcttgggaga ccaccctgat       60



gatgggtgta ctgtgtggat gatggcaggc cttcttggct aagc                       104





<210>  2131

<211>  101

<212>  DNA

<213>  Zea mays



<400>  2131

ttagccaaga atggcttgcc tatctccatt attttgttca tcgcaggaag cccttccgtg       60



atggatgaaa tgtggatgat ggcatccatt cttggctaag t                          101





<210>  2132

<211>  63

<212>  DNA

<213>  Sorghum bicolor



<400>  2132

agggcaaccc tccattggca ggtgcgacct acaccctacc ctgccaaagg ggatttgccc       60



ggc                                                                     63





<210>  2133

<211>  162

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2133

catgtgagat ggatcaaagg tggaaatgta ttacagggta agatctctat tggcaggaaa       60



ccattactta gatctttgca tctctttatg cattgctttt aagtgagttc tctgccaaag      120



gagatttgcc cggtaattct tctgcaccaa tatattgata tg                         162





<210>  2134

<211>  106

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2134

attacagggc aagatctcta ttggcaggaa accattactt gacctttgca tctctttatg       60



cattgctttg tagtgagttc ttgccaaagg agatttgccc ggtaat                     106





<210>  2135

<211>  136

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2135

aaaggtgaaa atgcattaca gggcaagatc tctattggca ggaaaccatt acttgacctt       60



tgcatctctt tatgcattgc tttgtagtga gttcttgcca aaggagattt gcccggtaat      120



tcttttgcgc taatat                                                      136





<210>  2136

<211>  118

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2136

atatgcatta cagggcaaga tcaccattgg cagagatcta ttacttcatt cttgcatcat       60



atgcataaat gtttgtggtg agctctctgc caaaggagat ttgcccggta attctctt        118





<210>  2137

<211>  102

<212>  DNA

<213>  Brassica napus



<400>  2137

acagggcaag atctctattg gcagaaaacc attacttaga tctttgcatc tctttctgca       60



ttgatttgta gtgagttctc tgccaaagga gatttgcccg gt                         102





<210>  2138

<211>  155

<212>  DNA

<213>  Citrus sinensis



<400>  2138

cattgaggtg catgcatgca gttgcatatt acagggcaac atctccattg gcaggctgca       60



tacttattac atccatctca tatatacgta tgttcttcag tcagtgtgcc ttctgccaaa      120



ggagatttgc ccggcaattc ctctgcattt atttt                                 155





<210>  2139

<211>  126

<212>  DNA

<213>  Populus trichocarpa



<400>  2139

ggtgcagttg cattacaggg caagcttcca ttggcatgca gccactaaga cacgcaatat       60



ctaacacttg atgcattcct gtagagtgcg gcgccatgcc aaaggagatt tgcccggcaa      120



ttcttc                                                                 126





<210>  2140

<211>  126

<212>  DNA

<213>  Populus trichocarpa



<400>  2140

ggtgcagttg cattacaggg caagcttcca ttggcatgca gccactaaga cacgcaatat       60



ctaacacttg atgcattcct gtagagtgcg gcgccatgcc aaaggagatt tgcccggcaa      120



ttcttc                                                                 126





<210>  2141

<211>  106

<212>  DNA

<213>  Ricinus communis



<400>  2141

ttacagggca aaatctccat tggcatggaa ccactaagat atccaaacca atcaagccag       60



gatttcaata gtgtgtgccc tgccaaagga gatttgcccg gcaata                     106





<210>  2142

<211>  96

<212>  DNA

<213>  Ricinus communis



<400>  2142

ttacagggca aaaccttcat tggcatgctg ccagactaag atgtgggacg cattcctatc       60



gtgtgcatca tgccaaagga gatttgcccg gcgata                                 96





<210>  2143

<211>  135

<212>  DNA

<213>  Theobroma cacao



<400>  2143

ttcagggtgc aactgcatta cagggcaaga tttccattgg caggcagcca cttatatgtg       60



cacccaaact cattcattca tgtggtgtgc cctctgccaa aggagatttg cccggcaatt      120



cttttgtact actta                                                       135





<210>  2144

<211>  136

<212>  DNA

<213>  Theobroma cacao



<400>  2144

tctctggtgc agttgcatta cagggcaaag atctccattg gcaggctgcc actttgggtc       60



acgaaccgaa ttatgtgttc ctatagtgtg tcttctgcca aaggagattt gcccggcaat      120



tcttccgcat tgatat                                                      136





<210>  2145

<211>  112

<212>  DNA

<213>  Vitis vinifera



<400>  2145

gcatattaca gggcaaatta tcttttggca ggcagccact tagagacaca gccaagccat       60



gcattcttgt agtgtgccct ctgccaaagg agatttgccc ggcaattctt ct              112





<210>  2146

<211>  135

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2146

gagagataat gtatggttgg attactgggc gaatactcct atggcagata gctttgccta       60



gatatgcaag caaaatgctt ctctgccaaa ggagatttgc cccgcaattc atccatgcaa      120



aacaatacat ctttc                                                       135





<210>  2147

<211>  167

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2147

atgaaagata catagagaag gtgcaaatac attacagggc aagatcacca ttggcagaaa       60



tctattactt cattcttgca taatatgcat taatgtttgt ggtgagctct ctgccaaagg      120



agatttgccc tgtaattctc ttgcgccaat gttttagata tcttcat                    167





<210>  2148

<211>  157

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2148

gatgatgcat ggttggatta cagggcaaat actccattgg cagatagttt tcgctacatc       60



tatattattt gttattatat gggtgaatca atgtatgaaa aatactttac tgccaaagga      120



gatttgcccc gcaatttgtt ccatgcaaaa gaacatc                               157





<210>  2149

<211>  127

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2149

gcatggttgg attacagggc aaatactcca ttggcagata gttttcgttg catctatatt       60



attgattatc gatgtatgaa aaattcttta ctgccaaagg agatttgccc cgcaattcat      120



cccgtgc                                                                127





<210>  2150

<211>  123

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2150

aaatgcatta cagggtaaga tctctattgg caggaaacca ttacttagat ctttgcatct       60



ctttatgcat tgcttttaat tagtgagtta tctgccaaag gagatttgcc ctgtaattct      120



tct                                                                    123





<210>  2151

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2151

ggttggatta ctgggcgaat actcctatgg cagatcgcat tggctagata tgcaagtaaa       60



atgcttctct gccaaaggag atttgccccg caattcatcc                            100





<210>  2152

<211>  98

<212>  DNA

<213>  Gossypium hirsutum



<400>  2152

tgaggaatta cagggcaact ctccttaagc aaaaatggat gtgcttttct ttgcataatt       60



cgattttgcc aaaggagatt tgccctgcca ttcactca                               98





<210>  2153

<211>  131

<212>  DNA

<213>  Hordeum vulgare



<400>  2153

tcagaagaac taggtagatt tgccaaagga gatttgccga actataggta ctgtaggtag       60



gttttgccaa aaggagattt gccccgaact atcggtaggt ttgccaaagg agatttgccc      120



cgaagaactt a                                                           131





<210>  2154

<211>  134

<212>  DNA

<213>  Medicago truncatula



<400>  2154

tccaagttgc agttgaatta cagggtgagt tctccattgg caggtagcta gtcactatat       60



gatatgcatt gcaatcattt cttagtgtgc aatctgccaa aggagatttg cccagcgatt      120



ctcctgcaac tcta                                                        134





<210>  2155

<211>  119

<212>  DNA

<213>  Medicago truncatula



<400>  2155

gttctgctgt tgaggaatga tagggaaaat ctcttttggc agagaggagt aaaaatctta       60



aacaggaatg tttctggttt gccaaaggag atttgccctg ccatttttga cagctattg       119





<210>  2156

<211>  134

<212>  DNA

<213>  Medicago truncatula



<400>  2156

tccaagttgc agttgaatta cagggtgagt tctccattgg caggtagcta gccactatat       60



gatatgcatt gcaatcatca cttagtgtgt aatctgccaa aggagatttg cccagcgatt      120



ctcatgcaac tcta                                                        134





<210>  2157

<211>  104

<212>  DNA

<213>  Medicago truncatula



<400>  2157

ttacagggtg agttctccat tggcaggtag ctagtcacta tatgatatgc attgcaattc       60



atctcttagt gtgcaatctg ccaaaggaga tttgcccagc gatt                       104





<210>  2158

<211>  104

<212>  DNA

<213>  Medicago truncatula



<400>  2158

ttacagggca tgttctcctt tggcaggtag ccatatgcta tgatatgcat tgcaaccata       60



ctctttgagt gtgtaacctg ccaaaggaga tttgcccagc aatt                       104





<210>  2159

<211>  90

<212>  DNA

<213>  Medicago truncatula



<400>  2159

aatgatagag caaatctcta ttggcagaac gaagtagaaa gcttggacat gcatgcttct       60



ggtttgccaa aggagatttg ccctgccatt                                        90





<210>  2160

<211>  90

<212>  DNA

<213>  Medicago truncatula



<400>  2160

aatgatagag caaatctcta ttagcagaac gaagtagaaa gcttggacat gcatgcttct       60



ggtttgccaa aggagatttg ccctgccatt                                        90





<210>  2161

<211>  118

<212>  DNA

<213>  Oryza sativa



<400>  2161

acatgcatta ccgggtgagt cttccttggc agtgttcgaa tcggcagtac cggtctgcaa       60



gtgatcggtc aatcaccagt tcaccgctgc caaaggagat ttgcccagca atgcaact        118





<210>  2162

<211>  117

<212>  DNA

<213>  Oryza sativa



<400>  2162

tggtggatta ccgggccatg tctccttggg cagaggtgat cagattgcac acttcacttc       60



aacctcttgc tctagcttgt tctctctgcc aaaggagatt tgcccagcaa tccacat         117





<210>  2163

<211>  119

<212>  DNA

<213>  Oryza sativa



<400>  2163

atgtgcattg cagggcaact actccattgg cagagggatg gattggatat ggatatggct       60



gatgcttcca tttgatccca tccctatctg ccaaaggaga tttgcccagc gattcactc       119





<210>  2164

<211>  120

<212>  DNA

<213>  Populus trichocarpa



<400>  2164

gcaataatta ccgggcaatt actcctttgg cagctggcca ctcaacggcg gcaggtgatc       60



aaattcacca atgcaaacaa gtaagctcgc tgccaaagga gatttgcccc gcaattcatc      120





<210>  2165

<211>  112

<212>  DNA

<213>  Populus trichocarpa



<400>  2165

tgcattacag ggcaagacct ccattggcag gcagccacta aagcatgcat ttaaattatg       60



cgttctttta agtgtgccct ctgccaaagg agatttgtcc ggcaaatctt ct              112





<210>  2166

<211>  108

<212>  DNA

<213>  Ricinus communis



<400>  2166

ttacagggca aatatctcca ttggcaggta gccactttag acatgcattt aaattttgag       60



cattatttaa cagtgtgcct tctgccaaag gagatttgcc cagcaatt                   108





<210>  2167

<211>  126

<212>  DNA

<213>  Sorghum bicolor



<400>  2167

acatgcgggg ccatgcatta ccgggtgggt ctcctctggc agtaacttgg ctggtcgcct       60



ggtccatgat acctgcgtgc agacactgcc aaaggagatt tgcccagcaa tgcagttttg      120



agtccc                                                                 126





<210>  2168

<211>  120

<212>  DNA

<213>  Sorghum bicolor



<400>  2168

catatgcgag tcgaggatta ccgggccatt tctccttggg cagagtaatt gaattttact       60



ttgctggatc cggtttgctc tgccaaagga gatttgccca gcaatccaca tttgtaatat      120





<210>  2169

<211>  117

<212>  DNA

<213>  Theobroma cacao



<400>  2169

aaagatgcat ggatgcatta cagggcaaat ctcctttgga agtcagctga actcgaggca       60



tgggagataa gctcactgcc aaaggagatt tgccccgcaa ttcagccatg ctaaacc         117





<210>  2170

<211>  154

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2170

catgtaagct cacaagtttt agggcgcctc tccattggca ggtcctttat ttccaaatat       60



acacatacat atatgaatat agaaaatttc gatttatata tgacctgcca aaggagagtt      120



gccctgaaac tggttcagct taattaaaca catg                                  154





<210>  2171

<211>  125

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2171

taagcggagc agtaataggg catctttcta ttggcaggag actcggctat ttgtatcttt       60



tgtgttcttg gctattggct atgtcacttg ccaaaggaga gttgccctgt cactacttcc      120



gctta                                                                  125





<210>  2172

<211>  191

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2172

agtgagagag gaaaacagag attatgtttt ggtagaaagc attacagggc gaatcctcta       60



ttggcagggg aagttgatga gtgttgatca ctcttatatt ttctcatcat tttcctctgc      120



caaaggagat ttgcctcgca atgcttccct accgttatgg cgttattcat ttctccaatg      180



tccaatctac t                                                           191





<210>  2173

<211>  135

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2173

tcactagttt tagggcgcct ctccattggc aggtccttta cttccaaata tacacataca       60



tatatgaata tcgaaaattt ccgatgatcg atttataaat gacctgccaa aggagagttg      120



ccctgaaact ggttc                                                       135





<210>  2174

<211>  114

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2174

ggagcagtaa tagggcatct ttctattggc aggcgacttg gctatttgta tcttttgtgt       60



tcttgactat tggctatgtc acttgccaaa ggagagttgc cctgtcactg cttc            114





<210>  2175

<211>  109

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2175

gaaagcatta cagggcgaat cctctattgg cagtggaagt tgatgaccct tatatgttat       60



tttctcatca ttttcctctg ccaaaggaga tttgcctcgc aatgcttca                  109





<210>  2176

<211>  160

<212>  DNA

<213>  Brachypodium distachyon



<400>  2176

cgtgttattg agatgagggt gagaattaca gtgcggttct cctctggcac ggaggtcgag       60



ggtagccggc ggcaatccgg ccagcggcga ggctgccagt ccgtcccctt gccaaaggag      120



aattgccctg ccattcataa ccctcctggg tttatacata                            160





<210>  2177

<211>  149

<212>  DNA

<213>  Citrus sinensis



<400>  2177

tcaatacaaa gtgacaatgt ggttgaggaa taacagtgca gtcctccttt ggcgtgcaga       60



ttgcaaagag ataatgcata ttatttcatt catttgcatc cttctgtttg ccaaaggaga      120



attgccctgc cattcactct cgcagctag                                        149





<210>  2178

<211>  130

<212>  DNA

<213>  Citrus sinensis



<400>  2178

aaagcagttt tagggcacct cttacttggc atgcaatggt gatttattgg tgcaataatc       60



agcattatat tggttaattc gatatcaatc ccactgatat gccaaaggag agttgccctg      120



tgactgcttc                                                             130





<210>  2179

<211>  154

<212>  DNA

<213>  Citrus sinensis



<400>  2179

atttgcatcc ttctgtttgc caaaggagaa ttgccctgcc attcactctc gcagctagtt       60



gtaattgttg caagattcca gcagcctcat tcaatttgtt tgccaaatta atgtaacaaa      120



cgatttcatc atttaccatt ctgagttcaa tatg                                  154





<210>  2180

<211>  94

<212>  DNA

<213>  Medicago truncatula



<400>  2180

aatgataggg gaaatctctt ttggcagaga ggagtagcta gagagcttga acatgcttgc       60



ttctagtttg ccaaagaaga tttgccctgc catt                                   94





<210>  2181

<211>  79

<212>  DNA

<213>  Medicago truncatula



<400>  2181

aacaataggg cacctctctc ctggcaagta aaaagggctc agtgccaata acttgccaaa       60



ggagagttgc cctgtggct                                                    79





<210>  2182

<211>  79

<212>  DNA

<213>  Medicago truncatula



<400>  2182

aacaataggg cacctctctc ctggcaagta aaaagggctc agtgccaata acttgccaaa       60



ggagagttgc cctgtggct                                                    79





<210>  2183

<211>  149

<212>  DNA

<213>  Oryza sativa



<400>  2183

ctgtgaatta cagggcagtt cacctttggc acaagggcaa gcagtagaaa ccatgcgtgc       60



ttgctagagc tggaaatgat gctggtagca ttgcatggtt cagggatcac agatctcgtg      120



ccaaaggaga attgccctgc gattttgtc                                        149





<210>  2184

<211>  97

<212>  DNA

<213>  Oryza sativa



<400>  2184

gtgagaatca cagtgcgatt ctcctctggc atggcatgag aggcctaaaa aagagacgca       60



ctgccgtgcc aaaggagaat tgccctgcca ttcagaa                                97





<210>  2185

<211>  110

<212>  DNA

<213>  Oryza sativa



<400>  2185

cggcgaatta cagggcggtt tctcctttgg cacgtacgga ggcaaggcat gcggtgaaaa       60



atctctagct agccatgcgt gccaaaggag aattgccctg cgattcacca                 110





<210>  2186

<211>  286

<212>  DNA

<213>  Oryza sativa



<400>  2186

aagacagtag taggcagctc tcctctggca ggtgcattct aggtgatttt gtaattgtat       60



atgcatccaa ggtatataca gtccggccat ggtgctacat tgcaatcatc catatgtgat      120



tgcattgtgt atatatatac atggtggcct ttgatagacc atcatatatc ggttggttat      180



gtgcatgtat gtatatacca gctgctacta gctttgatcg atcgccatgt agcgattgaa      240



ttcaccaaaa cggcctgcca aaggagagtt gccctgcgac tgtctt                     286





<210>  2187

<211>  99

<212>  DNA

<213>  Oryza sativa



<400>  2187

ccatgcatta ctgggcaggt ctcccttggc agtggccgat cgagctgatc aaaccacgca       60



aaagccactg ccaaaggaga cttgcccagc aatgcagat                              99





<210>  2188

<211>  106

<212>  DNA

<213>  Oryza sativa



<400>  2188

agctgcattg ctgggcaagt tgtcctttgg cagatgttgc agttcatcat cgatgcctgg       60



gggttaccag actactgcca aaggaaattt gccccggaat tcatct                     106





<210>  2189

<211>  114

<212>  DNA

<213>  Populus trichocarpa



<400>  2189

ggatgcatta ctgggcaatt cttctgttgg cagctggtga ctcatactgc actagctgag       60



attaagcagc aagagtttgc tcactgccaa agaagatttg ccccgcaatt cctt            114





<210>  2190

<211>  114

<212>  DNA

<213>  Populus trichocarpa



<400>  2190

ggatgcatta ctgggcaatt cttctgttgg cagttggtga ctcatactgc actagctgag       60



attaagcagc aagagtttgc tcactgccaa agaagatttg ccccgcaatt catt            114





<210>  2191

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2191

taaagaataa cagggcttta tcctcctttg gcaaacagaa catggaaata aatgcctgca       60



tatttctgtt ttgccaaagg agaattgccc tgccattcga t                          101





<210>  2192

<211>  94

<212>  DNA

<213>  Populus trichocarpa



<400>  2192

tgatgaataa ctgtgcaatt ctcctttggc agacgtatat ggcgttcgga caccaacttt       60



ggactgccaa aggagaattg ccctgccatt caac                                   94





<210>  2193

<211>  223

<212>  DNA

<213>  Phaseolus vulgaris



<400>  2193

tgcacaagat attatagtca ataagcaaac cagttatagg gcttctcttt gttggcagga       60



aatgacatga ccacttcatg aaatatcttg ccaaaggaga gttgccctgt tgctgcttta      120



gcttaatatg taatcttcta tgctattcag tgcatatgat cattcactcc attgaagaga      180



agcactgaag tagtatgcaa gggatcaaac aaatgacttc atc                        223





<210>  2194

<211>  93

<212>  DNA

<213>  Ricinus communis



<400>  2194

ttgtagggca cctcttgctt ggcaggtaaa ggggacacta gctagcataa catcccaata       60



acttgcttgc caaaggagag ttgccctgtg act                                    93





<210>  2195

<211>  136

<212>  DNA

<213>  Sorghum bicolor



<400>  2195

tgccggcgcc ggcgaattac ggggcagttc gtctttggca caaaggcacg tccagaacta       60



ctcgatgagg gtcacttgag ctgaactgaa catgcgtgcc aaaggagaat tgccctgcga      120



ttcgcccgtg cagaag                                                      136





<210>  2196

<211>  130

<212>  DNA

<213>  Sorghum bicolor



<400>  2196

catatgctga gcatgaatta cagggtacat ctcctttggc acagatgcat gcagcagaat       60



gcatatatgc atatgcgaaa ctgtcgagcg tgccaaagga gaattgccct gcgattctag      120



gctctgcaat                                                             130





<210>  2197

<211>  205

<212>  DNA

<213>  Sorghum bicolor



<400>  2197

gtgcaggctg aagacagttg taggcagctc tcctctggca ggcggtcatc gtcgtcgtca       60



tcgacggctg gttctgtgtt catccggatc catcgtgcag ccgtgcatgc atgcagtaat      120



attcggttac atgcatgcat tatgcacgca cgtacgtcgt cgtcctgcca aaggagagtt      180



gccctgcgac tgtctccagc ttcct                                            205





<210>  2198

<211>  125

<212>  DNA

<213>  Sorghum bicolor



<400>  2198

ccagatgtgc acttgcattg ctgggcaact tctcctttgg cagatgcgca atgtgctccg       60



accctggggc ttcttccgcg cctactgcca aaggaaattt gccccggaat tcacctgcac      120



agcca                                                                  125





<210>  2199

<211>  132

<212>  DNA

<213>  Sorghum bicolor



<400>  2199

agtgttcagg gtaagaatca cagtgcggtt ctcctctggc atggaggcca acatagcagg       60



cattggagaa tgcacagcgc tatcgccatc cctgccaaag gagaattgcc ctgccattcg      120



gtataaccct gg                                                          132





<210>  2200

<211>  121

<212>  DNA

<213>  Sorghum bicolor



<400>  2200

atgcctaagc tgtccagttt cagggcttct ctttcttggc agggagcatg agaagccata       60



gctctgctct gttctgccct ctgccaaagg agagttgccc tgtaacagga ctcagcttat      120



g                                                                      121





<210>  2201

<211>  93

<212>  DNA

<213>  Sorghum bicolor



<400>  2201

agtgcggttc tcctctggca tgaacgacgg ctggagcagc ttgccacatg gctcggccac       60



ggcccttgct tgccaaagga gaattgccct gcc                                    93





<210>  2202

<211>  141

<212>  DNA

<213>  Theobroma cacao



<400>  2202

tttcagctgc agttgcatta cagggcaaat cttcactggc aggcagccac tttggcttac       60



catcacctgt catgcttttt ttttttttta ttgtgctctc tgccaatgga gatttgccca      120



gcaattccac tgcaacattg g                                                141





<210>  2203

<211>  111

<212>  DNA

<213>  Theobroma cacao



<400>  2203

tgtggagttg aggaattaca gagcaattct ccttcagcac aaatgcttat gctccttcat       60



agttctattt tgccagagga gatttgccct gccattcact cacacaatga t               111





<210>  2204

<211>  112

<212>  DNA

<213>  Theobroma cacao



<400>  2204

tgtgcagttg acgaataaca gtgcagtcct tctttggcac agagaagaca tggcatacgt       60



gacttctgtt ttgccaaagg agaattgccc tgccattcat tcctgcagtt ac              112





<210>  2205

<211>  157

<212>  DNA

<213>  Theobroma cacao



<400>  2205

gtcaataagc aaaccagtca aagggcacct ctccattggc aggtaatatt gtgattactg       60



ctgtaattaa ttatgcaaag tgggactccc cggccctgca cttcatttca cagacttgcc      120



aaaggagagt tgccctgtga cagattcagc ttaatgc                               157





<210>  2206

<211>  97

<212>  DNA

<213>  Vitis vinifera



<400>  2206

gagaataaca gtgtgattct cctttggcag agatatcacg catggagtag aaggcggtag       60



ctgctctgcc aaaggagaat tgccctgtta ttcaatt                                97





<210>  2207

<211>  117

<212>  DNA

<213>  Vitis vinifera



<400>  2207

atcaatcata gggcacctct ttcttggcag gcactggctc ctatatatga atatacatag       60



cttagctgca gtaaaaagat gtgacttgcc aaaggagagt tgccctgtga ctgcttc         117





<210>  2208

<211>  82

<212>  DNA

<213>  Vitis vinifera



<400>  2208

accggtctca gggcctcttt cacttggtag gtgacataga tgtgaatgat ctgccaaagg       60



agagttgccc tgtgtctggt ta                                                82





<210>  2209

<211>  105

<212>  DNA

<213>  Vitis vinifera



<400>  2209

gtaaattata gagcagattt cttttggcag atggcgatca caagccaatg tgctcaaagg       60



gcattgagtg tgtctgccaa aggagatttg ctcgtgaatt taact                      105





<210>  2210

<211>  113

<212>  DNA

<213>  Vitis vinifera



<400>  2210

atgaattgct gggcaatact ccattggcag ttggccactc ggctgaccgc ggttgacttc       60



acaagtagca gactaagctc actgccaaag gagatttgcc cctcaattca gct             113





<210>  2211

<211>  90

<212>  DNA

<213>  Vitis vinifera



<400>  2211

aggaataaca gtgcaatcct cctttggcag aaagatcatg cacatgcata cttctgtttt       60



gccaaaggag aattgccctg ccattcgctc                                        90





<210>  2212

<211>  123

<212>  DNA

<213>  Zea mays



<400>  2212

tgtgaagagg gtgagaatca cagtgcggtt ctcctctggc acgaaggctg gccagagcag       60



cttatattgc caccaccctt ccttgccaaa ggagaattgc cctgccattc acaaccctgc      120



aat                                                                    123





<210>  2213

<211>  207

<212>  DNA

<213>  Zea mays



<400>  2213

tgcttgctga gcatgaatta cagggtacgt ctcctttggc acagcagaat gcacacatca       60



tcagtcgaga gagtaagctc gctgcgtgct cgccggcctg ggagcggaag tcgcaggcca      120



aatggcggcg gtgcagatgc atgaacagca gctgccgtat atatgcgtgc caaaggagaa      180



ttgccctgcg attctaggct cagcgat                                          207





<210>  2214

<211>  124

<212>  DNA

<213>  Zea mays



<400>  2214

atgcctaagc tgtccagttt cagggcttct ctttcttggc agggaagcat gagatgccat       60



agctctctgc tctcttcaac cctctgccaa aggagagttg ccctgtaaca ggactcagct      120



tatg                                                                   124





<210>  2215

<211>  105

<212>  DNA

<213>  Zea mays



<400>  2215

caggatgtgc acctgcattt ctgggcaact tctcctttgg cagatgcgcg agaatgtgcc       60



actgctgcca aaggaaattt gccccggaat tcatctgcac aagca                      105





<210>  2216

<211>  94

<212>  DNA

<213>  Zea mays



<400>  2216

agtgcagttc tcctctggca cgaaccaagg ctgagcagct tgccccatgg ctagcccacg       60



acggcccttc cttgccaaag gagaattgcc ctgc                                   94





<210>  2217

<211>  91

<212>  DNA

<213>  Zea mays



<400>  2217

agtgcggctc tcctctggca tgagggcgcg actgagaggc acgaacagtt tctggccttc       60



tcctgccaat gccaaaggag agttgccctg c                                      91





<210>  2218

<211>  175

<212>  DNA

<213>  Zea mays



<400>  2218

aggcagctct cctctggcag gcaggcgcgc ggtcatcgtc gccatcgacg acggttgctt       60



ggctctgcta tgctgtgttc gttcgtccat ggtgtgctag ctagccgtgc atgcattgca      120



gtgtaacatg cgtgcatgca cgcgcgtacg tcctgccaaa ggagagttgc cctgc           175





<210>  2219

<211>  98

<212>  DNA

<213>  Aquilegia caerulea



<400>  2219

gtcgtagggc ttctccctgt tggcagatga taatggctta gttctttcct gatcgagtgc       60



ctttaattat ctgccaaagg agagttgccc tatgacta                               98





<210>  2220

<211>  100

<212>  DNA

<213>  Brachypodium distachyon



<400>  2220

cagtgcagtt ctcctctggc atggatgcta atgtagcagg ccctgcacaa tggactatgc       60



tatcactgtc cctgccaaag gagaattacc ctgccagtgc                            100





<210>  2221

<211>  168

<212>  DNA

<213>  Citrus sinensis



<400>  2221

gaagcagtaa gcgatttagt tgtagggctt ctctcctttg gcaggtgatg gccaagggca       60



aagatcatat aatatatatt tatatggtgc ctattctaat tattgttcta ttttttcaat      120



gacctgccaa aggagagttg ccctataact gcttcagctt ttaaataa                   168





<210>  2222

<211>  124

<212>  DNA

<213>  Gossypium hirsutum



<400>  2222

tgagatatta cagggcaaaa tcttcagtgg caggcagtat atggctccat tcatcaggca       60



tcagctgtat ggaaaattgc agtgtgttct ccgccaatgg agatttgtcc ggtaattccg      120



gttc                                                                   124





<210>  2223

<211>  128

<212>  DNA

<213>  Gossypium hirsutum



<400>  2223

tgagatatta cagggcaaaa tcttcagtgg caggcagcca ttgtatatgg ctccgttcat       60



caggcatcag ctgtatggaa aattgcagtg tgttctccgc caatggagat ttgtccggta      120



attccggt                                                               128





<210>  2224

<211>  112

<212>  DNA

<213>  Medicago truncatula



<400>  2224

tcatagggca tgtctctatt ggtaggtgat atggtgatat ttcatttgaa ttagaggctt       60



cagaaattca cttgccaaag gagagctgcc ctgtgagtgt ttagcttaaa ca              112





<210>  2225

<211>  91

<212>  DNA

<213>  Medicago truncatula



<400>  2225

ttactgggca atgacttctt tggcagtagt tgacttgatc attcagatga tgcaaacaaa       60



ctcaccgcca aagaagattt gccccgcaat t                                      91





<210>  2226

<211>  92

<212>  DNA

<213>  Medicago truncatula



<400>  2226

agtcataggg catgtctcta ttggcaggtg atatttcatt tgacttagag gctctagaaa       60



ttcacttgcc aaaggagagc tgccctgcga gt                                     92





<210>  2227

<211>  116

<212>  DNA

<213>  Oryza sativa



<400>  2227

gtgagaatca cagtgcagtt ctcctctggc atggagggca agaggagctg aatagctaat       60



ggatgataaa ctgctagcct ttccctgcca aaggagagct gccctgccat tcagtg          116





<210>  2228

<211>  106

<212>  DNA

<213>  Oryza sativa



<400>  2228

agtccagttt cagggctcct ctctcttggc agggagcatg tgaagtcttt tgtagctcac       60



tcattttcag ccctctgcca aaggagagtt gccctaaaac tggact                     106





<210>  2229

<211>  132

<212>  DNA

<213>  Populus trichocarpa



<400>  2229

aaaccagttg cagggcacct ctcttccttg gcagacagta ctaatggtgc ctatagcttc       60



aagctgagag ggtatgcgag aatcttgatc ccaatatagg cttgccaaag gagagtttcc      120



ctgtgaccgt tt                                                          132





<210>  2230

<211>  108

<212>  DNA

<213>  Populus trichocarpa



<400>  2230

aaaccagttg tagggtacct cttacttggc aagcaatggt gattgttgca aacattgcag       60



aatttgatct cggtgtcttg ccaaaggaga gttgccctat gactgttt                   108





<210>  2231

<211>  94

<212>  DNA

<213>  Populus trichocarpa



<400>  2231

ggagcattgc tgagcaaatt tcctttggca gataccataa gtaacaagag cttatgttgt       60



tcatttgcca aaggagattt gctcaccaat tcca                                   94





<210>  2232

<211>  103

<212>  DNA

<213>  Ricinus communis



<400>  2232

tcgtagggca tctctcgctt ggcaggcaat gatatgaagt gaagctaaat tttagcatta       60



gtttgatccc aatggcttgc caaaggagag ctgccctgtg act                        103





<210>  2233

<211>  87

<212>  DNA

<213>  Ricinus communis



<400>  2233

ttactgagca agtcttcttt gacagacttc caccaagcga catatggaaa cgtggattat       60



ctgccaaagg agatttgctc actaact                                           87





<210>  2234

<211>  121

<212>  DNA

<213>  Sorghum bicolor



<400>  2234

tagctcaggg tgagaatcac agtgcagctc tcctctggca tgaaggctga gagagtcatg       60



agcagttttc tggcctttcc ctgccaaagg agagctgccc tgccattcat tagccctgca      120



a                                                                      121





<210>  2235

<211>  71

<212>  DNA

<213>  Solanum lycopersicum



<400>  2235

tagggctaca ctctattggc atgcaacttg atcaaatatt tgagctgaaa tgccaaagga       60



gagttgccct a                                                            71





<210>  2236

<211>  126

<212>  DNA

<213>  Triticum aestivum



<400>  2236

tcgtgtgtga atcacagggc gcttctccct tggcacggtg gcatgcatgt acatatgatg       60



gtggtagcct ggtgagcgtg cggtgcagct tgctagcaag ccgtgcgtgc caaaggagaa      120



ttgccc                                                                 126





<210>  2237

<211>  136

<212>  DNA

<213>  Theobroma cacao



<400>  2237

atcactaagt gatctagttg tagggcttct ctcctttggc aggttatgtt catcgaaaat       60



aaatcaagat ctaattcttc tattcaacaa taactcgcca aaggagagtt gccctgtaac      120



tgattcgact taataa                                                      136





<210>  2238

<211>  117

<212>  DNA

<213>  Theobroma cacao



<400>  2238

aagggtagag aagaataaca gcgcaattct cctttggcag aaaatgttgc acttgtagaa       60



aaagtgctat attatccgcc aaaggagaat tgccctgcca ttcaactact ctacatc         117





<210>  2239

<211>  107

<212>  DNA

<213>  Vitis vinifera



<400>  2239

gttgcattag agggccaaat ctgctttggc atgaagccca tttagcaggc tcgtctgtgt       60



ctgcagtctt ctcgctgccg aaggagattt gtcctgcaat tcttctg                    107





<210>  2240

<211>  122

<212>  DNA

<213>  Vitis vinifera



<400>  2240

agtagttgta gggcttctct ccttctggca ggagatggca atagattatc ctttgtggct       60



tatctccggt gttgattaac ttccaatgac ccgccaaagg agagttgccc tgtgactact      120



tc                                                                     122





<210>  2241

<211>  125

<212>  DNA

<213>  Zea mays



<400>  2241

tcaaggtgag aatcacagtg tggctctcct ctggcatgaa ggcgcggctg agaggcacga       60



acagtttctg gccttcccct gccaatgcca aaggagagct gccctgccat tcgttagccc      120



tgcaa                                                                  125





<210>  2242

<211>  74

<212>  DNA

<213>  Gossypium hirsutum



<400>  2242

agggcttctc tgcattggca ggtagatgat aactccacat catgtagtta acctgccaaa       60



ggagagttgg cctt                                                         74





<210>  2243

<211>  129

<212>  DNA

<213>  Medicago truncatula



<400>  2243

taaagtaagc aaatcagtca tagggcatgt ctctattggc aggtgatatg gtgatatttc       60



atttgacttt aaggctctaa aaattcactt gccaaaggag agctgcccta cgagtgttta      120



gcttaaaca                                                              129





<210>  2244

<211>  85

<212>  DNA

<213>  Medicago truncatula



<400>  2244

agtcataggg catgtctcta ttggcaggtg atatagtgat atggctctag aaattcactt       60



gccaaaggag agctgcccta tgaat                                             85





<210>  2245

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  2245

agtcataggg catgtctcta ttggcaggtg atatggtgat atttcatttg actttaaggc       60



tctagaaatt cacttgccaa aggagagctg ccctacgagt                            100





<210>  2246

<211>  109

<212>  DNA

<213>  Populus trichocarpa



<400>  2246

aactagttaa atggcttctc ttctttggca ggtgatggta tagattacaa cttatagctt       60



taatctagta ttcagttacc cgccaaagga gagttgccct ctaacttcc                  109





<210>  2247

<211>  122

<212>  DNA

<213>  Zea mays



<400>  2247

gtagctcagg gtgcgaatca cagtgcagct ctcctctggc atgaaggctg tgagagaggc       60



atgacaattt ctggccttgc cctgccaaag gagagctgtc ctgccattca ttagccctgc      120



aa                                                                     122





<210>  2248

<211>  174

<212>  DNA

<213>  Medicago truncatula



<400>  2248

gtaagcaaat cattcaaagg gcatatctcc tttggcaggt ataatgggtg gttgctagtt       60



tattttacat ctatattaaa attttatgtg tttatttatc aaataaaaaa taaaaaaaac      120



tatcatggta aacaacttgc caaaggagag ctgctctttg agtgtttagc ttag            174





<210>  2249

<211>  160

<212>  DNA

<213>  Brachypodium distachyon



<400>  2249

tttggggttg ggattggggg ctggagcagc agcggtggaa ggggcatgca gaggagcagg       60



gatgatgggg ggttgtactc tgcttcttcc cctctcgttc tcctgtgcct gcctcttcca      120



ttcctgctgc taccgccgtg ctcggtgggc agggctgggc                            160





<210>  2250

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2250

agtggaaggg gcatgcagag gagcaggaga ttcagtttga agctggactt cacttttgcc       60



tctctctcct gtgcttgcct cttccatt                                          88





<210>  2251

<211>  84

<212>  DNA

<213>  Sorghum bicolor



<400>  2251

tggaaggggc atgcagagga gcacgaggct tggctggaag ccgacctacg cctcgctggc       60



tctcctgtgc ctgcctcttc catt                                              84





<210>  2252

<211>  92

<212>  DNA

<213>  Saccharum ssp.



<400>  2252

tggaaggggc atgcagagga gcacgaggct tggctaaaag ccgacctgtg ctatgctacc       60



cctcgctggc tctcctgtgc ctgcctcttc ca                                     92





<210>  2253

<211>  123

<212>  DNA

<213>  Zea mays



<400>  2253

gtggaagggg catgcagagg aggagcacga gcgaggtgtg gctggaagaa gcagccgggg       60



cctgtgtgct atatacccct cgcaagctct cctcactcct ctcctgtgcc tgcctcttcc      120



att                                                                    123





<210>  2254

<211>  78

<212>  DNA

<213>  Zea mays



<400>  2254

gtggaagggg catgcagagg agcacgaacg aggtgtggtt ggcccctcgt tagctctcct       60



gtgcctgcct cttccatt                                                     78





<210>  2255

<211>  136

<212>  DNA

<213>  Physcomitrella patens



<400>  2255

ctagcttctc cacaatttct caccctcgtt gggatcagaa gagagagagc acagcccgat       60



gtccaatgtt caggtcgaat gggctgtgct ctctctcttc ttgctccaac ttgggtgcta      120



cacgcatcta gggtac                                                      136





<210>  2256

<211>  149

<212>  DNA

<213>  Physcomitrella patens



<400>  2256

ctcccctttt ctacattcaa gccgggtttc gaagagagag agcacagccc tggacttttc       60



tcatgtgacc gattttagcg gtacatggtg cactgtcatc gggctgttct ctctctcttc      120



tagaccctac ttggatgtgt ttctactgc                                        149





<210>  2257

<211>  149

<212>  DNA

<213>  Physcomitrella patens



<400>  2257

ttcagccgta ctacacccaa gccgggattc gaagagagag agcacagccc gtaactttca       60



ctaaagacca cttattgtgg ttcattggag atttgatgtc gggctgtgct ctctcttttc      120



cagtccctac tcggatgtgt cgccatcac                                        149





<210>  2258

<211>  151

<212>  DNA

<213>  Physcomitrella patens



<400>  2258

ttcagcttta ctacatccaa gccaggattc gaagagagag agcacagccc cgttactttt       60



gctgaaagaa tacttcctgt gatccattgg gaatttgatg ttgggctgtg ctctctcttt      120



tccagtccct acctggatgt gctgccattg c                                     151





<210>  2259

<211>  122

<212>  DNA

<213>  Physcomitrella patens



<400>  2259

tcagcaattt actcactcat gctgggatca gaagagagag agtacagccc aagagcaacc       60



gcttagttgg aatgggctgt gctctctctc ttctggttcc aacctgagtg catgtcggtt      120



gt                                                                     122





<210>  2260

<211>  122

<212>  DNA

<213>  Physcomitrella patens



<400>  2260

tgcacaattt tctcactcat gctgggatca gaagagagag agtacagccc aacggccgat       60



gttcagttgg aacgggctgt gctctctctc ttcttgttcc aacctgggtg catttccgtt      120



ct                                                                     122





<210>  2261

<211>  107

<212>  DNA

<213>  Brachypodium distachyon



<400>  2261

cgtcaaggtt aaagggagaa gagagagagt acagccttaa ttaagctcga tcgatctgtc       60



ttgtatcaag gctgtaccct ctctcttctt ctcttagctt cttgatg                    107





<210>  2262

<211>  120

<212>  DNA

<213>  Festuca arundinacea



<400>  2262

tggtcgtggc tggcaccgtg ggtggtggta tcccatggct gagtacttga cagaagagag       60



agagcacagc ttgagtcggc ggcgacccct gtgagacacc cgcctggagg gagctctgga      120





<210>  2263

<211>  149

<212>  DNA

<213>  Physcomitrella patens



<400>  2263

tcaccttttt ctacattcaa gctggggttc gaagagagag agcacagtcc cagacttttc       60



actcacgacc actttgagtg tcttatggtg aacagtagtc gggctgtact ctctcttttc      120



cagtccctac tcgaatgtgt ttctatcgc                                        149





<210>  2264

<211>  126

<212>  DNA

<213>  Zea mays



<400>  2264

gagaagagag agagtacagc cttgttgcca tgtacacact cagatatcaa cagtctctta       60



tatttgctgt tactacctgt tattagtgtc cagtgatgat gaaggctgta ccctctctct      120



tcttct                                                                 126





<210>  2265

<211>  138

<212>  DNA

<213>  Oryza sativa



<400>  2265

atcgtgaagg ctaaatggag aagagagaga gtacagcttt gggcggttta gttgttagat       60



ggtggaagta cttgcgacgc ctactaccct tttcaccaag gctgtacgct ccctcttctt      120



ctcttagctt tttatgat                                                    138





<210>  2266

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2266

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2267

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2267

agttctatgc aagcacttca cgaggcattg tttcaagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2268

<211>  70

<212>  DNA

<213>  Zea mays



<400>  2268

agttacctac aagcacgtct cgataccttg gcttaataaa ggccagttgt gaagtgtttg       60



ggggaactct                                                              70





<210>  2269

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2269

gagtccctag gagttccttt caagcacttt acgacacact gtattgagag ttgtcgtgaa       60



gtgtttgggg gaactcttag tgtcgc                                            86





<210>  2270

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2270

gtattgtcgt gagttccctt caagcacttc acgtggcact atctcaatgc ctactatgtg       60



aagtgtttgg gggaactctc gatatcac                                          88





<210>  2271

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2271

gtattatcga gagttccctt caaccacttc acgtggcact gtttcaaggc ctattgtgtg       60



aagtgtttgg gggaactctc gatatcac                                          88





<210>  2272

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2272

gtatcaccgt gagttccctt cgaacacttc acgtggcact atttcaatgc ctattgtgaa       60



gtgtttgggg gaactctcga tgtcat                                            86





<210>  2273

<211>  112

<212>  DNA

<213>  Oryza sativa



<400>  2273

ttgttacctg gagtttcctc aacacacttc acatctgcta ggccctatta caattgcgca       60



atgtggagtc tgcaattggt agtgaagtgt ttgggggaac tctaggtggc ac              112





<210>  2274

<211>  99

<212>  DNA

<213>  Oryza sativa



<400>  2274

gttttaccgg gagttctctt caagcacttc acgtagagct ttctattgac atggagcttt       60



agaacaatgt gaagtgtttg ggggaactct tggtaccaa                              99





<210>  2275

<211>  112

<212>  DNA

<213>  Oryza sativa



<400>  2275

gtgttcccaa gagttccttg caagcacttc acatagaact tctgttactc tcatgtaaca       60



ttgggaactt gagaagctac tgtgaagtgt ttgggggaac tctaggtggc ac              112





<210>  2276

<211>  99

<212>  DNA

<213>  Oryza sativa



<400>  2276

gttttatcgg gagtttcctt caagcacttc acgtagagct ttctattgat atggagcttt       60



ggaacaatgt gaagtgtttg ggggaactct tgataccaa                              99





<210>  2277

<211>  94

<212>  DNA

<213>  Oryza sativa



<400>  2277

gcgttccttc caagcacttc acacagagct tttatttctc tcacatcgat tgagaactta       60



attagaagct tttgtgaagt gtttggggga actc                                   94





<210>  2278

<211>  66

<212>  DNA

<213>  Oryza sativa



<400>  2278

gagttccctt caagcacttc acgacgcact atttagagag ttgttgtgaa gtgtttgggg       60



gaactc                                                                  66





<210>  2279

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2279

gagttccctt caagcacttc acgtggcact atttcaatgc gtaccgtgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2280

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2280

gagttccctt caagcacttc acatgacact atttcaatgt ctattatgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2281

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2281

gagttccctt caaccacttc acgtggcact attttaggac ctactatgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2282

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2282

gtatcaccgt gagttccctt caagcacttc acgtggcact atttcaatgc ctattgtgaa       60



gtgtttgggg gaactctcga tgttcc                                            86





<210>  2283

<211>  110

<212>  DNA

<213>  Oryza sativa



<400>  2283

tggccccagg agttccttgc aagcacttca catagaactt cagttactct catacaacat       60



tgtgattttg agaagctatt gtgaagtgtt tgggggaact ctcggtgcca                 110





<210>  2284

<211>  150

<212>  DNA

<213>  Sorghum bicolor



<400>  2284

ggttggttgg ttgtcacctg gagttctcca caaactactt cagtagcaac acacacccct       60



agtttaatgc accgtgtttg catgtttgtg tggagctgtg tgtgtacata gtgaagtgtt      120



tgggggaact ctgggtggca atcagcaatt                                       150





<210>  2285

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  2285

gttaggtttg gtgtccctag gagttctctg caagcacttc acgaggcatc gttttgagag       60



cttttgtgaa gtgtttgggg gaactcttag tgtcacaaat cattt                      105





<210>  2286

<211>  73

<212>  DNA

<213>  Sorghum bicolor



<400>  2286

gagttcccta caagcacttc acgagacctt ggcttaataa agggttgttt gtgaagtgtt       60



tgggggaact ctt                                                          73





<210>  2287

<211>  103

<212>  DNA

<213>  Sorghum bicolor



<400>  2287

tcaagtttgg tgtccccagg agttctctgc aaacacttca caaagcactt ttttagagct       60



tttgtgaagt gtttggggga actcttggtg ccactgatca ttt                        103





<210>  2288

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  2288

attaggtttg gtgtccccgg gagttctctg caagcacttc acgaggcact attttgagag       60



cttttgtgaa gtgtttgggg gaactcttga tgccactaac cattt                      105





<210>  2289

<211>  68

<212>  DNA

<213>  Sorghum bicolor



<400>  2289

gttccctaaa agcacttcac gagaccttgg cttaataaag ggcccttgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2290

<211>  81

<212>  DNA

<213>  Sorghum bicolor



<400>  2290

gttcccttca agcacttcac atgaggcacc attcaaactc tgtttaagat taggtgtaat       60



gtgaagtgtt tgggggaact c                                                 81





<210>  2291

<211>  97

<212>  DNA

<213>  Sorghum bicolor



<400>  2291

gttccctgca aacacttcac aagctagacc atatatagta tgcccttgca caatgtggta       60



tccagttacc tagctagtga agtgtttggg ggaactc                                97





<210>  2292

<211>  87

<212>  DNA

<213>  Sorghum bicolor



<400>  2292

gttcccttca agcacttcac atgaagctct ttgcattata ttggcggatg tagcattgag       60



accaatgtga agtgtttggg ggaactc                                           87





<210>  2293

<211>  77

<212>  DNA

<213>  Triticum aestivum



<400>  2293

cttacagtgg gttccttgca agcacttcat gaggcattat taaaaatgcc actgtgaagt       60



gtttggggga actcttg                                                      77





<210>  2294

<211>  149

<212>  DNA

<213>  Zea mays



<400>  2294

tattggttgg ttgtcacctg gagttctcct caaaccactt cagttgctgc acctagctag       60



tttaatggca ctgtgcttgc gtgcaagcgg ccggagctgt gtgtagctag tgaagtgttt      120



gggggaactc tgggtgtcaa tcagcaatt                                        149





<210>  2295

<211>  114

<212>  DNA

<213>  Zea mays



<400>  2295

gcaacgtttt gtgttactag gagttcccta caagcacttc acaatacctt ggctcaataa       60



attaaaggcc agttgtgaag tgtttggggg aactcttggt atcatgaagc attt            114





<210>  2296

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2296

agttctatgc aagcacttca cgaggcattg tttcaagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2297

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2297

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2298

<211>  70

<212>  DNA

<213>  Zea mays



<400>  2298

agttccctac aagcacttca cgataccttg gcttaataaa ggccagttgt gaagtgtttg       60



ggggaactct                                                              70





<210>  2299

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2299

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2300

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2300

agttctctac aagcacttca cgaggcttcg tactgagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2301

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2301

agttcccttc aagcacttca catgaggcac cattcaaatg acaactccat ttaagattat       60



gtgtaatgtg aagtgtttgg gggaactct                                         89





<210>  2302

<211>  140

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2302

acaaaatata attcgactag atgtcctcta gagttctccc gaacacttca ttggaaattt       60



gttattcggt aaactaccaa ttaattccac tgaagtgttt gggggaactc cggatgtcat      120



ttggtgatgt caagccatgt                                                  140





<210>  2303

<211>  105

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2303

gtcggatgtt tcctagagtt cctctgagca cttcattgga gataccatct tttatcaaat       60



ggttttctac tgaagtgttt gggggaactc ccggactcat tcgat                      105





<210>  2304

<211>  105

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2304

gtcggatgtt ccctagagtt cctctgagca cttcattgga gataccattg tctatgaaat       60



agtattctac tgaagtgttt gggggaactc ctggactcat tcgat                      105





<210>  2305

<211>  93

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2305

atgtctccta gagttcctct gagcacttca ttggggatac aatttttcta aatgattatc       60



cactgaagtg tttgggggaa ctcccggacc cat                                    93





<210>  2306

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2306

atgtcctcta gagttctcct gaacacttca ttggaaattt gttattcagt aagctaacag       60



ttaattccac tgaagtgttt gggggaactc ccgatgtcat                            100





<210>  2307

<211>  95

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2307

atgttttcta gagttcctct gagcacttca ttggagatac aattttttat aaaatagttt       60



tctactgaag tgtttggggg aactcccggg ctgat                                  95





<210>  2308

<211>  181

<212>  DNA

<213>  Brachypodium distachyon



<400>  2308

caggagatga atggttggtt gtcaactgga gttctcctca aatcacttca gtagctagct       60



agctagcttg tgcctcattg tttcattgcc gctgtttata agtgtgcatg gagctggaga      120



gccgtgcaca gtgaagtgtt tgggggaact ccgggtggca accaacaata ctgatatcac      180



c                                                                      181





<210>  2309

<211>  238

<212>  DNA

<213>  Brachypodium distachyon



<400>  2309

acttcacaag aagctattcc tagggctatt gtgaagtgtt tgggggaact cttgatgtca       60



ccaagcttcc atttgtagat gtttctctca agccaaaaga gatacatcag ccggcatcgg      120



accacgtttg gtattaccat gagttccctg caagcacttc acgaggccca attatgatgg      180



ctactgtgaa gtgtttgggg gaactcttgg tgtcaccaag cttacacaaa taaaaaga        238





<210>  2310

<211>  126

<212>  DNA

<213>  Brachypodium distachyon



<400>  2310

ggcggcagac cacgtttggt aataccatga gttccctgca agcacttcat gaggcctaat       60



tctaagggct actgtgaagt gtttggggga actcttggtg ttaccaagct tttacaacaa      120



aaggag                                                                 126





<210>  2311

<211>  150

<212>  DNA

<213>  Brachypodium distachyon



<400>  2311

gttggttgtc acctggagtt ctcctcaaat cacttcagta gctagctagc ttgtgcctcc       60



ttgttgcatt gccactgttt tataagtgtg cttggggcca gagagctgtg cacagtgaag      120



tgtttggggg aactctgggt ggcaaccagc                                       150





<210>  2312

<211>  96

<212>  DNA

<213>  Brachypodium distachyon



<400>  2312

gtttggtgtc cccgggagtt cccttcaaac actttacgaa gcatctttct aagactattt       60



gtgaagtgtt tgggggaact ctcggtgtca ccaagc                                 96





<210>  2313

<211>  89

<212>  DNA

<213>  Brachypodium distachyon



<400>  2313

ggtgttacca ggagtttcct gcaaacactt cacgagtgcc tattttaatg ggttgttgtg       60



aagtgtttgg gggaactctt gatgtcacc                                         89





<210>  2314

<211>  76

<212>  DNA

<213>  Brachypodium distachyon



<400>  2314

accatgagtt ccctgcaagc acttcacgag gccgttttct gagggctact gtgaagtgtt       60



tgggggaact cttggt                                                       76





<210>  2315

<211>  90

<212>  DNA

<213>  Brachypodium distachyon



<400>  2315

tggtattatc atgaattccc tacaagcact tcacaagaag ctattcctag ggctattgtg       60



aagtgtttgg gggaactctt gatgtcacca                                        90





<210>  2316

<211>  88

<212>  DNA

<213>  Brachypodium distachyon



<400>  2316

ggtattctca tgagtttccc gcaagcactt cacgaggccg ttttctgagg gctactgtga       60



agtgtttggg ggaactcttg gtctcacc                                          88





<210>  2317

<211>  86

<212>  DNA

<213>  Brachypodium distachyon



<400>  2317

gtactaccat gagttccctg caagcacttc atgaggccca attctgaggg ctactgtgaa       60



gtgtttgggg gaactcttgg tgttac                                            86





<210>  2318

<211>  96

<212>  DNA

<213>  Brachypodium distachyon



<400>  2318

gtttggtatt atcatgagtt ccctgcaagc acttcacgag gcactatccc aagggctact       60



gtgaagtgtt tgggggaact cttggtgtca ccaagc                                 96





<210>  2319

<211>  95

<212>  DNA

<213>  Brachypodium distachyon



<400>  2319

tggtattacc atgagttcct ttgcaagcat ttcacgtacg aggcactatc ccaagggcta       60



ttgtgaagtg tttgggggaa ctcttggtgt cacca                                  95





<210>  2320

<211>  90

<212>  DNA

<213>  Brachypodium distachyon



<400>  2320

tggtattacc atgagttccc tgcaagcact tcaccatgca ctaccccaag ggctattgtg       60



aagtgtttgg gggaactctt ggtgtcacca                                        90





<210>  2321

<211>  101

<212>  DNA

<213>  Citrus sinensis



<400>  2321

atgtctccgg gagttcctcc gatcacttca ttggggctat atgatcattt agacaaaatt       60



tgtcacccca ctgaagtgtt tgggggaact ctgggtgcca c                          101





<210>  2322

<211>  107

<212>  DNA

<213>  Gossypium hirsutum



<400>  2322

gagttcccct gatcacttca ctggggttat ggggtctgct cttctcttct cagagccttg       60



ttaaaaggga ggtctccgat gacctactga agtgtttggg ggaactc                    107





<210>  2323

<211>  67

<212>  DNA

<213>  Glycine max



<400>  2323

gagttcctct gaacgcttca tgtgattggc tagttatagg cctttgatga agtgtttggg       60



ggaactc                                                                 67





<210>  2324

<211>  135

<212>  DNA

<213>  Medicago truncatula



<400>  2324

tttttgttga ttgtttctta gagttccttt gaacgcttca tgcatgagaa tatgtatttg       60



gtctaatatc cattagaaaa gatagttctt catcaatgaa gtgtttgggg gaactcttgg      120



gttcaaccag cacca                                                       135





<210>  2325

<211>  97

<212>  DNA

<213>  Medicago truncatula



<400>  2325

gagttccttt gaacgcttca tgcatgagaa tatctatttg gtctaatatc cattagaaaa       60



gatagtcttt tcttctatga agtgtttggg ggaactc                                97





<210>  2326

<211>  95

<212>  DNA

<213>  Medicago truncatula



<400>  2326

gagttccttt gaacgcttca tgcatgagaa tatctatttg gtctaaaatc cattagaaaa       60



atagttcttc ttaaatgaag tgtttggggg aactc                                  95





<210>  2327

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  2327

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtttaa aatccattag       60



gatagatagt tcttcttaaa tgaagtgttt gggggaactc                            100





<210>  2328

<211>  98

<212>  DNA

<213>  Medicago truncatula



<400>  2328

gagttccttt gaacgcttca tgcatgagaa atatctcttt ggtttaaaat ccattagaaa       60



agatagtatt ttcttctatg aagtgtttgg gggaactc                               98





<210>  2329

<211>  63

<212>  DNA

<213>  Medicago truncatula



<400>  2329

gagttcctct gaacgcttca tataagaggt tatccatctt cattgaagtg tttgggggaa       60



ctc                                                                     63





<210>  2330

<211>  76

<212>  DNA

<213>  Medicago truncatula



<400>  2330

gagttcctct gaatgcttca atcatgagac aatctatatg aatagttctt gttcaatgaa       60



gtgtttgggg gaactc                                                       76





<210>  2331

<211>  76

<212>  DNA

<213>  Medicago truncatula



<400>  2331

gagttcctct gaatgcttca aacatgagac aatctatatg gatagttctt gttcaatgaa       60



gtgtttgggg gaactc                                                       76





<210>  2332

<211>  98

<212>  DNA

<213>  Medicago truncatula



<400>  2332

gagttccttt gaacgcttca tgcatgagaa atatctcttt ggtttaaaat ccattagaaa       60



agatagtatt ttcttctatg aagtgtttgg gggaactc                               98





<210>  2333

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2333

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa agtccattag       60



aaaagatagc cattttttca atgaagtgtt tgggggaact c                          101





<210>  2334

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  2334

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa aatccattag       60



aaaagatagt tcttcttaaa tgaagtgttt gggggaactc                            100





<210>  2335

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2335

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa agtccattag       60



aaaagatagc cattttttca atgaagtgtt tgggggaact c                          101





<210>  2336

<211>  83

<212>  DNA

<213>  Medicago truncatula



<400>  2336

gagttcctct gaactcttca tctaaagggc tatagcaaga aagaaaggaa aatccttgta       60



tgatgaagtg tttgggggaa ctc                                               83





<210>  2337

<211>  105

<212>  DNA

<213>  Medicago truncatula



<400>  2337

tcttagagtt cctttgaacg cttcatgcat gagaatatct atttggtcta aaatccatta       60



gaaaaatagt tcttcttaaa tgaagtgttt gggggaactc ttggg                      105





<210>  2338

<211>  111

<212>  DNA

<213>  Medicago truncatula



<400>  2338

tcttagagtt cctttgaacg cttcatgcat gagaatatct atctatttgg tctaaagtcc       60



attagaaaag atagccattt tttcaatgaa gtgtttgggg gaactcttgg a               111





<210>  2339

<211>  142

<212>  DNA

<213>  Oryza sativa



<400>  2339

ttgtccactg gagttctcct caatccactt cagtagatag ctatggctag gcctcattgc       60



attgcactgt tacataactg tgatcatggg gccaaaagct agctatgtat agtgaagtgc      120



ttgggggaac tccagttgac ac                                               142





<210>  2340

<211>  89

<212>  DNA

<213>  Oryza sativa



<400>  2340

gtattatcaa gagttctctt taagcacttc atacgacacc attatttata gggttgttgt       60



gaagtgtttg gaggaactct cggtgtcat                                         89





<210>  2341

<211>  82

<212>  DNA

<213>  Oryza sativa



<400>  2341

ttatcgcggg ttcccttcaa tcacttcaca tggtactatt tcaaggccta ctatgtgaat       60



tgtttggggg aactctcgat gt                                                82





<210>  2342

<211>  143

<212>  DNA

<213>  Oryza sativa



<400>  2342

ttatccactg gagttctcct caaaccactt cagcagatag ctagctaggc ctcattgcat       60



tgcaccactg ttgcataact atgagcatgg ggccaaaagt tagctgctta tagtgaagtg      120



tttggggaaa ctccggttgg caa                                              143





<210>  2343

<211>  98

<212>  DNA

<213>  Populus trichocarpa



<400>  2343

gtgtccccta gagttccctt gagcacttca ctgggaccct tcagaccgaa agagtattat       60



ctttcccact gaagtgtttg ggggaactcc tggtgtca                               98





<210>  2344

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2344

gtgtccccta gagttcctct gagcacttca ttgggaatct tcgattaaat gaaagagtat       60



tatcattcct actgaagtgt ttgggggaac tcctggtgtc a                          101





<210>  2345

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2345

gtgtccccta gagttcctct gagcacttca ctgggaattt ccgatcaaat gaaagagtat       60



tatcattcct actgaagtgt ttgggggaac tcctggtgtc a                          101





<210>  2346

<211>  113

<212>  DNA

<213>  Populus trichocarpa



<400>  2346

ctgtcccccg gagtttccct gaccacttca ctggggctat aattctactc ttcgtgttta       60



agggtagagg caacccttcc tcactgaagt gtttggggga actctgggtg gca             113





<210>  2347

<211>  113

<212>  DNA

<213>  Populus trichocarpa



<400>  2347

ctgtcccccg gagtttccct gaccacttca ctggggctat aattctactc ctcgtgttta       60



agggtagagg caacccttcc tcactgaagt gtttggggga actctgggag gca             113





<210>  2348

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2348

gtgtccccta gagttcctct gagcacttca ttggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2349

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2349

gtgtccccta gagttcctct gagcacttca ttggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2350

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2350

gtgtccccta gagttcctct gagcacttca atggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2351

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2351

gtgtccccta gagttcctct gagcacttca atggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2352

<211>  74

<212>  DNA

<213>  Ricinus communis



<400>  2352

ctagagttcc cttgaacact tcactgggac gaaaatccat tcttccaact gaagtgtttg       60



ggggaactct tggt                                                         74





<210>  2353

<211>  97

<212>  DNA

<213>  Ricinus communis



<400>  2353

ctggagttcc cctggccgct tcattggggc tattatatac ccttaattat acatgtgtta       60



ttcctgccct actgaagtgt ttgggggaac tctaggt                                97





<210>  2354

<211>  82

<212>  DNA

<213>  Ricinus communis



<400>  2354

ctagagttcc cttgagcact tcactgggat gaaaaaaggt ccagtcttcc ttcctactga       60



agtgtttggg ggaactcctg gt                                                82





<210>  2355

<211>  87

<212>  DNA

<213>  Ricinus communis



<400>  2355

ctagagttcc cttgaccact tcattgtgga ttattcttca agctcaagga gttggtttac       60



actgaagtgt ttgggggaac tcctggt                                           87





<210>  2356

<211>  74

<212>  DNA

<213>  Ricinus communis



<400>  2356

ctagagttcc cttgaacact tcactgggac gaaaatccat tcttccaact gaagtgtttg       60



ggggaactct tggt                                                         74





<210>  2357

<211>  122

<212>  DNA

<213>  Sorghum bicolor



<400>  2357

acaatgtttg gtgttaccac gagttccctt caagcacttc atgaggcacc attaaataac       60



tctatttaag attaggtgta atatgaagtg tttgggggaa ctcttggtga tactcaacat      120



cg                                                                     122





<210>  2358

<211>  80

<212>  DNA

<213>  Sorghum bicolor



<400>  2358

gttcccttca agcacttcac atgaagcttc acattggcag atgtagtctt gagaccaatg       60



tgaagtgttt ggaggaactc                                                   80





<210>  2359

<211>  84

<212>  DNA

<213>  Sorghum bicolor



<400>  2359

gttcccttca agcacttcac atggagcatt atttgtcttg gagaaagctt aatttgatgc       60



attgtgaagt gcttggggga actc                                              84





<210>  2360

<211>  94

<212>  DNA

<213>  Solanum demissum



<400>  2360

atgttcccta gagttccctt gaccgcttca ttagggttaa ctactttgtt gtttgatgcc       60



ctgctgaagt gtttggggga actcccgggc tcac                                   94





<210>  2361

<211>  199

<212>  DNA

<213>  Solanum lycopersicum



<400>  2361

agggcttact ttgatgttgg aagccttgct gaagtgtttg ggggaactcc cgggttgact       60



ttgaaaatta cgcaaacaag tatatataaa tgcatgagta cgtattagct aaagatgatg      120



agtacaatat tgattcatgt acctttggag ttcccttgac cacttcatga gagcttaata      180



tttgattgtt tgaagtcct                                                   199





<210>  2362

<211>  101

<212>  DNA

<213>  Solanum lycopersicum



<400>  2362

ttaaggtgtt ccctagagtt cccttgacca cttcatgagg gcttactttg atgttagaag       60



cgttgctgaa gtgtttgggg gaactcctgg gttgacttta a                          101





<210>  2363

<211>  124

<212>  DNA

<213>  Triticum aestivum



<400>  2363

ctgaagtgtt tgggggaact cttggtgtca ccaagcattt agtagacatt ggccacatat       60



cataagagag atgcatcaat gggctgaatg tttggtctta ccatgggttc cttgcaagca      120



cttc                                                                   124





<210>  2364

<211>  123

<212>  DNA

<213>  Theobroma cacao



<400>  2364

agagagtcag ctgtcctctg gagttcccct gaccacttca ctagaggttt cctggaccct       60



taataggaag aaacctgacc tactgaagtg tttgggggaa ctcctgttgg cacctgacaa      120



tgt                                                                    123





<210>  2365

<211>  117

<212>  DNA

<213>  Theobroma cacao



<400>  2365

tatgccaggt gcccactaga gttcccctgg gcacttcagt tgatttcttt agagctcaaa       60



acctcttacc tgtctactga agtgtttggg ggaactccgg ttgccatctg agacagt         117





<210>  2366

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2366

gtcccctaga gttcccttga tcacttcact agggagcttc gctagtttta atgacttcct       60



actgaagtgt ttgggggaac tcctggtacc ga                                     92





<210>  2367

<211>  90

<212>  DNA

<213>  Vitis vinifera



<400>  2367

gtcccctaga gttcccctta ccacttcact ggggatcttc tctaatgaat gcctacgtac       60



tgaagtgttt gggggaactc ctggtgccat                                        90





<210>  2368

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2368

gtcccctaga gttcccttga ccacttcact ggggaccttc tctagttata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2369

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2369

gccccctaga gttcccctga ccacttcatt ggggatcttc tctaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2370

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2370

ctcccctaga gttcccttga ccacttcact ggggaccttc tctaattata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2371

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2371

gtaccctaga gttcccctga ccacttcact ggggatcttc tctaatgact tcccactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2372

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2372

gtcccctaga gttcccctga gcacttcatt ggggatcctt agttttcaat tcctactgaa       60



gtgtttgggg gaactcccgg tgtcat                                            86





<210>  2373

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2373

gtcccctaga gttcccttga ccacttcact ggggaccttc tctaattata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgct at                                     92





<210>  2374

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2374

gccccctaga gttcccctga ccacttcact ggggatcttc tgtaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2375

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2375

gccccctaga gttcccctga ccacttcact ggggatcttc tttaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2376

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2376

tcccctagag ttcccttgac cacttcactg gggaccttct ctaattataa tgacttccta       60



ctgaagtgtt tgggggaact cctggtgcca tt                                     92





<210>  2377

<211>  87

<212>  DNA

<213>  Vitis vinifera



<400>  2377

gccccctaga gttcccctga ccacttcact gggggatctt ctgtaatgac ttcctactga       60



agtgtttggg ggaactcctg gtgtcat                                           87





<210>  2378

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2378

gtcccctaga gttcccttga acacttcact ggggaccttc tctagttata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2379

<211>  138

<212>  DNA

<213>  Zea mays



<400>  2379

tcttggttgg ttctcccttg gagttccctg caaacacttc accagctagg ccatagtgcc       60



ggcccttgca caatgttgta tctgatcacc tagctagtgt gaagtgtttg gaggaactct      120



aggtgttatc cagcaatg                                                    138





<210>  2380

<211>  81

<212>  DNA

<213>  Zea mays



<400>  2380

agttccttcc aaacacttca ccagctaggc catgcacaag atgaacccac attaggctag       60



tgaagtgttt ggaggaactc t                                                 81





<210>  2381

<211>  82

<212>  DNA

<213>  Zea mays



<400>  2381

agttcctttc aaacacttca catggagctt ctcattggtg gatatattct tgagacccgt       60



gtgaagtgtt tggaggaact ct                                                82





<210>  2382

<211>  226

<212>  DNA

<213>  Zea mays



<400>  2382

agttctcttc aagcacttca cgaggcatca cactgagagc ttttgtgaag tgtttggggg       60



aactcttggt gtcacaaatc atttgcattt gcttgatgtt agtcatgcac catgtgatat      120



gagataaagg acatggcaac gttttgtgtt actaggagtt ccctacaagc acttcatgag      180



accttgactt aataaagggc cattgtgaag tgtttgggtg aactct                     226





<210>  2383

<211>  111

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2383

gccaaatgtc cccatgagtt ccctttaacg cttcattgtt aaatactcaa agccacattg       60



gtttgtatat aacactgaag tgtttggggg gactcttggt gccattttgg c               111





<210>  2384

<211>  127

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2384

gtcaaatgtc tccttgagtt cccttaaacg ctttattgtt cacactttgt tgtctaagat       60



caatcgatcg attcaatcaa tctgacgaac actgaagtgt ttggggggac tctaggtgac      120



atatggc                                                                127





<210>  2385

<211>  135

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2385

gtcaactgtc cccttgagtt cccttaaacg cttcattgtt catactttgt gagtttgtgt       60



tctaagatct atcgaccgat aaatcaatct gatgaacact gaagtgtttg gggggactct      120



aggtgacatc ttggc                                                       135





<210>  2386

<211>  93

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2386

ctcaagagtt cctccgaaca cttcattgaa aaaaggttct ccattttcgt aatttttttt       60



tactgaagtg tttggaggaa ctccagatga tat                                    93





<210>  2387

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2387

atgtccccat gagttccctt taacgcttca ttgttaaata ctcaaagcca cattggtttg       60



tatacaacac tgaagtgttt ggggggactc ttggtgtcat                            100





<210>  2388

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2388

atgtccacat gagttccctt taacgcttca ttgttgaata ctcaaagcca cattggtttg       60



tatataacac tgaagtgttt ggggggactc ttggtgtcat                            100





<210>  2389

<211>  112

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2389

atgtcccctt gagttccctt aaacgcttca ttgttcatac tttgttatca tctatcgatc       60



gatcaatcaa tctgatgaac actgaagtgt ttggggggac tctaggtgac at              112





<210>  2390

<211>  186

<212>  DNA

<213>  Gossypium hirsutum



<400>  2390

ctttttcctc gaacaactgt aacggaacgg gtgagacgga gaagggaaag gtggtgtcca       60



tttgaagcga aatcggatca tccgcaatgg aggatttagt aaaacccagg gacagacccg      120



atttagtatg aaataaatcc attgaaaccc taaaagggaa attttttgaa gtgtttgggg      180



gaactt                                                                 186





<210>  2391

<211>  124

<212>  DNA

<213>  Medicago truncatula



<400>  2391

tacttgttga ttttctcttg gagttcctct gaatgcttca aacatgagac aatcttgata       60



gaaattatgg atagttcttg ttcaatgaag tatttggggg aactcttgga attgaatcaa      120



cata                                                                   124





<210>  2392

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2392

gactttctct gaacacttca tacaagaggt tatccatcta atctaaaagt cattagatat       60



ttacgatggg tcgttcttca atgaagtgtt tgggggaact t                          101





<210>  2393

<211>  72

<212>  DNA

<213>  Medicago truncatula



<400>  2393

gagttccctt aaacatttca ttaaggactc aatttcttct cttcaacctt gttgaagcgt       60



ttgggggaac tc                                                           72





<210>  2394

<211>  142

<212>  DNA

<213>  Oryza sativa



<400>  2394

ttgtccactg gagttctcct caatccactt cagtagatag ctatggctag gcctcattgc       60



attgcactgt tacataactg tgatcatggg gccaaaagct agctatgtat agtgaagtgc      120



ttgggggaac tccagttgac ac                                               142





<210>  2395

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2395

gagttctctt taagcacttc atacgacacc attattgtta gggttgttat gaagtgtttg       60



gaggaactc                                                               69





<210>  2396

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2396

acactgccag gaattccctt caagcaattc atgaaacaat attttgagag ttgttgtgaa       60



gcgtttgggg gaaatctcag tgtcgc                                            86





<210>  2397

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2397

gaattctctt taagcacttc atacgacaca attatttcaa gggttgttgt gaagtatttg       60



gcggaactc                                                               69





<210>  2398

<211>  84

<212>  DNA

<213>  Zea mays



<400>  2398

agtttccttc aagcacttca catggagcat tctgtcttag agaaagctta atttattgca       60



ttgtgaagtg tttgaggaaa ctct                                              84





<210>  2399

<211>  166

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2399

atgacagagc tacaagaaga aagtcaaatg tcttcatgag ttccctttaa cgcttcattg       60



ttaatattca aactacattt atttccataa atgtttgatc gatttgtata taacactgaa      120



gtgtttgggg ggacttttgg tgtcattctg gcgtagttac gattat                     166





<210>  2400

<211>  100

<212>  DNA

<213>  Aquilegia caerulea



<400>  2400

tggagttcct cctgccgctt cagtaatgat ctattaattc ctagctagtt aactagtttt       60



tgacaatctt aattactgaa gggtttggag gaactctaag                            100





<210>  2401

<211>  80

<212>  DNA

<213>  Aquilegia caerulea



<400>  2401

cctggagttt ctcctgccgc ttcaggaacg atcaattgca aaatttgtta ttactgaagg       60



gtttggagga actctgggtg                                                   80





<210>  2402

<211>  84

<212>  DNA

<213>  Gossypium hirsutum



<400>  2402

gagttcccct gaccacttca ttggggatat attaaaaacc ttaactgagg aaattttttc       60



ctactaaagt gtttagggga actc                                              84





<210>  2403

<211>  96

<212>  DNA

<213>  Oryza sativa



<400>  2403

atttggtatc gccatgagtt ctcttcaaac tcttcatacg acactaattc aagtgatgtt       60



gtgaagtgtt tggagtagct cttggtgtca ccaaac                                 96





<210>  2404

<211>  103

<212>  DNA

<213>  Picea abies



<400>  2404

ctcacagctg gttctcaatg ccgggagttc cttcaatcac ttcgccgaat ccgaaagcat       60



ttcactgaag tgtttggagg aacttcgggc gtcactgaac tgc                        103





<210>  2405

<211>  226

<212>  DNA

<213>  Populus trichocarpa



<400>  2405

ggtcaccctg agttcctcct agcttcttca gtacccgtgg aaagctaatg ctacaattat       60



cttgagctgg taagactggc aggtgtcaga tgtggatgtg ttaaaggtaa tattattgat      120



tatttacggc gccattcaag tatttgttct actgttagag gatttaatca agtatatgtg      180



gtattactcc tgatttgctg aagggtttgg aggaactcta ggtgct                     226





<210>  2406

<211>  148

<212>  DNA

<213>  Brachypodium distachyon



<400>  2406

agctcctgga cgaacggttg gttgtttcct ggggttccct ccaaacactt cagcaggtcg       60



gctttcctat actagctcac aggctgaagg gtgaagtgtt tggggaactc taggtgacaa      120



ccgccatttt atcaaggtca aactgctg                                         148





<210>  2407

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2407

gagttctctt taatcatttc acatggcact attttaaggc ctactgtgtg aagtgtttgg       60



gggattctc                                                               69





<210>  2408

<211>  137

<212>  DNA

<213>  Vitis vinifera



<400>  2408

ggccttgaga gttcccccaa cccctccagt atgaccatct ctcttcttct tttaatttgt       60



tcatcaaatc ttcttctact atctatttcc agggtgattt cctctactga agagtctgga      120



ggaactcttg gtgccac                                                     137





<210>  2409

<211>  178

<212>  DNA

<213>  Physcomitrella patens



<400>  2409

aattttgaaa ccttcttttg cttcatattc tagtcgttgg tttatggtgc ctaagaaaaa       60



tggatcgtta tgttttattc aagatataca gccaatgaat gtagtaacta taagaaatgc      120



aggtatagga tctttaatag atgagtttgc tgaagcgttt gggggaaggg caatttat        178





<210>  2410

<211>  140

<212>  DNA

<213>  Zea mays



<400>  2410

gggggcgaac tgagaacaca tgagaataat gagatgagat tgctcgcctc gcggtacggt       60



tcgtgctggc ctggaccacc gtcgtcgccg ttcatcttgt acgcataata atgctgcatg      120



tgttctcagg tcgcccccgc                                                  140





<210>  2411

<211>  109

<212>  DNA

<213>  Sorghum bicolor



<400>  2411

gggggcggac tgggaacaca tgggaatgag agatgagatt gctcggtcgt gctggccctg       60



ggctcgtagt tgatctgctt gtatgcatgt gttctcaggt cgcccccgc                  109





<210>  2412

<211>  120

<212>  DNA

<213>  Triticum aestivum



<400>  2412

agacgcgagg aaattcctgc ggggtcgaac tgggaacaca tgggatacga accgcttgat       60



tgaggagcga ctcttatcaa ctcatgtgtt ctcaggtcgc ccccgctgga gcctcctcgc      120





<210>  2413

<211>  108

<212>  DNA

<213>  Zea mays



<400>  2413

gggggcggac tgggaacaca tgggaatgag atgagatcat tgctcggtcg tgctggcctg       60



ggccgtcggc gcgcgttgat cttgcatgtg ttctcaggtc gcccccgg                   108





<210>  2414

<211>  108

<212>  DNA

<213>  Zea mays



<400>  2414

cgggggcgga ctgggaacac atgggaatga gatgagatca ttgctcggtc gtgctggcct       60



gggccgtcgg cgcgcgttga tcttgcatgt gttctcaggt cgcccccg                   108





<210>  2415

<211>  93

<212>  DNA

<213>  Aquilegia caerulea



<400>  2415

gggggtaaca tgagaataca tgaaatagat actatcagag agtcattcca ttgtagtatc       60



agtttcttcc atgtgttctc aggtcgcccc tgc                                    93





<210>  2416

<211>  150

<212>  DNA

<213>  Brachypodium distachyon



<400>  2416

aagaacagac agcacatgcg aggaagttcc tgcagggtcg aattgggaac acatgagatg       60



gatggtccgc tgagctctga gctcgagctc ggccatgtgt tctcaggtcg cccctgttgg      120



gtcttccgtg ccatggattg atgattgcct                                       150





<210>  2417

<211>  131

<212>  DNA

<213>  Brachypodium distachyon



<400>  2417

cagcacatgc gaggaagttc ctgcagggtc gaattgggaa cacatgagat ggatggtccg       60



ctgagctctg agctcgagct cggccatgtg ttctcaggtc gcccctgttg ggtcttccgt      120



gccatggatt g                                                           131





<210>  2418

<211>  87

<212>  DNA

<213>  Medicago truncatula



<400>  2418

ttctacaggg tcgacatgag accacatgaa gctatcatat ttgtctatgt tatccaactc       60



atgtgttctc aggtcgcccc tgctgaa                                           87





<210>  2419

<211>  87

<212>  DNA

<213>  Medicago truncatula



<400>  2419

ttccacaggg ccgacccgag accacatgaa gttatcatat gtgtctaagc tacacatctc       60



gtgtgttctc aggtcgcccc tgctgaa                                           87





<210>  2420

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2420

ggagttccta caggggcgag ctgggaacac acggtgatga ggcggtctgg tctttcgtgt       60



gttctcaggt cgcccctgcc gggactct                                          88





<210>  2421

<211>  85

<212>  DNA

<213>  Populus trichocarpa



<400>  2421

agggttccga caggagcggc cttgggtcac atgtggcggc atccaatgta cttcatgtgt       60



tctcaggtcg cccctgccgg gcttc                                             85





<210>  2422

<211>  97

<212>  DNA

<213>  Populus trichocarpa



<400>  2422

aggattccta caggagcgac ctgaaatcac atgtgggctg caccctcctg ggttatcttg       60



agcaacatgt gttctcaggt cgcccctgcc gggcttt                                97





<210>  2423

<211>  126

<212>  DNA

<213>  Ricinus communis



<400>  2423

ctacaggagc gacctgagaa tcacatgtgg acattcttag ctatatatac ccttatcatc       60



ttctcttatt ttgggtttat tgtactttgg tgttctttca tgtgttctca ggtcgcccct      120



gccggg                                                                 126





<210>  2424

<211>  125

<212>  DNA

<213>  Theobroma cacao



<400>  2424

ttaatggtgg aggagcccaa caggagcgac atgagaacac atgtggccac tcttgaagga       60



caaaccttat cctgtgtgtt ttgatgtgtt ctcaggtcgc ccctgcaggg ctttccttca      120



ccttc                                                                  125





<210>  2425

<211>  88

<212>  DNA

<213>  Vitis vinifera



<400>  2425

gtgtcctaca ggtgtgacct gagaatcaca tgcccgcacc acccatcttt gctctcatgt       60



gttctcaggt cgcccctgct ggactccc                                          88





<210>  2426

<211>  88

<212>  DNA

<213>  Vitis vinifera



<400>  2426

gtgtcctaca ggagtgacct gagaatcaca tgcccgcatc acccatcttt gctctcatgt       60



gttctcaggt cgcccctgct ggactccc                                          88





<210>  2427

<211>  98

<212>  DNA

<213>  Medicago truncatula



<400>  2427

tctcagagga gtgacactga gaacacaaga ttgattaatc atataatgta tttggttgtt       60



actagttgat tttgtgttct caggtcaccc ctttgagt                               98





<210>  2428

<211>  142

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2428

gatatatttt gaaggtagtg gatctcgaca gggttgatat gaggacacat gtgtaatcaa       60



cggctgtaat gacgccacgt cattgttaca tgtgttctca ggtcacccct gctgagctct      120



ttctctaccg accatcttta tc                                               142





<210>  2429

<211>  132

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2429

ggtagtggat ctcgacaggg tcgacatgag aacatatgag caatcaacgg ctgtaaatga       60



cgctacgtca ttattacatc tctcggtttc atgtgttaac tcaggtcacc cctgctgagc      120



tctttctcta cc                                                          132





<210>  2430

<211>  116

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2430

tggatctcga cagggttgat atgagaacac acgagtaatc aacggctgta atgacgctac       60



gtcattgtta cagctctcgt tttcatgtgt tctcaggtca cccctgctga gctctt          116





<210>  2431

<211>  115

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2431

tggatctcga cagggttgat atgagaacac acgagcaatc aacggctata acgacgctac       60



gtcattgtta cagctctcgt ttcatgtgtt ctcaggtcac ccctgctgag ctctt           115





<210>  2432

<211>  153

<212>  DNA

<213>  Arachis hypogaea



<400>  2432

tatctcagag gagtgaacct gagaacacaa agtaaattgt ttcggagttt ggaatgccat       60



aatcacatgc ataatgcatt tatgcttatg cttgtatatg gtacatattt tcgaatttta      120



atttaccttg tgttctcagg tcaccccttt gag                                   153





<210>  2433

<211>  182

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2433

taatcagtgg aagtaaagta tgaagaaaaa gagaagaaca acaggaggtg aaatctcaaa       60



ggagtgtcat gagaacacag atcctatggt ttctttacat tttcattgaa accattgagt      120



ttgtgttctc aggtcacccc tttgaatctc ccctgttcct ttattttacc ttaccaaaat      180



ta                                                                     182





<210>  2434

<211>  92

<212>  DNA

<213>  Aquilegia caerulea



<400>  2434

cctggaggag tggcactaag aacacaggtg gttgtgcgat ttcgaatatc attgcatttt       60



gcatttgtgt tctcaggtca cccctttggg ga                                     92





<210>  2435

<211>  105

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2435

tgaaatttca aaggagtggc atgtgaacac atatcctatg gtttcttcaa atttccattg       60



aaaccattga gttttgtgtt ctcaggtcac ccctttgaat ctccc                      105





<210>  2436

<211>  95

<212>  DNA

<213>  Brassica oleracea



<400>  2436

tctcaaagga gtgtcatgag aacacggatc ctcttgtttc tttaagattt ccactgaaac       60



cattgagtat tgtgttctca ggtcacccct ttgaa                                  95





<210>  2437

<211>  225

<212>  DNA

<213>  Citrus sinensis



<400>  2437

caacagatgt gaaaccccag aggagtgatc ctgagaacag agggtggcgt tggcttaaat       60



ttgatttgca ttgctgctgc ctgctcctgc catacattaa atcaaaaaga ttgtatgtgg      120



ccaacgcacc ttgtgttctc aggtcacccc tttgggaatt caattgtcaa tcagcacgtg      180



tcatcaagtt actcaattgc tctaacattc gctgcttctg attca                      225





<210>  2438

<211>  106

<212>  DNA

<213>  Gossypium hirsutum



<400>  2438

gccaagatgg tttaccccag aggggtgcca cctaagaaca caggtcatcc cttaaccaaa       60



tagcttgtgt tctcaggtca cccctttggg gtacatatat cttcgc                     106





<210>  2439

<211>  116

<212>  DNA

<213>  Glycine max



<400>  2439

ctcggaggag tgaatctgag aacacaaggc tggtttgcac tgctatatca tctattggta       60



taaggtgaat ttactttgtg ttctcaggtc acccctttga gccaacctgt tgacat          116





<210>  2440

<211>  135

<212>  DNA

<213>  Glycine max



<400>  2440

agtccaaatg gtttatctca gaggagtgga tctgagaaca caaggctggt ttgcactgct       60



atattatgat cgattggtat aaggtgaatt tactttgtgt tctcaggtca cccctttgag      120



ccaacctgtt gacat                                                       135





<210>  2441

<211>  123

<212>  DNA

<213>  Gossypium raimondii



<400>  2441

gccaagatgg tttaccccag aggggtgcca cctaagaaca caggtcatcc cttaaccaaa       60



tagcttgtgt tctcaggtca cccctttggg gtacatatat cttcgccatt cccttttgtt      120



tgc                                                                    123





<210>  2442

<211>  115

<212>  DNA

<213>  Oryza sativa



<400>  2442

gctgaaccca gaggagtggt actgagaaca caggtgccaa tacaatgtat ggtgagctac       60



tgtataatgg agtaattctg taactgtgtt ctcaggtcac ccctttgggt ttctt           115





<210>  2443

<211>  109

<212>  DNA

<213>  Populus trichocarpa



<400>  2443

gtacacccca gaggagtggc tccagagaac acagggggtt ggttttctag ctgtaagcta       60



caagatggac aaagcactct gtgttctcag gtcacccctt tggggcacc                  109





<210>  2444

<211>  91

<212>  DNA

<213>  Ricinus communis



<400>  2444

ccagaggagt ggctccctga gaacacacgt gcattggctc tcaccttttg tagttccact       60



gcacctgtgt tctcaggtca cccctttggg g                                      91





<210>  2445

<211>  165

<212>  DNA

<213>  Theobroma cacao



<400>  2445

cagccagatg gtttaccacg aaggggtgcc acctaagaac ccaggcggtt tggcctgagc       60



taggcctttg ccaagctgct atgaaaagga aggctgaatg ctaatgcagc cagcagcaac      120



cggttgtgtt ctcaggtcac cccttcgcgg tacttctatc ttcgc                      165





<210>  2446

<211>  103

<212>  DNA

<213>  Vitis vinifera



<400>  2446

acaccccaag ggagtggcac ctgagaacac cggttgtgtt ggctgcgcca agctctgcta       60



gctaatgcat tttgtgttct caggtcaccc ctttggggca cca                        103





<210>  2447

<211>  124

<212>  DNA

<213>  Pinus taeda



<400>  2447

agcagaggag gtttccaccg gggcgacctg ggaacacgtc tacattaatg taatctcttg       60



atttctccat gagtcctgtg aatgtgaatg tgttccaagg tcaccccagt cgagcctact      120



ctct                                                                   124





<210>  2448

<211>  84

<212>  DNA

<213>  Zea mays



<400>  2448

atcattgagc gcagcgttga tgagccagcc gccgtgcctc ccctgtcggc tgcggcggct       60



caccagcgct gcactcaatt acgc                                              84





<210>  2449

<211>  126

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2449

tcctggattt gaatgaacat cattgagtgc agcgttgatg taatttcctt tttttttcat       60



tgttgaatgg aattaaaaga atttacaccg gcgttgcgct caattatgtt tttcttattt      120



tcagga                                                                 126





<210>  2450

<211>  131

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2450

cctgggtttg aataaacatc attgagtgca gcgttgatgt aagtttactt attttattcc       60



attgttgaat gaattaaaat gatacagaat acatcagcgt tgcattcaat tatgtttttc      120



taattttcag g                                                           131





<210>  2451

<211>  107

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2451

tgaatgaaca tcattgagtg cagcgttgat gtaatttcgt tttgtttttc attgttgaat       60



ggattaaaag aatttatacc agcgttgcgc tcaattatgt ttttcta                    107





<210>  2452

<211>  124

<212>  DNA

<213>  Brachypodium distachyon



<400>  2452

gaagaggcgc aaaggcatca ttgagtgcag cgttgatgaa caggggccag gcgaccggcg       60



gccggtccgg ttcggttcac cggcgctgca cacagtgacg cccttgcatt ctctggcccg      120



attc                                                                   124





<210>  2453

<211>  124

<212>  DNA

<213>  Brachypodium distachyon



<400>  2453

gaagaggcgc aaaggcatca ttgagtgcag cgttgatgaa caggggccag gcgaccggcg       60



gccggtccgg ttcggttcac cggcgctgca cacagtgacg cccttgcatt ctctggcccg      120



attc                                                                   124





<210>  2454

<211>  96

<212>  DNA

<213>  Brassica napus



<400>  2454

gaacatcatt gagtgcagcg ttgatgtgat ttacttctct ttttcattgt tgaatggatt       60



aaagcaattt acatcaacgt tggctcaatt atgttt                                 96





<210>  2455

<211>  96

<212>  DNA

<213>  Brassica napus



<400>  2455

gaacatcatt gagtgcagcg ttgatgtgat ttacttatct ttttcattgt tgaatggatt       60



aaagcaattt acatcaacgt tggctcaatt atgttt                                 96





<210>  2456

<211>  156

<212>  DNA

<213>  Citrus sinensis



<400>  2456

ccagattgaa aaaaacatca ttgagtgcag cgttgatgaa tatttgtcgg tgctttgcca       60



atatttctct atactagcca ggattctttc accagcgctg cactcgatca tgttttttag      120



ctctgctggt tcaggattat ccagataata cgcaca                                156





<210>  2457

<211>  114

<212>  DNA

<213>  Oryza sativa



<400>  2457

atcaaatgca tcattgagtg cagcgttgat gaacaacggt aaccggtcca tgttgatgcg       60



catttggccg gtgatctgat catcatcagc gcttcactca atcatgcgtt tggc            114





<210>  2458

<211>  120

<212>  DNA

<213>  Populus trichocarpa



<400>  2458

tggagaacca tcattgagtg cagcgttgat gaaatcctcc attttgtgct attaaactgt       60



taccaaccct ttatggggca tggcatcatt tcaccagcgc tgcattcaat catgtttttc      120





<210>  2459

<211>  157

<212>  DNA

<213>  Ricinus communis



<400>  2459

aaacatcatt gagtgcagcg ttgatgaatt cccctacatg acatatttct gttggttaat       60



tcattaccaa tatcccttct ttaaaaaaag aagtaaacct ttttgggaat agatggtttt      120



ggatgatttc accagcgctg cattcaatca tgttttt                               157





<210>  2460

<211>  91

<212>  DNA

<213>  Sorghum bicolor



<400>  2460

tcattgagtg cagcgttgat gagccagctg gccggccagc cgtgcgtccg ccgccggcgc       60



cggccacggc tcaccggcgc tgcactcaat t                                      91





<210>  2461

<211>  123

<212>  DNA

<213>  Theobroma cacao



<400>  2461

attcccagat ggaagacaca tcattgagtg cagcgttgat gaattctttc actttttgcc       60



aactctatct cagatgaatt cgccagcgct gcactcaatc atgtgttttg ctctttctgg      120



aaa                                                                    123





<210>  2462

<211>  118

<212>  DNA

<213>  Vitis vinifera



<400>  2462

gaagaaaaca tcattgagtg cagcgttgat gaaactgaag tattccattt ttcagcttct       60



ttgaagtccg gcaagatggg ttctggttga ttccattggc gctgcactca atcatgtc        118





<210>  2463

<211>  118

<212>  DNA

<213>  Vitis vinifera



<400>  2463

gaagaaaaca tcattgagtg cagcgttgat gaaactgaag tattccattt ttcagcttct       60



ttgaagtccg gcaagatggg ttctggttga ttccattggc gctgcactca atcatgtc        118





<210>  2464

<211>  109

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2464

tgaatgaaca tcattgagtg catcgttgat gtaattttac ttattttatt ccattgttga       60



attaattaaa gaagtatata tcagcgttgc attcaattat gtttttcta                  109





<210>  2465

<211>  118

<212>  DNA

<213>  Oryza sativa



<400>  2465

agggaaggca ttattgagtg cagcgttgat gaacctgccg gccggctaaa ttaattagca       60



agaaagtctg aaactggctc aaaggttcac cagcactgca cccaatcacg cctttgct        118





<210>  2466

<211>  134

<212>  DNA

<213>  Picea abies



<400>  2466

agccgtggca accacatcat tgagtgcagc gttgacgata gaaattccac caatagattt       60



gataatatct atctatttgt ggaatgccat tgatattgtt aaccctgcac tcaatagtat      120



gtttgccaat ggct                                                        134





<210>  2467

<211>  114

<212>  DNA

<213>  Populus trichocarpa



<400>  2467

taattataca ccattgagtg cagcgttgat gaaattctct tgttagctta cttagctatt       60



ttctcacgat ggcgtggaat catttcacca gcgctgcatt caaccatgtt tttc            114





<210>  2468

<211>  116

<212>  DNA

<213>  Solanum lycopersicum



<400>  2468

cagagtactt agaaacatga ttgagtgcag cgttgatgac atatttgaga agtcctgcat       60



ttgggccttc ctcatttttc atcaacgcta aactcgatca tgtttttaat tctctg          116





<210>  2469

<211>  292

<212>  DNA

<213>  Brachypodium distachyon



<400>  2469

gcgaagagga attagaagag gcgcaaaggc atcattgagt gcagcgttga tgaacagggg       60



ccaggcgacc ggcggccggt ccggttcggt tcaccggcgc tgcacacagt gacgcccttg      120



cattctctgg cccgattcat ttgtgtgcga agaggaatta gaagaggcgc aaaggcatca      180



ttgagtgcag cgttgatgaa caggggccag gcgaccggcg gccggtccgg ttcggttcac      240



cggcgctgca cacagtgacg cccttgcatt ctctggcccg attcatttgt gt              292





<210>  2470

<211>  79

<212>  DNA

<213>  Gossypium hirsutum



<400>  2470

ttcattgagt gcagtgttga ttaggcgtag caagtaggtc ttgccgctgt ccactggcaa       60



tgagaaacct gcctgtgaa                                                    79





<210>  2471

<211>  113

<212>  DNA

<213>  Hordeum vulgare



<400>  2471

cgcagaggtg ccgttgagtg cagcgttgat gaaccgtccg gccatggccc gtccgcctcc       60



accgaggccg gagcggttca ccggcgctgc acgcaatgac gcctctgctt tct             113





<210>  2472

<211>  71

<212>  DNA

<213>  Populus trichocarpa



<400>  2472

caagtttagt tcattgagtg gagctttgat gacaatttgt tttaaaagct ctactgtatt       60



cgaacaatat g                                                            71





<210>  2473

<211>  114

<212>  DNA

<213>  Oryza sativa



<400>  2473

atcaaatgca tcattgagtg cagcgttgat gaacaacggt aaccggtcca tgttgatgcg       60



catttggccg gtgatctgat catcatcagc gcttcactca atcatgcgtt tggc            114





<210>  2474

<211>  118

<212>  DNA

<213>  Oryza sativa



<400>  2474

agggaaggca ttattgagtg cagcgttgat gaacctgccg gccggctaaa ttaattagca       60



agaaagtctg aaactggctc aaaggttcac cagcactgca cccaatcacg cctttgct        118





<210>  2475

<211>  149

<212>  DNA

<213>  Gossypium hirsutum



<400>  2475

ttattgagtg cagccgtgat atgcgaagca ctgtgccttg cgaaggggac actgcagtgt       60



tcaagcatca aggttaggaa tggtgaaatg gaggaatgga tgggttgcaa tggaaggaga      120



aaacaagaaa gatcatggct aggccatag                                        149





<210>  2476

<211>  67

<212>  DNA

<213>  Glycine max



<400>  2476

gagttcctct gaacgcttca tgtgattggc tagttatagg cctttgatga agtgtttggg       60



ggaactc                                                                 67





<210>  2477

<211>  135

<212>  DNA

<213>  Medicago truncatula



<400>  2477

tttttgttga ttgtttctta gagttccttt gaacgcttca tgcatgagaa tatgtatttg       60



gtctaatatc cattagaaaa gatagttctt catcaatgaa gtgtttgggg gaactcttgg      120



gttcaaccag cacca                                                       135





<210>  2478

<211>  95

<212>  DNA

<213>  Medicago truncatula



<400>  2478

gagttccttt gaacgcttca tgcatgagaa tatctatttg gtctaaaatc cattagaaaa       60



atagttcttc ttaaatgaag tgtttggggg aactc                                  95





<210>  2479

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  2479

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtttaa aatccattag       60



gatagatagt tcttcttaaa tgaagtgttt gggggaactc                            100





<210>  2480

<211>  98

<212>  DNA

<213>  Medicago truncatula



<400>  2480

gagttccttt gaacgcttca tgcatgagaa atatctcttt ggtttaaaat ccattagaaa       60



agatagtatt ttcttctatg aagtgtttgg gggaactc                               98





<210>  2481

<211>  76

<212>  DNA

<213>  Medicago truncatula



<400>  2481

gagttcctct gaatgcttca atcatgagac aatctatatg aatagttctt gttcaatgaa       60



gtgtttgggg gaactc                                                       76





<210>  2482

<211>  76

<212>  DNA

<213>  Medicago truncatula



<400>  2482

gagttcctct gaatgcttca aacatgagac aatctatatg gatagttctt gttcaatgaa       60



gtgtttgggg gaactc                                                       76





<210>  2483

<211>  98

<212>  DNA

<213>  Medicago truncatula



<400>  2483

gagttccttt gaacgcttca tgcatgagaa atatctcttt ggtttaaaat ccattagaaa       60



agatagtatt ttcttctatg aagtgtttgg gggaactc                               98





<210>  2484

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2484

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa agtccattag       60



aaaagatagc cattttttca atgaagtgtt tgggggaact c                          101





<210>  2485

<211>  100

<212>  DNA

<213>  Medicago truncatula



<400>  2485

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa aatccattag       60



aaaagatagt tcttcttaaa tgaagtgttt gggggaactc                            100





<210>  2486

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2486

gagttccttt gaacgcttca tgcatgagaa tatctatcta tttggtctaa agtccattag       60



aaaagatagc cattttttca atgaagtgtt tgggggaact c                          101





<210>  2487

<211>  83

<212>  DNA

<213>  Medicago truncatula



<400>  2487

gagttcctct gaactcttca tctaaagggc tatagcaaga aagaaaggaa aatccttgta       60



tgatgaagtg tttgggggaa ctc                                               83





<210>  2488

<211>  105

<212>  DNA

<213>  Medicago truncatula



<400>  2488

tcttagagtt cctttgaacg cttcatgcat gagaatatct atttggtcta aaatccatta       60



gaaaaatagt tcttcttaaa tgaagtgttt gggggaactc ttggg                      105





<210>  2489

<211>  111

<212>  DNA

<213>  Medicago truncatula



<400>  2489

tcttagagtt cctttgaacg cttcatgcat gagaatatct atctatttgg tctaaagtcc       60



attagaaaag atagccattt tttcaatgaa gtgtttgggg gaactcttgg a               111





<210>  2490

<211>  122

<212>  DNA

<213>  Sorghum bicolor



<400>  2490

acaatgtttg gtgttaccac gagttccctt caagcacttc atgaggcacc attaaataac       60



tctatttaag attaggtgta atatgaagtg tttgggggaa ctcttggtga tactcaacat      120



cg                                                                     122





<210>  2491

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2491

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2492

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2492

agttctatgc aagcacttca cgaggcattg tttcaagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2493

<211>  70

<212>  DNA

<213>  Zea mays



<400>  2493

agttacctac aagcacgtct cgataccttg gcttaataaa ggccagttgt gaagtgtttg       60



ggggaactct                                                              70





<210>  2494

<211>  140

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2494

acaaaatata attcgactag atgtcctcta gagttctccc gaacacttca ttggaaattt       60



gttattcggt aaactaccaa ttaattccac tgaagtgttt gggggaactc cggatgtcat      120



ttggtgatgt caagccatgt                                                  140





<210>  2495

<211>  105

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2495

gtcggatgtt tcctagagtt cctctgagca cttcattgga gataccatct tttatcaaat       60



ggttttctac tgaagtgttt gggggaactc ccggactcat tcgat                      105





<210>  2496

<211>  105

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2496

gtcggatgtt ccctagagtt cctctgagca cttcattgga gataccattg tctatgaaat       60



agtattctac tgaagtgttt gggggaactc ctggactcat tcgat                      105





<210>  2497

<211>  93

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2497

atgtctccta gagttcctct gagcacttca ttggggatac aatttttcta aatgattatc       60



cactgaagtg tttgggggaa ctcccggacc cat                                    93





<210>  2498

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2498

atgtcctcta gagttctcct gaacacttca ttggaaattt gttattcagt aagctaacag       60



ttaattccac tgaagtgttt gggggaactc ccgatgtcat                            100





<210>  2499

<211>  95

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2499

atgttttcta gagttcctct gagcacttca ttggagatac aattttttat aaaatagttt       60



tctactgaag tgtttggggg aactcccggg ctgat                                  95





<210>  2500

<211>  181

<212>  DNA

<213>  Brachypodium distachyon



<400>  2500

caggagatga atggttggtt gtcaactgga gttctcctca aatcacttca gtagctagct       60



agctagcttg tgcctcattg tttcattgcc gctgtttata agtgtgcatg gagctggaga      120



gccgtgcaca gtgaagtgtt tgggggaact ccgggtggca accaacaata ctgatatcac      180



c                                                                      181





<210>  2501

<211>  238

<212>  DNA

<213>  Brachypodium distachyon



<400>  2501

acttcacaag aagctattcc tagggctatt gtgaagtgtt tgggggaact cttgatgtca       60



ccaagcttcc atttgtagat gtttctctca agccaaaaga gatacatcag ccggcatcgg      120



accacgtttg gtattaccat gagttccctg caagcacttc acgaggccca attatgatgg      180



ctactgtgaa gtgtttgggg gaactcttgg tgtcaccaag cttacacaaa taaaaaga        238





<210>  2502

<211>  126

<212>  DNA

<213>  Brachypodium distachyon



<400>  2502

ggcggcagac cacgtttggt aataccatga gttccctgca agcacttcat gaggcctaat       60



tctaagggct actgtgaagt gtttggggga actcttggtg ttaccaagct tttacaacaa      120



aaggag                                                                 126





<210>  2503

<211>  150

<212>  DNA

<213>  Brachypodium distachyon



<400>  2503

gttggttgtc acctggagtt ctcctcaaat cacttcagta gctagctagc ttgtgcctcc       60



ttgttgcatt gccactgttt tataagtgtg cttggggcca gagagctgtg cacagtgaag      120



tgtttggggg aactctgggt ggcaaccagc                                       150





<210>  2504

<211>  96

<212>  DNA

<213>  Brachypodium distachyon



<400>  2504

gtttggtgtc cccgggagtt cccttcaaac actttacgaa gcatctttct aagactattt       60



gtgaagtgtt tgggggaact ctcggtgtca ccaagc                                 96





<210>  2505

<211>  89

<212>  DNA

<213>  Brachypodium distachyon



<400>  2505

ggtgttacca ggagtttcct gcaaacactt cacgagtgcc tattttaatg ggttgttgtg       60



aagtgtttgg gggaactctt gatgtcacc                                         89





<210>  2506

<211>  76

<212>  DNA

<213>  Brachypodium distachyon



<400>  2506

accatgagtt ccctgcaagc acttcacgag gccgttttct gagggctact gtgaagtgtt       60



tgggggaact cttggt                                                       76





<210>  2507

<211>  90

<212>  DNA

<213>  Brachypodium distachyon



<400>  2507

tggtattatc atgaattccc tacaagcact tcacaagaag ctattcctag ggctattgtg       60



aagtgtttgg gggaactctt gatgtcacca                                        90





<210>  2508

<211>  88

<212>  DNA

<213>  Brachypodium distachyon



<400>  2508

ggtattctca tgagtttccc gcaagcactt cacgaggccg ttttctgagg gctactgtga       60



agtgtttggg ggaactcttg gtctcacc                                          88





<210>  2509

<211>  86

<212>  DNA

<213>  Brachypodium distachyon



<400>  2509

gtactaccat gagttccctg caagcacttc atgaggccca attctgaggg ctactgtgaa       60



gtgtttgggg gaactcttgg tgttac                                            86





<210>  2510

<211>  96

<212>  DNA

<213>  Brachypodium distachyon



<400>  2510

gtttggtatt atcatgagtt ccctgcaagc acttcacgag gcactatccc aagggctact       60



gtgaagtgtt tgggggaact cttggtgtca ccaagc                                 96





<210>  2511

<211>  95

<212>  DNA

<213>  Brachypodium distachyon



<400>  2511

tggtattacc atgagttcct ttgcaagcat ttcacgtacg aggcactatc ccaagggcta       60



ttgtgaagtg tttgggggaa ctcttggtgt cacca                                  95





<210>  2512

<211>  90

<212>  DNA

<213>  Brachypodium distachyon



<400>  2512

tggtattacc atgagttccc tgcaagcact tcaccatgca ctaccccaag ggctattgtg       60



aagtgtttgg gggaactctt ggtgtcacca                                        90





<210>  2513

<211>  101

<212>  DNA

<213>  Citrus sinensis



<400>  2513

atgtctccgg gagttcctcc gatcacttca ttggggctat atgatcattt agacaaaatt       60



tgtcacccca ctgaagtgtt tgggggaact ctgggtgcca c                          101





<210>  2514

<211>  107

<212>  DNA

<213>  Gossypium hirsutum



<400>  2514

gagttcccct gatcacttca ctggggttat ggggtctgct cttctcttct cagagccttg       60



ttaaaaggga ggtctccgat gacctactga agtgtttggg ggaactc                    107





<210>  2515

<211>  124

<212>  DNA

<213>  Medicago truncatula



<400>  2515

tacttgttga ttttctcttg gagttcctct gaatgcttca aacatgagac aatcttgata       60



gaaattatgg atagttcttg ttcaatgaag tatttggggg aactcttgga attgaatcaa      120



cata                                                                   124





<210>  2516

<211>  63

<212>  DNA

<213>  Medicago truncatula



<400>  2516

gagttcctct gaacgcttca tataagaggt tatccatctt cattgaagtg tttgggggaa       60



ctc                                                                     63





<210>  2517

<211>  101

<212>  DNA

<213>  Medicago truncatula



<400>  2517

gactttctct gaacacttca tacaagaggt tatccatcta atctaaaagt cattagatat       60



ttacgatggg tcgttcttca atgaagtgtt tgggggaact t                          101





<210>  2518

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2518

gagtccctag gagttccttt caagcacttt acgacacact gtattgagag ttgtcgtgaa       60



gtgtttgggg gaactcttag tgtcgc                                            86





<210>  2519

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2519

gtattgtcgt gagttccctt caagcacttc acgtggcact atctcaatgc ctactatgtg       60



aagtgtttgg gggaactctc gatatcac                                          88





<210>  2520

<211>  88

<212>  DNA

<213>  Oryza sativa



<400>  2520

gtattatcga gagttccctt caaccacttc acgtggcact gtttcaaggc ctattgtgtg       60



aagtgtttgg gggaactctc gatatcac                                          88





<210>  2521

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2521

gtatcaccgt gagttccctt cgaacacttc acgtggcact atttcaatgc ctattgtgaa       60



gtgtttgggg gaactctcga tgtcat                                            86





<210>  2522

<211>  112

<212>  DNA

<213>  Oryza sativa



<400>  2522

ttgttacctg gagtttcctc aacacacttc acatctgcta ggccctatta caattgcgca       60



atgtggagtc tgcaattggt agtgaagtgt ttgggggaac tctaggtggc ac              112





<210>  2523

<211>  99

<212>  DNA

<213>  Oryza sativa



<400>  2523

gttttaccgg gagttctctt caagcacttc acgtagagct ttctattgac atggagcttt       60



agaacaatgt gaagtgtttg ggggaactct tggtaccaa                              99





<210>  2524

<211>  112

<212>  DNA

<213>  Oryza sativa



<400>  2524

gtgttcccaa gagttccttg caagcacttc acatagaact tctgttactc tcatgtaaca       60



ttgggaactt gagaagctac tgtgaagtgt ttgggggaac tctaggtggc ac              112





<210>  2525

<211>  99

<212>  DNA

<213>  Oryza sativa



<400>  2525

gttttatcgg gagtttcctt caagcacttc acgtagagct ttctattgat atggagcttt       60



ggaacaatgt gaagtgtttg ggggaactct tgataccaa                              99





<210>  2526

<211>  94

<212>  DNA

<213>  Oryza sativa



<400>  2526

gcgttccttc caagcacttc acacagagct tttatttctc tcacatcgat tgagaactta       60



attagaagct tttgtgaagt gtttggggga actc                                   94





<210>  2527

<211>  120

<212>  DNA

<213>  Oryza sativa



<400>  2527

gagttctcct caaatcactt cagtagatag ctagctaggc ttcattgcat tacactgtta       60



caaaactgtg agcatggggc caaaagctag ttgtatatag tgaagtgttt gggggaactc      120





<210>  2528

<211>  66

<212>  DNA

<213>  Oryza sativa



<400>  2528

gagttccctt caagcacttc acgacgcact atttagagag ttgttgtgaa gtgtttgggg       60



gaactc                                                                  66





<210>  2529

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2529

gagttctctt taagcacttc atacgacacc attattgtta gggttgttat gaagtgtttg       60



gaggaactc                                                               69





<210>  2530

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2530

gagttccctt caagcacttc acgtggcact atttcaatgc gtaccgtgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2531

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2531

gagttccctt caagcacttc acatgacact atttcaatgt ctattatgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2532

<211>  68

<212>  DNA

<213>  Oryza sativa



<400>  2532

gagttccctt caaccacttc acgtggcact attttaggac ctactatgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2533

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2533

gtatcaccgt gagttccctt caagcacttc acgtggcact atttcaatgc ctattgtgaa       60



gtgtttgggg gaactctcga tgttcc                                            86





<210>  2534

<211>  110

<212>  DNA

<213>  Oryza sativa



<400>  2534

tggccccagg agttccttgc aagcacttca catagaactt cagttactct catacaacat       60



tgtgattttg agaagctatt gtgaagtgtt tgggggaact ctcggtgcca                 110





<210>  2535

<211>  98

<212>  DNA

<213>  Populus trichocarpa



<400>  2535

gtgtccccta gagttccctt gagcacttca ctgggaccct tcagaccgaa agagtattat       60



ctttcccact gaagtgtttg ggggaactcc tggtgtca                               98





<210>  2536

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2536

gtgtccccta gagttcctct gagcacttca ttgggaatct tcgattaaat gaaagagtat       60



tatcattcct actgaagtgt ttgggggaac tcctggtgtc a                          101





<210>  2537

<211>  101

<212>  DNA

<213>  Populus trichocarpa



<400>  2537

gtgtccccta gagttcctct gagcacttca ctgggaattt ccgatcaaat gaaagagtat       60



tatcattcct actgaagtgt ttgggggaac tcctggtgtc a                          101





<210>  2538

<211>  113

<212>  DNA

<213>  Populus trichocarpa



<400>  2538

ctgtcccccg gagtttccct gaccacttca ctggggctat aattctactc ttcgtgttta       60



agggtagagg caacccttcc tcactgaagt gtttggggga actctgggtg gca             113





<210>  2539

<211>  113

<212>  DNA

<213>  Populus trichocarpa



<400>  2539

ctgtcccccg gagtttccct gaccacttca ctggggctat aattctactc ctcgtgttta       60



agggtagagg caacccttcc tcactgaagt gtttggggga actctgggag gca             113





<210>  2540

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2540

gtgtccccta gagttcctct gagcacttca ttggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2541

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2541

gtgtccccta gagttcctct gagcacttca ttggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2542

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2542

gtgtccccta gagttcctct gagcacttca atggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2543

<211>  102

<212>  DNA

<213>  Populus trichocarpa



<400>  2543

gtgtccccta gagttcctct gagcacttca atggggatct tccatcgacc tgaaagagta       60



ttatcattcc tactgaagtg tttgggggaa ctcctggtgt ca                         102





<210>  2544

<211>  74

<212>  DNA

<213>  Ricinus communis



<400>  2544

ctagagttcc cttgaacact tcactgggac gaaaatccat tcttccaact gaagtgtttg       60



ggggaactct tggt                                                         74





<210>  2545

<211>  97

<212>  DNA

<213>  Ricinus communis



<400>  2545

ctggagttcc cctggccgct tcattggggc tattatatac ccttaattat acatgtgtta       60



ttcctgccct actgaagtgt ttgggggaac tctaggt                                97





<210>  2546

<211>  82

<212>  DNA

<213>  Ricinus communis



<400>  2546

ctagagttcc cttgagcact tcactgggat gaaaaaaggt ccagtcttcc ttcctactga       60



agtgtttggg ggaactcctg gt                                                82





<210>  2547

<211>  87

<212>  DNA

<213>  Ricinus communis



<400>  2547

ctagagttcc cttgaccact tcattgtgga ttattcttca agctcaagga gttggtttac       60



actgaagtgt ttgggggaac tcctggt                                           87





<210>  2548

<211>  74

<212>  DNA

<213>  Ricinus communis



<400>  2548

ctagagttcc cttgaacact tcactgggac gaaaatccat tcttccaact gaagtgtttg       60



ggggaactct tggt                                                         74





<210>  2549

<211>  150

<212>  DNA

<213>  Sorghum bicolor



<400>  2549

ggttggttgg ttgtcacctg gagttctcca caaactactt cagtagcaac acacacccct       60



agtttaatgc accgtgtttg catgtttgtg tggagctgtg tgtgtacata gtgaagtgtt      120



tgggggaact ctgggtggca atcagcaatt                                       150





<210>  2550

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  2550

gttaggtttg gtgtccctag gagttctctg caagcacttc acgaggcatc gttttgagag       60



cttttgtgaa gtgtttgggg gaactcttag tgtcacaaat cattt                      105





<210>  2551

<211>  73

<212>  DNA

<213>  Sorghum bicolor



<400>  2551

gagttcccta caagcacttc acgagacctt ggcttaataa agggttgttt gtgaagtgtt       60



tgggggaact ctt                                                          73





<210>  2552

<211>  103

<212>  DNA

<213>  Sorghum bicolor



<400>  2552

tcaagtttgg tgtccccagg agttctctgc aaacacttca caaagcactt ttttagagct       60



tttgtgaagt gtttggggga actcttggtg ccactgatca ttt                        103





<210>  2553

<211>  105

<212>  DNA

<213>  Sorghum bicolor



<400>  2553

attaggtttg gtgtccccgg gagttctctg caagcacttc acgaggcact attttgagag       60



cttttgtgaa gtgtttgggg gaactcttga tgccactaac cattt                      105





<210>  2554

<211>  68

<212>  DNA

<213>  Sorghum bicolor



<400>  2554

gttccctaaa agcacttcac gagaccttgg cttaataaag ggcccttgtg aagtgtttgg       60



gggaactc                                                                68





<210>  2555

<211>  81

<212>  DNA

<213>  Sorghum bicolor



<400>  2555

gttcccttca agcacttcac atgaggcacc attcaaactc tgtttaagat taggtgtaat       60



gtgaagtgtt tgggggaact c                                                 81





<210>  2556

<211>  97

<212>  DNA

<213>  Sorghum bicolor



<400>  2556

gttccctgca aacacttcac aagctagacc atatatagta tgcccttgca caatgtggta       60



tccagttacc tagctagtga agtgtttggg ggaactc                                97





<210>  2557

<211>  87

<212>  DNA

<213>  Sorghum bicolor



<400>  2557

gttcccttca agcacttcac atgaagctct ttgcattata ttggcggatg tagcattgag       60



accaatgtga agtgtttggg ggaactc                                           87





<210>  2558

<211>  94

<212>  DNA

<213>  Solanum demissum



<400>  2558

atgttcccta gagttccctt gaccgcttca ttagggttaa ctactttgtt gtttgatgcc       60



ctgctgaagt gtttggggga actcccgggc tcac                                   94





<210>  2559

<211>  199

<212>  DNA

<213>  Solanum lycopersicum



<400>  2559

agggcttact ttgatgttgg aagccttgct gaagtgtttg ggggaactcc cgggttgact       60



ttgaaaatta cgcaaacaag tatatataaa tgcatgagta cgtattagct aaagatgatg      120



agtacaatat tgattcatgt acctttggag ttcccttgac cacttcatga gagcttaata      180



tttgattgtt tgaagtcct                                                   199





<210>  2560

<211>  101

<212>  DNA

<213>  Solanum lycopersicum



<400>  2560

ttaaggtgtt ccctagagtt cccttgacca cttcatgagg gcttactttg atgttagaag       60



cgttgctgaa gtgtttgggg gaactcctgg gttgacttta a                          101





<210>  2561

<211>  77

<212>  DNA

<213>  Triticum aestivum



<400>  2561

cttacagtgg gttccttgca agcacttcat gaggcattat taaaaatgcc actgtgaagt       60



gtttggggga actcttg                                                      77





<210>  2562

<211>  124

<212>  DNA

<213>  Triticum aestivum



<400>  2562

ctgaagtgtt tgggggaact cttggtgtca ccaagcattt agtagacatt ggccacatat       60



cataagagag atgcatcaat gggctgaatg tttggtctta ccatgggttc cttgcaagca      120



cttc                                                                   124





<210>  2563

<211>  123

<212>  DNA

<213>  Theobroma cacao



<400>  2563

agagagtcag ctgtcctctg gagttcccct gaccacttca ctagaggttt cctggaccct       60



taataggaag aaacctgacc tactgaagtg tttgggggaa ctcctgttgg cacctgacaa      120



tgt                                                                    123





<210>  2564

<211>  117

<212>  DNA

<213>  Theobroma cacao



<400>  2564

tatgccaggt gcccactaga gttcccctgg gcacttcagt tgatttcttt agagctcaaa       60



acctcttacc tgtctactga agtgtttggg ggaactccgg ttgccatctg agacagt         117





<210>  2565

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2565

gtcccctaga gttcccttga tcacttcact agggagcttc gctagtttta atgacttcct       60



actgaagtgt ttgggggaac tcctggtacc ga                                     92





<210>  2566

<211>  90

<212>  DNA

<213>  Vitis vinifera



<400>  2566

gtcccctaga gttcccctta ccacttcact ggggatcttc tctaatgaat gcctacgtac       60



tgaagtgttt gggggaactc ctggtgccat                                        90





<210>  2567

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2567

gtcccctaga gttcccttga ccacttcact ggggaccttc tctagttata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2568

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2568

gccccctaga gttcccctga ccacttcatt ggggatcttc tctaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2569

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2569

ctcccctaga gttcccttga ccacttcact ggggaccttc tctaattata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2570

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2570

gtaccctaga gttcccctga ccacttcact ggggatcttc tctaatgact tcccactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2571

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2571

gtcccctaga gttcccctga gcacttcatt ggggatcctt agttttcaat tcctactgaa       60



gtgtttgggg gaactcccgg tgtcat                                            86





<210>  2572

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2572

gtcccctaga gttcccttga ccacttcact ggggaccttc tctaattata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgct at                                     92





<210>  2573

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2573

gccccctaga gttcccctga ccacttcact ggggatcttc tgtaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2574

<211>  86

<212>  DNA

<213>  Vitis vinifera



<400>  2574

gccccctaga gttcccctga ccacttcact ggggatcttc tttaatgact tcctactgaa       60



gtgtttgggg gaactcctgg tgtcat                                            86





<210>  2575

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2575

tcccctagag ttcccttgac cacttcactg gggaccttct ctaattataa tgacttccta       60



ctgaagtgtt tgggggaact cctggtgcca tt                                     92





<210>  2576

<211>  87

<212>  DNA

<213>  Vitis vinifera



<400>  2576

gccccctaga gttcccctga ccacttcact gggggatctt ctgtaatgac ttcctactga       60



agtgtttggg ggaactcctg gtgtcat                                           87





<210>  2577

<211>  92

<212>  DNA

<213>  Vitis vinifera



<400>  2577

gtcccctaga gttcccttga acacttcact ggggaccttc tctagttata atgacttcct       60



actgaagtgt ttgggggaac tcctggtgcc at                                     92





<210>  2578

<211>  149

<212>  DNA

<213>  Zea mays



<400>  2578

tattggttgg ttgtcacctg gagttctcct caaaccactt cagttgctgc acctagctag       60



tttaatggca ctgtgcttgc gtgcaagcgg ccggagctgt gtgtagctag tgaagtgttt      120



gggggaactc tgggtgtcaa tcagcaatt                                        149





<210>  2579

<211>  114

<212>  DNA

<213>  Zea mays



<400>  2579

gcaacgtttt gtgttactag gagttcccta caagcacttc acaatacctt ggctcaataa       60



attaaaggcc agttgtgaag tgtttggggg aactcttggt atcatgaagc attt            114





<210>  2580

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2580

agttctatgc aagcacttca cgaggcattg tttcaagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2581

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2581

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2582

<211>  70

<212>  DNA

<213>  Zea mays



<400>  2582

agttccctac aagcacttca cgataccttg gcttaataaa ggccagttgt gaagtgtttg       60



ggggaactct                                                              70





<210>  2583

<211>  85

<212>  DNA

<213>  Zea mays



<400>  2583

agttcccttc aagcacttca catgaggcac cattcaaata acacatttca agattaggtg       60



catgtgaagt gtttggggga actct                                             85





<210>  2584

<211>  66

<212>  DNA

<213>  Zea mays



<400>  2584

agttctctac aagcacttca cgaggcttcg tactgagagc ttttgtgaag tgtttggggg       60



aactct                                                                  66





<210>  2585

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2585

agttcccttc aagcacttca catgaggcac cattcaaatg acaactccat ttaagattat       60



gtgtaatgtg aagtgtttgg gggaactct                                         89





<210>  2586

<211>  111

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2586

gccaaatgtc cccatgagtt ccctttaacg cttcattgtt aaatactcaa agccacattg       60



gtttgtatat aacactgaag tgtttggggg gactcttggt gccattttgg c               111





<210>  2587

<211>  127

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2587

gtcaaatgtc tccttgagtt cccttaaacg ctttattgtt cacactttgt tgtctaagat       60



caatcgatcg attcaatcaa tctgacgaac actgaagtgt ttggggggac tctaggtgac      120



atatggc                                                                127





<210>  2588

<211>  135

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2588

gtcaactgtc cccttgagtt cccttaaacg cttcattgtt catactttgt gagtttgtgt       60



tctaagatct atcgaccgat aaatcaatct gatgaacact gaagtgtttg gggggactct      120



aggtgacatc ttggc                                                       135





<210>  2589

<211>  93

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2589

ctcaagagtt cctccgaaca cttcattgaa aaaaggttct ccattttcgt aatttttttt       60



tactgaagtg tttggaggaa ctccagatga tat                                    93





<210>  2590

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2590

atgtccccat gagttccctt taacgcttca ttgttaaata ctcaaagcca cattggtttg       60



tatacaacac tgaagtgttt ggggggactc ttggtgtcat                            100





<210>  2591

<211>  100

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2591

atgtccacat gagttccctt taacgcttca ttgttgaata ctcaaagcca cattggtttg       60



tatataacac tgaagtgttt ggggggactc ttggtgtcat                            100





<210>  2592

<211>  112

<212>  DNA

<213>  Arabidopsis thaliana



<400>  2592

atgtcccctt gagttccctt aaacgcttca ttgttcatac tttgttatca tctatcgatc       60



gatcaatcaa tctgatgaac actgaagtgt ttggggggac tctaggtgac at              112





<210>  2593

<211>  186

<212>  DNA

<213>  Gossypium hirsutum



<400>  2593

ctttttcctc gaacaactgt aacggaacgg gtgagacgga gaagggaaag gtggtgtcca       60



tttgaagcga aatcggatca tccgcaatgg aggatttagt aaaacccagg gacagacccg      120



atttagtatg aaataaatcc attgaaaccc taaaagggaa attttttgaa gtgtttgggg      180



gaactt                                                                 186





<210>  2594

<211>  72

<212>  DNA

<213>  Medicago truncatula



<400>  2594

gagttccctt aaacatttca ttaaggactc aatttcttct cttcaacctt gttgaagcgt       60



ttgggggaac tc                                                           72





<210>  2595

<211>  142

<212>  DNA

<213>  Oryza sativa



<400>  2595

ttgtccactg gagttctcct caatccactt cagtagatag ctatggctag gcctcattgc       60



attgcactgt tacataactg tgatcatggg gccaaaagct agctatgtat agtgaagtgc      120



ttgggggaac tccagttgac ac                                               142





<210>  2596

<211>  142

<212>  DNA

<213>  Oryza sativa



<400>  2596

ttgtccactg gagttctcct caatccactt cagtagatag ctatggctag gcctcattgc       60



attgcactgt tacataactg tgatcatggg gccaaaagct agctatgtat agtgaagtgc      120



ttgggggaac tccagttgac ac                                               142





<210>  2597

<211>  89

<212>  DNA

<213>  Oryza sativa



<400>  2597

gtattatcaa gagttctctt taagcacttc atacgacacc attatttata gggttgttgt       60



gaagtgtttg gaggaactct cggtgtcat                                         89





<210>  2598

<211>  82

<212>  DNA

<213>  Oryza sativa



<400>  2598

ttatcgcggg ttcccttcaa tcacttcaca tggtactatt tcaaggccta ctatgtgaat       60



tgtttggggg aactctcgat gt                                                82





<210>  2599

<211>  143

<212>  DNA

<213>  Oryza sativa



<400>  2599

ttatccactg gagttctcct caaaccactt cagcagatag ctagctaggc ctcattgcat       60



tgcaccactg ttgcataact atgagcatgg ggccaaaagt tagctgctta tagtgaagtg      120



tttggggaaa ctccggttgg caa                                              143





<210>  2600

<211>  80

<212>  DNA

<213>  Sorghum bicolor



<400>  2600

gttcccttca agcacttcac atgaagcttc acattggcag atgtagtctt gagaccaatg       60



tgaagtgttt ggaggaactc                                                   80





<210>  2601

<211>  84

<212>  DNA

<213>  Sorghum bicolor



<400>  2601

gttcccttca agcacttcac atggagcatt atttgtcttg gagaaagctt aatttgatgc       60



attgtgaagt gcttggggga actc                                              84





<210>  2602

<211>  138

<212>  DNA

<213>  Zea mays



<400>  2602

tcttggttgg ttctcccttg gagttccctg caaacacttc accagctagg ccatagtgcc       60



ggcccttgca caatgttgta tctgatcacc tagctagtgt gaagtgtttg gaggaactct      120



aggtgttatc cagcaatg                                                    138





<210>  2603

<211>  81

<212>  DNA

<213>  Zea mays



<400>  2603

agttccttcc aaacacttca ccagctaggc catgcacaag atgaacccac attaggctag       60



tgaagtgttt ggaggaactc t                                                 81





<210>  2604

<211>  82

<212>  DNA

<213>  Zea mays



<400>  2604

agttcctttc aaacacttca catggagctt ctcattggtg gatatattct tgagacccgt       60



gtgaagtgtt tggaggaact ct                                                82





<210>  2605

<211>  226

<212>  DNA

<213>  Zea mays



<400>  2605

agttctcttc aagcacttca cgaggcatca cactgagagc ttttgtgaag tgtttggggg       60



aactcttggt gtcacaaatc atttgcattt gcttgatgtt agtcatgcac catgtgatat      120



gagataaagg acatggcaac gttttgtgtt actaggagtt ccctacaagc acttcatgag      180



accttgactt aataaagggc cattgtgaag tgtttgggtg aactct                     226





<210>  2606

<211>  166

<212>  DNA

<213>  Arabidopsis lyrata



<400>  2606

atgacagagc tacaagaaga aagtcaaatg tcttcatgag ttccctttaa cgcttcattg       60



ttaatattca aactacattt atttccataa atgtttgatc gatttgtata taacactgaa      120



gtgtttgggg ggacttttgg tgtcattctg gcgtagttac gattat                     166





<210>  2607

<211>  100

<212>  DNA

<213>  Aquilegia caerulea



<400>  2607

tggagttcct cctgccgctt cagtaatgat ctattaattc ctagctagtt aactagtttt       60



tgacaatctt aattactgaa gggtttggag gaactctaag                            100





<210>  2608

<211>  80

<212>  DNA

<213>  Aquilegia caerulea



<400>  2608

cctggagttt ctcctgccgc ttcaggaacg atcaattgca aaatttgtta ttactgaagg       60



gtttggagga actctgggtg                                                   80





<210>  2609

<211>  84

<212>  DNA

<213>  Gossypium hirsutum



<400>  2609

gagttcccct gaccacttca ttggggatat attaaaaacc ttaactgagg aaattttttc       60



ctactaaagt gtttagggga actc                                              84





<210>  2610

<211>  86

<212>  DNA

<213>  Oryza sativa



<400>  2610

acactgccag gaattccctt caagcaattc atgaaacaat attttgagag ttgttgtgaa       60



gcgtttgggg gaaatctcag tgtcgc                                            86





<210>  2611

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2611

gaattctctt taagcacttc atacgacaca attatttcaa gggttgttgt gaagtatttg       60



gcggaactc                                                               69





<210>  2612

<211>  103

<212>  DNA

<213>  Picea abies



<400>  2612

ctcacagctg gttctcaatg ccgggagttc cttcaatcac ttcgccgaat ccgaaagcat       60



ttcactgaag tgtttggagg aacttcgggc gtcactgaac tgc                        103





<210>  2613

<211>  226

<212>  DNA

<213>  Populus trichocarpa



<400>  2613

ggtcaccctg agttcctcct agcttcttca gtacccgtgg aaagctaatg ctacaattat       60



cttgagctgg taagactggc aggtgtcaga tgtggatgtg ttaaaggtaa tattattgat      120



tatttacggc gccattcaag tatttgttct actgttagag gatttaatca agtatatgtg      180



gtattactcc tgatttgctg aagggtttgg aggaactcta ggtgct                     226





<210>  2614

<211>  84

<212>  DNA

<213>  Zea mays



<400>  2614

agtttccttc aagcacttca catggagcat tctgtcttag agaaagctta atttattgca       60



ttgtgaagtg tttgaggaaa ctct                                              84





<210>  2615

<211>  148

<212>  DNA

<213>  Brachypodium distachyon



<400>  2615

agctcctgga cgaacggttg gttgtttcct ggggttccct ccaaacactt cagcaggtcg       60



gctttcctat actagctcac aggctgaagg gtgaagtgtt tggggaactc taggtgacaa      120



ccgccatttt atcaaggtca aactgctg                                         148





<210>  2616

<211>  96

<212>  DNA

<213>  Oryza sativa



<400>  2616

atttggtatc gccatgagtt ctcttcaaac tcttcatacg acactaattc aagtgatgtt       60



gtgaagtgtt tggagtagct cttggtgtca ccaaac                                 96





<210>  2617

<211>  137

<212>  DNA

<213>  Vitis vinifera



<400>  2617

ggccttgaga gttcccccaa cccctccagt atgaccatct ctcttcttct tttaatttgt       60



tcatcaaatc ttcttctact atctatttcc agggtgattt cctctactga agagtctgga      120



ggaactcttg gtgccac                                                     137





<210>  2618

<211>  69

<212>  DNA

<213>  Oryza sativa



<400>  2618

gagttctctt taatcatttc acatggcact attttaaggc ctactgtgtg aagtgtttgg       60



gggattctc                                                               69





<210>  2619

<211>  178

<212>  DNA

<213>  Physcomitrella patens



<400>  2619

aattttgaaa ccttcttttg cttcatattc tagtcgttgg tttatggtgc ctaagaaaaa       60



tggatcgtta tgttttattc aagatataca gccaatgaat gtagtaacta taagaaatgc      120



aggtatagga tctttaatag atgagtttgc tgaagcgttt gggggaaggg caatttat        178





<210>  2620

<211>  276

<212>  DNA

<213>  Brassica napus



<400>  2620

gtttcaggca gtctccttgg ctatcttgac atgctttttt cttccatgtt ataccttctt       60



tctttgtatt tttcgaatcc aaataatatt tttttctata aatttactac gaaaatcctt      120



taaacaatct ctaacaaagt atgttattag aaaactacca ctttttgcat ttattacaaa      180



tgcatgtacg tggtgagtgt atgcattctt tagaaggaaa tgtcaaaggt gaatagaaga      240



tcatatttgg tagccaagga tgacttgcct atttct                                276





<210>  2621

<211>  125

<212>  DNA

<213>  Sorghum bicolor



<400>  2621

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acatggcatt gcgagttccg       60



gttgcatggc cagttcagct gagtttgtgg gcggtcacct tgggacggta tcgataagct      120



tgata                                                                  125





<210>  2622

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2622

tagccaagga tgacttgcct atgtcctttg tttacaaagg acctgaatgt gtggaccatt       60



gagaggttca taggcagtct ccttggcta                                         89





<210>  2623

<211>  155

<212>  DNA

<213>  Sorghum bicolor



<400>  2623

gcgataagag tctgcccaga tagccaagga tgacttgcct gtggcctctt ggcttggctt       60



gagagcttat taactctgtg cacgtttaat ttggctcttc ttggggcctc gatcacaggg      120



cagtctccct tggctagtcc ggggcgggct cctta                                 155





<210>  2624

<211>  191

<212>  DNA

<213>  Zea mays



<400>  2624

gtagccaagg atgacttgcc ggccgacata tgcctctctc gttcgtccct gaccggccgg       60



gaaacacatc acgccgcatg catgcatgca tgcatatgtg tgtacgtact acgtgtgcat      120



gcatgcatgt gctgccgcgc gcagcaaact gcgaggaatc gtccgtccgg caggttcttc      180



tctttggcta c                                                           191





<210>  2625

<211>  145

<212>  DNA

<213>  Zea mays



<400>  2625

cccggcagct cgatcgtgtg ctagctcatc agcttacact tagcaagcaa atgaagcatg       60



cagttctcgc catgagtata aattatcatc tgaggccttg catgtgggga tgaggctgtt      120



atgtagccaa ggatgacttg ccggg                                            145





<210>  2626

<211>  69

<212>  DNA

<213>  Zea mays



<400>  2626

cgcgtagcca aggatgactt gccggcatta tatttcttgg cccgccggca agtcatctgg       60



ggctacgcg                                                               69





<210>  2627

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2627

tagccaagga tgacttgcct atgtcctttg tttacaaagg atcagaattg tggacctttg       60



tgttggttcg taggcagtct ccttggcta                                         89





<210>  2628

<211>  131

<212>  DNA

<213>  Zea mays



<400>  2628

tgtagccaag gatgacttgc cggccgatgc ctcctcgata tacaatcgtc gcacatccct       60



gggcggccgg gaacgtcgca tgcatgcaaa ctgttggggc atcggccggc aggttcttct      120



ctttggctac a                                                           131





<210>  2629

<211>  95

<212>  DNA

<213>  Zea mays



<400>  2629

cagccaagga tgacttgccg gctcctggaa cctggaggcg tctcagcttg ctgtgctgtg       60



gcttagaact tagtcggcaa gtctgtcctt ggcta                                  95





<210>  2630

<211>  125

<212>  DNA

<213>  Sorghum bicolor



<400>  2630

tggcgagagc ctgcctttgg tagccaagga tgacttgcct acatggcatt gcgagttccg       60



gttgcatggc cagttcagct gagtttgtgg gcggtcacct tgggacggta tcgataagct      120



tgata                                                                  125





<210>  2631

<211>  276

<212>  DNA

<213>  Brassica napus



<400>  2631

gtttcaggca gtctccttgg ctatcttgac atgctttttt cttccatgtt ataccttctt       60



tctttgtatt tttcgaatcc aaataatatt tttttctata aatttactac gaaaatcctt      120



taaacaatct ctaacaaagt atgttattag aaaactacca ctttttgcat ttattacaaa      180



tgcatgtacg tggtgagtgt atgcattctt tagaaggaaa tgtcaaaggt gaatagaaga      240



tcatatttgg tagccaagga tgacttgcct atttct                                276





<210>  2632

<211>  121

<212>  DNA

<213>  Brachypodium distachyon



<400>  2632

gcagagaagg ggatgcagcc aaggatgact tgccgactcc tggtgttggg ggaattgcag       60



ctttgttgag ccttgagtta gccggcaggt tgtccttggc tacacctagt tctcttcttc      120



t                                                                      121





<210>  2633

<211>  91

<212>  DNA

<213>  Sorghum bicolor



<400>  2633

cagccaagga tgacttgccg atcgatcgat gcaaactcct ctgatgtctg atctcatcag       60



attatcgttg tcggaaagtt gttcttggct a                                      91





<210>  2634

<211>  95

<212>  DNA

<213>  Medicago truncatula



<400>  2634

aagccaagga tgacttgctg ggctaaaaac cattacatgg gacctgatga gtatgtccct       60



tgtttagttt ccggcaggcg ggttatccta ggctt                                  95





<210>  2635

<211>  240

<212>  DNA

<213>  Sorghum bicolor





<220>

<221>  misc_feature

<222>  (205)..(205)

<223>  n is a, c, g, or t



<400>  2635

agagtggttg gtagctctgg tagccaagga tgacttgcct gtgtgccggc ctcgatcgat       60



ctcccggccc tctcaaggat cgatcatcgt gcgtgcgtgt cgatcgatcg tcgtcgtcgt      120



cgtcacctct ggcagagagc gagacgatga tcgatcgatt agccgcgcgc cttgggttgt      180



tggggtgtgg tcgcggtctc acagncagtc tccttggcta gccctgactc actcttatca      240





<210>  2636

<211>  97

<212>  DNA

<213>  Sorghum bicolor



<400>  2636

gctagccaag gagactgcct atgaaccatc tatctcaaag gctcacattt ctgatccttc       60



ggcacaaagg acacaggcaa gtcatccttg gctatca                                97





<210>  2637

<211>  155

<212>  DNA

<213>  Sorghum bicolor



<400>  2637

gcgataagag tctgcccaga tagccaagga tgacttgcct gtggcctctt ggcttggctt       60



gagagcttat taactctgtg cacgtttaat ttggctcttc ttggggcctc gatcacaggg      120



cagtctccct tggctagtcc ggggcgggct cctta                                 155





<210>  2638

<211>  145

<212>  DNA

<213>  Zea mays



<400>  2638

cccggcagct cgatcgtgtg ctagctcatc agcttacact tagcaagcaa atgaagcatg       60



cagttctcgc catgagtata aattatcatc tgaggccttg catgtgggga tgaggctgtt      120



atgtagccaa ggatgacttg ccggg                                            145





<210>  2639

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2639

tagccaagga tgacttgcct atgtcctttg tttacaaagg atcagaattg tggacctttg       60



tgttggttcg taggcagtct ccttggcta                                         89





<210>  2640

<211>  82

<212>  DNA

<213>  Medicago truncatula



<400>  2640

tagccaagga caacttgccg gcacaatgag gcagaaatca catgaacatt cgccaatgtt       60



gtcggcaagt catccttggc tg                                                82





<210>  2641

<211>  69

<212>  DNA

<213>  Zea mays



<400>  2641

cgcgtagcca aggatgactt gccggcatta tatttcttgg cccgccggca agtcatctgg       60



ggctacgcg                                                               69





<210>  2642

<211>  191

<212>  DNA

<213>  Zea mays



<400>  2642

gtagccaagg atgacttgcc ggccgacata tgcctctctc gttcgtccct gaccggccgg       60



gaaacacatc acgccgcatg catgcatgca tgcatatgtg tgtacgtact acgtgtgcat      120



gcatgcatgt gctgccgcgc gcagcaaact gcgaggaatc gtccgtccgg caggttcttc      180



tctttggcta c                                                           191





<210>  2643

<211>  89

<212>  DNA

<213>  Zea mays



<400>  2643

tagccaagga tgacttgcct atgtcctttg tttacaaagg acctgaatgt gtggaccatt       60



gagaggttca taggcagtct ccttggcta                                         89





<210>  2644

<211>  257

<212>  DNA

<213>  Zea mays



<400>  2644

gtgaagtgtt tggaggaact ctaggtgtta tccagcaatg tttcatagtt tgtgaaactg       60



taaaaggttt tggtaagacg atgatcagat ttggtgttat catgagttcc tttcaaacac      120



ttcacatgca gcttctcatt ggtggatata ttcttgagac ccgtgtgaag tgtttggagg      180



aactcttgat accaataagt ttttccccca aatataatag ctggttgctt ccccggagtt      240



ccttccaaac acttcac                                                     257





<210>  2645

<211>  81

<212>  DNA

<213>  Zea mays



<400>  2645

gagttccttt caaacacttc acatggagct tctcattggt cgatatattc ttgagacccg       60



tgtgaagtgt ttggaggaac t                                                 81





<210>  2646

<211>  84

<212>  DNA

<213>  Zea mays



<400>  2646

gagtttcctt caagcacttc acatggagca ttctgtctta gagaaagctt aatttattgc       60



attgtgaagt gtttgaggaa actc                                              84





<210>  2647

<211>  208

<212>  DNA

<213>  Sorghum bicolor



<400>  2647

gcactatttt gagagctttt gtgaagtgtt tgggggaact cttgatgcca ctaaccattt       60



gctagaggtt ggccaagtgt gtgctacatg agccaagtgt gtgctacatg aaatgatttg      120



aagacaaatc acatttggaa attatatatc aagtttggtg tccccaggag ttctctgcaa      180



acacttcaca aagcactttt ttagagct                                         208





<210>  2648

<211>  104

<212>  DNA

<213>  Sorghum bicolor



<400>  2648

tcaagtttgg tgtcccccag gagttctctg caaacacttc acaaagcact tttttagagc       60



ttttgtgaag tgtttggggg aactcttggt gccactgatc attt                       104





<210>  2649

<211>  142

<212>  DNA

<213>  Zea mays



<400>  2649

gcgggggcga cctgagaaca catgcagcat tattatgcgt acaagatgaa cggcgacgac       60



ggtggtccag gccagcacga accgtaccgc gaggcgagca atctcatctc attattctca      120



tgtgttctca gttcgccccc gc                                               142





<210>  2650

<211>  142

<212>  DNA

<213>  Zea mays



<400>  2650

gcgggggcga actgagaaca catgagaata atgagatgag attgctcgcc tcgcggtacg       60



gttcgtgctg gcctggacca ccgtcgtcgc cgttcatctt gtacgcataa taatgctgca      120



tgtgttctca ggtcgccccc gc                                               142





<210>  2651

<211>  77

<212>  DNA

<213>  Medicago truncatula



<400>  2651

cagggtcgac atgagagcac atgaagctat catggttgtc tatgttatcc aactcatgtg       60



ttctcaggtc gcccctg                                                      77





<210>  2652

<211>  67

<212>  DNA

<213>  Gossypium hirsutum



<400>  2652

gaggggtgcc acctaagaac acaggtcatc ccttaaccaa atagcttgtg ttctcaggtc       60



acccctt                                                                 67





<210>  2653

<211>  80

<212>  DNA

<213>  Zea mays



<400>  2653

tcattgagcg cagcgttgat gagccagccg ccgtgcctcc cctgtcggct gcggcggctc       60



accagcgctg cactcaatta                                                   80





<210>  2654

<211>  257

<212>  DNA

<213>  Zea mays



<400>  2654

gtgaagtgtt tggaggaact ctaggtgtta tccagcaatg tttcatagtt tgtgaaactg       60



taaaaggttt tggtaagacg atgatcagat ttggtgttat catgagttcc tttcaaacac      120



ttcacatgca gcttctcatt ggtggatata ttcttgagac ccgtgtgaag tgtttggagg      180



aactcttgat accaataagt ttttccccca aatataatag ctggttgctt ccccggagtt      240



ccttccaaac acttcac                                                     257





<210>  2655

<211>  81

<212>  DNA

<213>  Zea mays



<400>  2655

gagttccttt caaacacttc acatggagct tctcattggt cgatatattc ttgagacccg       60



tgtgaagtgt ttggaggaac t                                                 81





<210>  2656

<211>  84

<212>  DNA

<213>  Zea mays



<400>  2656

gagtttcctt caagcacttc acatggagca ttctgtctta gagaaagctt aatttattgc       60



attgtgaagt gtttgaggaa actc                                              84





<210>  2657

<211>  208

<212>  DNA

<213>  Sorghum bicolor



<400>  2657

gcactatttt gagagctttt gtgaagtgtt tgggggaact cttgatgcca ctaaccattt       60



gctagaggtt ggccaagtgt gtgctacatg agccaagtgt gtgctacatg aaatgatttg      120



aagacaaatc acatttggaa attatatatc aagtttggtg tccccaggag ttctctgcaa      180



acacttcaca aagcactttt ttagagct                                         208





<210>  2658

<211>  104

<212>  DNA

<213>  Sorghum bicolor



<400>  2658

tcaagtttgg tgtcccccag gagttctctg caaacacttc acaaagcact tttttagagc       60



ttttgtgaag tgtttggggg aactcttggt gccactgatc attt                       104





<210>  2659

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2659

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactcatcc                  50





<210>  2660

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2660

cggcgggaaa taggatagga ggag                                              24





<210>  2661

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2661

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgaccaccta                  50





<210>  2662

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2662

cgcgctcggc atgtgtagga                                                   20





<210>  2663

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2663

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactgtgtc                  50





<210>  2664

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2664

cgtcaggtag cggcctaaga ac                                                22





<210>  2665

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2665

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacggtagc                  50





<210>  2666

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2666

cgcgcggcaa atcatccct                                                    19





<210>  2667

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2667

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactcccct                  50





<210>  2668

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2668

ctgcagggct gatttggtga ca                                                22





<210>  2669

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2669

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactggagg                  50





<210>  2670

<211>  18

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2670

cgcgcaatcc cggtggaa                                                     18





<210>  2671

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2671

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactcccgc                  50





<210>  2672

<211>  19

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2672

gccgcctgag gggaaatcg                                                    19





<210>  2673

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2673

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacatgagc                  50





<210>  2674

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2674

cggcgggaat ctatcgtttg g                                                 21





<210>  2675

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2675

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacaccaca                  50





<210>  2676

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2676

cggcgggtca agtgactaag agca                                              24





<210>  2677

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2677

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacttgagc                  50





<210>  2678

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2678

ccggtggcga tgcaagagga                                                   20





<210>  2679

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2679

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacgccatt                  50





<210>  2680

<211>  24

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2680

cggcggacaa aggaattaga acgg                                              24





<210>  2681

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2681

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacaccaga                  50





<210>  2682

<211>  22

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2682

cgtcgagaga gaagggagcg ga                                                22





<210>  2683

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2683

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacaaccag                  50





<210>  2684

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2684

cggcggtgat attatggacg a                                                 21





<210>  2685

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2685

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgaccgggca                  50





<210>  2686

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2686

cgcgctagcc aagcatgatt                                                   20





<210>  2687

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2687

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgactgtttg                  50





<210>  2688

<211>  21

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2688

cggcggttag atgaccatca g                                                 21





<210>  2689

<211>  50

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2689

gtcgtatcca gtgcagggtc cgaggtattc gcactggata cgacgagttc                  50





<210>  2690

<211>  20

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Single strand DNA oligonucleotide



<400>  2690

cgcgcgtgaa gtgtttgggg                                                   20





<210>  2691

<211>  122

<212>  DNA

<213>  Zea mays



<400>  2691

ccaagtcgag ggcagaccag gcgaagacgt ctttgttctt ggacaaacag cagaggagtt       60



tctcctcttc atgcgaagtg aggtcttcgc tgatggtgac cgtctgcttg ggcgtggcct      120



gg                                                                     122





<210>  2692

<211>  419

<212>  DNA

<213>  Zea mays



<400>  2692

aggatgctga cgcaatgtga tttctgccca gtgctctgaa tgtcaaagtg aagaaattca       60



accaagcgcg ggtaaacggc gggagtaact atgactctct taaggtagcc aaatgcctcg      120



tcatctaatt agtgacgcgc atgaatggat taacgagatt cccactgtcc ctgtctacta      180



tccagcgaaa ccacagccaa gggaacgggc ttggcggaat cagcggggaa agaagaccct      240



gttgagcttg actctagtcc gactttgtga aatgacttga gaggtgtagg ataagtggga      300



gcctccgggc gcaagtgaaa taccactact tttaacgtta ttttacttat tccgtgggtc      360



ggaagcgggg caccgcccct ccttttggct ccaaggcccc ggcctcgccg ggccgatcc       419





<210>  2693

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2693

agagacatgt gactaagaac atgtagt                                           27





<210>  2694

<211>  89

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2694

gtactccctc cgtttctttt tagttgtcgc tggatagttc aattttgcac tatccagcga       60



tcgacaacta aaacgaaacg gaaggagta                                         89





<210>  2695

<211>  43

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2695

gcacccgggg ttacccctca aggtgctttt aggagtagga cgg                         43





<210>  2696

<211>  100

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2696

acaaaggaac tagaacggaa tggctccaat tagggaatat tctcctcaga tccggaatca       60



ttccgctcca aaaaatcaac cggacggagc cgctccgttc                            100





<210>  2697

<211>  271

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2697

acggaaccgt tctgtcccag ttttgttgtt gtttggttac aaagtaacta gaacgaaatg       60



gctccaatta ggaaatattc tcctcaaatc cggaaccatt ccgctccaaa aaatcaatgg      120



gacggagccg ctctgttcca atcccgctct cacagtcacg ctctgttccg ttcactatgc      180



aaccaaacaa aaaacagaac cgctccgttc cagattacca aacacagaac agagcggctc      240



cgttcctaga atcaggaatg gaacggctcc g                                     271





<210>  2698

<211>  271

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2698

acggaaccgt tccgtcccag ttttattgtt gtttggttac aaagtaacta gaacggaatg       60



gctccaatta gggaatattc tcctcagatc cggaaccatt ccgctccaaa aaatcaatgg      120



gacggagccg ctctgttcca atcccgctct cacagtcacg ctccgttccg ttcactatgc      180



aaccaaacaa aaaacagaac cgctccgttc cagattacca aacacagaac agagcggctc      240



cgttcctaga atcagggatg gaacggctct g                                     271





<210>  2699

<211>  119

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2699

tcctcctctc gcgaccggcg agtctagccc ctcatccgct cctcaatgtc ggtcaccgaa       60



cggtgaggag gaaactggag cggggcgcga ggcgcagagt cacgggcgag aagaggacg       119





<210>  2700

<211>  280

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2700

aggacctagg tgagcgggcg gttttcgcag ggctacgagg cgcggtaata gaaaagggat       60



acgatcacaa cacttgaaat gacgaacgtc gattttacgg ttgaagagca gctgatgaag      120



caaaaaagga caaagaccat cacatgaaca agtttctgca acaggggttg gcctgtttgc      180



ccatcatgat ccattttcct ccgggccctg ccaacaagtg agaaacttag ccgcctccga      240



tactactaat cttttgttat gcacaataac tctcatctag                            280





<210>  2701

<211>  225

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2701

aggacgctgc tggagacgga gaatatatag aggacagaat cttttagagt gttctgtaaa       60



ggacagagaa tattccttta cgggacgaaa tttaggggac gctgctggag acagtttaag      120



actgtctcca gcaacgtcct ctatattcat catctatatc tgtcctttac agtctcctct      180



aaaagatttc atcatttata tctccttttt ctccaacaac gtcct                      225





<210>  2702

<211>  129

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2702

agggcatgtt cggtttgaag gggtttgagg gggattggag gggattaaat cccctcctat       60



ttaaatttgt atagaagggg atttaatccc ctccaatccc tctcgtccac ccctaaccga      120



acaagccct                                                              129





<210>  2703

<211>  341

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2703

atctttcaac ggctgcgaag aaggaacaat aatattatat gcctgaaaat aatgccgaag       60



cttcctggat gccattagaa cggcatacaa caccttctcc agttctgtat aatttttctt      120



tgagacacta aggacctcag atacaaaata tactgggacc tgcttcttga tttgtccatc      180



aaacttctcc tgcacaagtg ccgcacttac tgctgagtgc gaagctgcca catacaacaa      240



cagaggagcc cctggcattg gtggagttaa tgttgttaga tctatcaggt attgcttgag      300



ttcttcgaaa gctttttgtt gagctgggcc ccattgaaag a                          341





<210>  2704

<211>  328

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2704

ggagtgttat gtcccagttt tgttgttgtt ggttacaaag tagctagaac ggagtggctc       60



caattagaga atattctcct caaatccgga accataccac tccaaaaaat caaccggacg      120



gagccgctcc gttcccagcc cgctcgcaca gtcacgcgac tcaggtacct gctaatttct      180



acttcagtga ctcttcaacc aaacaaagga tggagccgct ctgttccagt tcactctgca      240



accaaacaaa aaacagagcc gctccgttcc agcttaccaa acacagaaca gagcggctcc      300



gttcctagaa ttagggatgg aacggctc                                         328





<210>  2705

<211>  55

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2705

ccctgtcgtc ctccctcgtc cctccaattt tgagggataa ctggggacaa cactg            55





<210>  2706

<211>  224

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2706

ctgtacctgc actccccatt tccacactgt ctctctcctc tccgcagctc tctgcgggcg       60



cgcgcggctg ctggcgggcc ccaggtgtca tagactgcat gcggagtggg atggggagtg      120



ttgctggaaa cggagacgga tacggagagg agagagaatg tgtcggccgc gcgttttagg      180



gatacggaga gggagtctgc tggagttggt ctaacaataa agac                       224





<210>  2707

<211>  242

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2707

tccagcagac tccctctccg tatccctaaa acgcacggcc aacagttttt ctctcctctc       60



cgtatctgtc tccgtttcca gcagactccg tatttgcact ccgcatgcag tctatgacac      120



ctggggcccg cgagcagccg cgcgcgcatg cagtgagctg cggagaggag agagaaagcg      180



tggaaaaagg gaatgcaggt acaggccgtg cgttttaggg agacggatgc ggagactgct      240



gg                                                                     242





<210>  2708

<211>  108

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2708

ggttaggggt ggattgaggg ggattggagg ggattaaatc cccttctata caaatttgaa       60



taggagatga tttaatcccc tccaatcccc ctcaatgcac ctcaaacc                   108





<210>  2709

<211>  27

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2709

agagacatgt gactaagaac atgtagt                                           27





<210>  2710

<211>  92

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2710

gtggaatgga ggagattgag gggactagaa tccctcacta tttaaaattg aatagtaggg       60



gattctagcc ccctcaatcc cctctattac cc                                     92





<210>  2711

<211>  85

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2711

tggctgaagg cagaaccagg ggaggcagcc taccccttag agccttaata ggtagtatag       60



attcctgttg gttgtcttta gacca                                             85





<210>  2712

<211>  57

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2712

gttctccgct ccctacacac cacagcaaaa tggtgtggta gagaggaaga acaggac          57





<210>  2713

<211>  89

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2713

agggactctc tttatttccg acggccaagg tggtgggccg tcggaaatag acgtatttcc       60



gacggctggc cgtaggccgt cggaaataa                                         89





<210>  2714

<211>  43

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2714

gctcccagga aacgcggcta gggttcgttt tctgggagcg cgg                         43





<210>  2715

<211>  334

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2715

agtcgctccg ttcccagccc gctcgcacag ctcgccctcc catctgtgtg cagcagctcg       60



cgcgcctccc tctgcaacca aacaaaaaac agagccgctc tgttccagtt cactctgcaa      120



ccaaacaaaa aacatagtcg ctccgttcca acttaggcca tgttcgtttg cgtcggattg      180



cacccggaat caagtcagct aatcaaagtt tatataaatt agagaagcaa tccggttagt      240



aatcgttctg acccaccaat ccggcacaaa cgaacaaggt cttaccaaac acagaacaga      300



gcggctccgt tcctagaatc agggatggaa cggc                                  334





<210>  2716

<211>  31

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2716

ccgttgttgg gagctctctg ttcgatggcg c                                      31





<210>  2717

<211>  58

<212>  DNA

<213>  Zea mays



<400>  2717

aacgtcgtgt cgtgcttggg ctgtagcctc ggtccatagt gctagcccgg cccgacac         58





<210>  2718

<211>  417

<212>  DNA

<213>  Zea mays



<400>  2718

acctggacca atacatgaga ttcttgtgct atttggggga tttggtcttc tactaggagg       60



tctaggagta gtattactta ccaacccaat ttattctgcc ttttcgctag gattagttct      120



tgtttgtata tccttattct attttttatt aaattcctac tttgtagctg tcgcacaact      180



tcttatttat gtgggagcca taaatgtctt gatcatattt gctgtaatgt ttgtaaacgg      240



ctcagagtgg tctaaagata agaattattg gactattgga gatgggttta ctttactcct      300



ttgtataact attccttttt cactaatgac tactatccca gatacgtcgt ggtatggaat      360



tctttggact acaagatcaa accaaatagt agaacagggt ctcataaata acgttca         417





<210>  2719

<211>  271

<212>  DNA

<213>  Zea mays



<400>  2719

agaagcgaca atgggacgga gttcaagaac tctcaaattg aaagcttcct tgaggaggag       60



ggcatcaagc atgagttctc ttctccctac actccacaac aaaatggtgt agtggagagg      120



aagaatcgaa ctctattgga catggcaaga accatgcttg atgagtacaa gacaccggac      180



cggttttggg ccgaagcgat caacaccgcc tgctacgcca tcaaccggtt atatcttcac      240



cgaatcctca agaagacatc atatgaactc c                                     271





<210>  2720

<211>  223

<212>  DNA

<213>  Zea mays



<400>  2720

tttatcctcg tcgtatcctt tatatggaaa tccggggcca gagggtcatt cccttgactc       60



gtactgatga gaagtttttt actccatcaa aaattgaaca aaaagctgcc gaattggtct      120



atttcttgcg tgtaccaatt gaagtatttt gagtaccagt tgcaattgta aggggatttt      180



cgagtattta tctaaagtaa aggaaggaac aaacgaggat aag                        223





<210>  2721

<211>  43

<212>  DNA

<213>  Zea mays



<400>  2721

ccaagagatg gaagggcata gctttttttg ttttttcatc ttt                         43





<210>  2722

<211>  415

<212>  DNA

<213>  Zea mays



<400>  2722

ttggctctgg caccgccgac tagctcatgt tgggatgaag aatcttcata agcttctaaa       60



gggagaacac attttaggat taacaaatgt tcattttgag aaagacatga tttgtagcgc      120



atgcccaagc agggaagcaa gttggcaccc atcatccaca caagaacatc atgacgaccg      180



acaggccgct tgagctactc cacatggatc tattcggccc gatcgcttac ataagcatcg      240



gcgggagtaa gtattgtctt gtgattgttg atgattattc tcgcttcact tgggtattct      300



ttttacagga aaaatctcaa acccaagaga ccttaaaggg attcttgaga cgggctcaaa      360



atgagtttgg cttaaggatc aagaaaataa gaagcgacaa cgggacggag ttcaa           415





<210>  2723

<211>  58

<212>  DNA

<213>  Zea mays



<400>  2723

atgcctgctg gtaccactcg ttgatttccg gaggaggagg atggagaggt acgtcagg         58





<210>  2724

<211>  44

<212>  DNA

<213>  Zea mays



<400>  2724

gatgggtagg agagcgttga tggcggcagc gcacctccta ccca                        44





<210>  2725

<211>  239

<212>  DNA

<213>  Zea mays



<400>  2725

gatggttcat aggtgacggt agtaaaattt gctgatttgt actgaaggtt gataaaaata       60



taaaaaatta ttgacagtga aagtattttc tgtatttctg tgatttctat agaaaccaat      120



ataatggtgg aaatgcccgc tggggatatc gttttagttt tagtttttga caagtggatg      180



tgtaattaat atgtgatcac gcgatctgtt gtttcgtgct tcttcgcttt ggtactatc       239





<210>  2726

<211>  234

<212>  DNA

<213>  Zea mays



<400>  2726

gggagccgag acatagagat gtcacccaac aacaggagtc atatatatga tatgattagc       60



aaggagttgc ttaccgatct accttgtctt ctagcggtga tgctaaagct cactagtaga      120



cttgttagtt gtgggttctg aatcactaag tatcaatcga gggatattga ttttagtggg      180



agtagactat taaatgttta atatgattta ctctgtcatg gatatttttg tctt            234





<210>  2727

<211>  238

<212>  DNA

<213>  Zea mays



<400>  2727

gtgaggagtg ataatgggac ggaattcaag aacacaggtg ttgaagaatt cttaggtgaa       60



gaaggaatca aacatgagtt ctcggttcct tacactctac aacaaaatgg tgtcgtggaa      120



agaaagaacc gaactctaat tgaagcagct agaactatgt tagatgagta caagacacct      180



gacaactttt gggcagaggc ggtcaacacc acctgtcatg caatcaaccg tctctatc        238





<210>  2728

<211>  51

<212>  DNA

<213>  Zea mays



<400>  2728

ctgtagcacc cgtgctaagt actctatggt ttggggcttt agcaggttta t                51





<210>  2729

<211>  63

<212>  DNA

<213>  Zea mays



<400>  2729

cccctctcca ccccatgcat atggtagttc gtgatgaagt ttccatagct gggcggaaga       60



gat                                                                     63





<210>  2730

<211>  70

<212>  DNA

<213>  Zea mays



<400>  2730

tcggcatgtg tagcataggt gtttttcaag ttttgaagtt ttcttctttc cttgcttgtt       60



gcctgctaca                                                              70





<210>  2731

<211>  80

<212>  DNA

<213>  Zea mays



<400>  2731

tgataggccg ggtgtgtaag cgcagcgatg cgttgagcta accggtacta atgaaccgtg       60



aggcttaacc ttacaacgcc                                                   80





<210>  2732

<211>  405

<212>  DNA

<213>  Zea mays



<400>  2732

gtcctctcca tctctatggc acaaccgttt gggtcatcca tcattacaaa acattcaaaa       60



attagccaat aataatcaga ttatatgttc tagcgagtca agtagtatgt ctgtgtgtga      120



cgcttgtcaa caaggcaaga gtcaccaatt accttatcta gtgtcaacaa gtgtctctac      180



caagccttaa caactcgttt tctcggatgt atggggccca gccctcgagt ccattgatcg      240



aaagaaattc tatgtcagtt ttatagatga ttttaacaaa ttcagctgga tttatttgct      300



gaaacataat tctgaagtgt tccaaagttt tactgagttt caaaccatgg ttgagcgcct      360



atttgacacc aaaattattg ctatgcaaac agactgggga ggcga                      405





<210>  2733

<211>  339

<212>  DNA

<213>  Zea mays



<400>  2733

tttggctgaa aggataaggg aggaaattat agagatgttt cacaggagga ggaggattgc       60



acagaagttg caaggaagga ttttaccgtc ggttctgcgt atcctacacg gcagaacaag      120



aggtttaagt catttatcag tacgtaaagc tgacaactac attgctgagg taaggaacaa      180



caatgatgtg cattccaagc atattgtcaa tgctcatttg cgggaatgtt cttgcaaaga      240



gtggcagtac acgggcaaac catgtatcca tgctttgtgc ttgataacag caaacgggca      300



aaccatgtat ccatgctttt tattcttttt tcagctaga                             339





<210>  2734

<211>  58

<212>  DNA

<213>  Zea mays



<400>  2734

ctctccgccc catgcatatg gtagttcgtg atgaagtttt catagctggg cggaagag         58





<210>  2735

<211>  112

<212>  DNA

<213>  Zea mays



<400>  2735

ggaatgttgt ctggttcaag gtcttgcttt ccgatttgag gatgatccat gcttgcatgt       60



gtagtttttt ttgttcctca gatctacaag atctcggacc aggcttcatt cc              112





<210>  2736

<211>  403

<212>  DNA

<213>  Zea mays



<400>  2736

tataatgttc gcggaaggcc accttgaatt cttcccatgt tatctgatga ttggccagtt       60



gaacgaccac ggaatttccc caccaggtgc tggcagggcc gcgcagttgc tgggctgcga      120



ataaaggctt ctaggtttta gaacagcgca gaagtccgaa tttttgctcg ataacccgaa      180



tccattcgtc ggcttctaac gggtcttcag ctttaacaaa caggggtgga cgtgtctctg      240



agaagtccaa gtaagaagtt tcgcgggggc cctgttgata accccgcctg ccttattgct      300



gaaactgttg acccgccatc tctctcagaa aacgggtatt atccgcggtc gcgttcacta      360



aggcggcaat cgcctcagca agtgtgggag ggacaggagg tgg                        403





<210>  2737

<211>  108

<212>  DNA

<213>  Zea mays



<400>  2737

tgttggcatg gctcaatcaa ctcgccggcc gcgggtggct tatagcttaa ttctgcgcat       60



tcgatcgagg tgcgggcgca gtgtttaatt gattgagccg tgccaata                   108





<210>  2738

<211>  222

<212>  DNA

<213>  Zea mays



<400>  2738

gatctccggg ggaggaggat ggagaggcac atcaggcgaa cgagggacaa aaggcatgcc       60



catggaggaa gcttgacgac gaagattgtc gtcagtctcc cgctgacgcc gtgccacctc      120



atggacatca gcagaaatgt tgcggcacat ggagaaaaat gtcgcaagcc cattgaccaa      180



gcgagcaccc atcccgcggc cacgacctcg accacgacca cg                         222





<210>  2739

<211>  42

<212>  DNA

<213>  Zea mays



<400>  2739

ggctggtggg gctcgggcga aggcctgggc ctctttagac ct                          42





<210>  2740

<211>  238

<212>  DNA

<213>  Zea mays



<400>  2740

tccatccact ctcgccttag tctcttcaca acatttagag ccttctctct cactcacctc       60



aatcggttca cagtttcaaa acctcttcaa tcatggtgcg tcgtcgtaac ccttctgtga      120



ttgagtttag cagcgactcg gacgagattc aggaggaatc tcccgtcccc tctcctccgc      180



ctcgtcgctc cctctctaag agaggacgtg gctctggtag gatggatgga gagggttc        238





<210>  2741

<211>  281

<212>  DNA

<213>  Zea mays



<400>  2741

tcaacgggct ggcggatgtg gttctcggcg gactccgact ctgacctctc gcgtgggtac       60



tgcgcctgcc tcgtcgccgc gctggacggg gccaaacctg aggacgtcct cgccgtcgac      120



cccgccgatc ccgacctcgc gccgctcggg gcggggacaa cggcggcctg gtcgcgggcc      180



agcacgtggc ataatgtgct tgtcggcatg cagaagcggg cgcgcacggc catcgcggcg      240



cgcgagggta ggcaccccgg gaagccgttt ccgtcgctcg t                          281





<210>  2742

<211>  69

<212>  DNA

<213>  Zea mays



<400>  2742

tagccaagca tgatttgccc gtagtctgac tctgagtgtg ctcctgctac gggcaaatca       60



tcttggcca                                                               69





<210>  2743

<211>  71

<212>  DNA

<213>  Zea mays



<400>  2743

tccccaagaa acatcaaccc atactacatc aacgctatat caactgggaa ggatgtgagg       60



ctattgggga c                                                            71





<210>  2744

<211>  53

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2744

ttcaattcgg ctcaatcttt tctaaaaaaa aaaaagactg agccgaattg aaa              53





<210>  2745

<211>  385

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2745

tttttcttgc gtaaagctct atatttaaat ttgaggcacc aatttggggc aatgttggaa       60



atgctctaaa gacatacaac tctgagacac taattcggtt tttcaagtat aagatacgac      120



taaaaaatta catggtactt cttctgtctc agaatataag gtgtaaccac tttttattct      180



tgtcttataa tataagacgt gctctcttta tggacacata catcgatata gtgatatata      240



gagaattaaa tgtatttttt ggtctttgaa ccagtggtaa ttagagcagt cccaacgcac      300



caggtcatcc agtttctaga gaattaatta tactgccatg tcaccaattt gatgatgtgg      360



caaggagttt aatgaagaaa gagag                                            385





<210>  2746

<211>  49

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2746

actgatgacg gcactgagga ggctacggag gcttacttga ggttgcatc                   49





<210>  2747

<211>  253

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2747

agaggagcca gagccgaagc cgttttaaga atagtaggag cgggcctaat aaaagctctg       60



gcttctcttt agaaaaagct aaagtcctgt caaatacttt tttatacgac ttattgcaaa      120



aagtacctaa aagctatagc tatttttgta ctacatagaa gaagccacaa atagtagctt      180



caccggctct ggctctaaca ctttggctcc atttggtagt tcctcttaaa acagttccgg      240



ctctggctcc tct                                                         253





<210>  2748

<211>  420

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2748

atgcttgtat ttttagcttc tttctggcat tctaatcatt tgtcaatgct aactcaattg       60



ccttttctat tatgtttgtg cattgtacaa gtgctgattt ttttctcact gatcgtaatg      120



agggcctgat agtaatgtca tgacccacaa cttaatcact tatagaacta gaggatttag      180



ttgcgaatcc ggacaaggtc ggttaagtag atgttggccg ctgccgaact tctcgagcac      240



ggggatgcag tcaagcaggt ggtcgatgtc cctagcgtgg atgatggtag cgtagagtcc      300



aatctcccta aaggcagggg aacatggcag cgtagccccg cgggagcgtg gcggtgtctg      360



ggaagcgcca gaagccgagg tagagggtgc agagggaggc aaggtggagg acgttgatga      420





<210>  2749

<211>  42

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2749

gtcaccaaat tagccctaag ggctgatttg gtgacaaggg ga                          42





<210>  2750

<211>  52

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2750

aggttcaatc ggtcgtaacc cttcatttat ataaagggag gaggtctgga cc               52





<210>  2751

<211>  355

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2751

atcggtcagc tggaggagaa aggtaacgtg tgccctagaa gcacccgccc ctagacgagc       60



cccgaggcac cgagcccggg gttgggcatg gtggaactag atacaagggt tgggtgagcc      120



gaagggaatc cacttgagtg gatcccttgc ccaacccgag atcggcctgt cataagtgaa      180



cgaccacatt aacgacgcct agcgctaagc catagtagag gcatgtaaca ccctgaatat      240



tggggtataa attttctttg ctccattttc aaaattcagg tgttactctt tcctttcttc      300



gcttttattt tctctttatt gaaaccatag agagttattt gttctatgtt ggcat           355





<210>  2752

<211>  161

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2752

tagcacatca tatgtactct atgcccccta atccatacct agctactgac tatggtacac       60



aacttcccct attcacacac cacatgtgga ttggcggatt tctaatagtt ggtgctgctg      120



cacatgcagc catttttatg gtaagagact atgatccaac t                          161





<210>  2753

<211>  41

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2753

gatccttatc aaaagctcaa ttttgtactg gatcggggca t                           41





<210>  2754

<211>  255

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2754

cagaggagcc agagccgaag ccgttttaag aatagtagga gcgggcctaa taaaagctct       60



ggcttctctt tagaaaaagc taaagtcctg tcaaatactt ttttatacga cttattgcaa      120



aaagtaccta aaagctatag ctatttttgt actacataga agaagccaca aatagtagct      180



tcaccggctc tggctctaac actttggctc catttggtag ttcctcttaa aacagttccg      240



gctctggctc ctctg                                                       255





<210>  2755

<211>  245

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2755

tgcattttct accgaagttt agcttcgtac gctagtgagg acatttctta aatacacttg       60



ttaatcgaat gagctagatg ttagacaaat gatctttgac attcaaatga tcttcgaatt      120



tttttcctta cacccttaag acaatcacta ggtgagtgtc cgtgcattgc aacgggaaca      180



tataataccg ttgaaggaag ggagcagagg ggagagtgta tcggctggac agggaagaag      240



agcac                                                                  245





<210>  2756

<211>  79

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2756

cggaccactt tctctctcaa gtcactaatc actaatgatc tcttttctca attgtgaaac       60



ttggagagat ggaggcttt                                                    79





<210>  2757

<211>  418

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2757

caccagatcc gctcccttcc ctcccgtcag cagtagaggc gcaagaagct gtagagaacc       60



cgtctccctt cccataagca cgacagagga aacacacgag acacatgata tagggttgga      120



actatggcct ctttctgatc tctgtattat gaggggttgt acatgttcct tatatagaga      180



tgtgagaccc atcagtggca aaacaggtat ttgcccacat aaccctaact ggggttactt      240



aacatatata aggaacttgt acaccccctc ataatagaga gaagagaaaa aagccagagg      300



cccaacccta tatcatgtgt ctcgtgtgtt cctctgtcga gattctggga agggagacgg      360



atcctctaca acttctcgtg cctctactgc cgacgagaga gaagggagcg gatctggt        418





<210>  2758

<211>  52

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2758

tcaatctcca cgtgcttcgt gcgctgatgc tgcacgggat tggtggagag gt               52





<210>  2759

<211>  235

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2759

gtcctctata ctcaaatacc tatattagag acatttttta tttttatttt ttatacatac       60



atatttgtca taatctcaaa tgtattattt atattttagt tttgctaaac cggttattta      120



aagtatttaa atggatagat ggcggtttag agaaactcta tatatagata atccagcagc      180



gtcctctaaa tttagagaac catttagaag acgctgctgg agagcgtaga ggacc           235





<210>  2760

<211>  305

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2760

gattttccct cctctcacag cccgggtttt gagagcgagt gaaggggctc gcttgtgtta       60



gcccacgagc gccgggaaac gcccaaaggt gtagcgttga gtgggctagg ccgggaaggt      120



cgctgacaat tggtatcaga ggcagacagt cgccataccg cccgaaaagg gggatgggat      180



gtcaggagcc tagccgttag cgcccggctt tagtaccacc tcgctagccg gagggggccg      240



tggtgagctt ataagtgaga tttcccctcc tctcacagcc cgggttttga gagcgagtga      300



agggg                                                                  305





<210>  2761

<211>  136

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2761

ggtattgggg tggattgagg tggattttga ctagttgtgg atttattccc cctcaatcca       60



catatccact ggatatgtgg attgaggggg aataaatcca caactagtca aaatccacct      120



caatccaccc agtaac                                                      136





<210>  2762

<211>  341

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2762

ggtggcgatg caagaggagc tcaacaactt cactaggaat gaggtatggc atttagttcc       60



acgtcctaat caaaatgttg taggaaccaa atgggtcttc cgcaacaagc aagatgagca      120



tggtgtggtg acaaggaaca aagctcgact tgtggccaaa ggatactccc aagtcgaagg      180



tttggatttc ggtgaaacct atgcacccgt agctaggctt gagtcaattc gtatattatt      240



ggcctatgat acttaccatg gctttaagct ttatcaaatg gacgtgaaaa gtgccttcct      300



caatggacca atcaaggaag aggtctatgt tgagcaacct c                          341





<210>  2763

<211>  269

<212>  DNA

<213>  Artificial sequence



<220>

<223>  Predicted folded 24-nts-long seq pre-mir



<400>  2763

tactttctat ccaacaacgt cctctaaatc acgtcctcta tatgtaaata cctatattaa       60



agacattttt aattttttaa tttttgtaca tacatatttg tcatactctt aaatgtattt      120



tacatatttt agttttatta aaccggttgt ttgaagtatt caaatagata gagaaccgtt      180



tagagaaact ctacatatag aggatccaac aacgttctct aaatttagag gaccgtttag      240



aggacgttgc tggagagagt agaggacgt                                        269





<210>  2764

<211>  415

<212>  DNA

<213>  Zea mays



<400>  2764

aaaagagaaa ccgaagacac atgtacaaaa acttcctata ggaatacaca aggaaataat       60



acaattggcc aaaatagata atgaggatca tctccatatc attttgcatt tctcaacaaa      120



tataatctgt ttggctattc taagtggttc tttttttctg ggtaaagaag aacttgtcat      180



tttgaattct tgggttcagg aatttttcta taacttaaat gattcaataa aagctttttt      240



tattctttta gttactgatt tttttgttgg atttcactct acccgcggtt gggaactact      300



aattcgttgg gtctacaaca atcttggatg ggctcctaac gagctaattt tcactatttt      360



tgtttgtagt tttcctgtga ttctagacac gtgtttgaaa ttttgggtct ttttt           415





<210>  2765

<211>  284

<212>  DNA

<213>  Zea mays



<400>  2765

aaagaggatg aggagtagca tgggaagatt gtggaggtga tgatggatgt aaagaaacta       60



aagtttgagg agacgaagat ggttggtgat gagatgacga cggcgttggt ggatcaacca      120



attcgacatc tcttcaaggc caaaggatga aatttttgat ggcttgtcca agtgtctcga      180



ttccttcggg cccagggatg tctagcatgt cgtcctcaga tccttggacg accatcgtca      240



cttctaccct gcaataatca tctggtatgt cgcttccatg aaac                       284





<210>  2766

<211>  76

<212>  DNA

<213>  Zea mays



<400>  2766

aatacacatg ggttgaggag gattgggtgt aaattaaact aatttacatc tcaatccacc       60



tcaactcatg tgtatt                                                       76





<210>  2767

<211>  420

<212>  DNA

<213>  Zea mays



<400>  2767

agaagcggac tgccaaggag gcctgggacg ccatcgctgc gacccgcatc ggcagcgacc       60



gtgcccgcaa gaccacactg cagacacttc gcaaggagtg ggagaacctg gccttcaagc      120



caggtgagga tgttgatgac tttgctctcc gcctcaacac tctgttgcag aagatggtgc      180



agttcggcga cgacacctac gatgaggaga gagctgttga gaagctcttc cgttgcatcc      240



ccgagaagta caagcagatt gcttgctcga tcgagtctct gctagacctc tccacgatga      300



cgatcgaaga ggcgataggt cgtctcaagg tggtcgacgg cgacgaacca caggctccct      360



ctgggcctat cactatcggc gggaagctac atctcactcg ggagcagtgg gaggcctgcc      420





<210>  2768

<211>  167

<212>  DNA

<213>  Zea mays



<400>  2768

agagggtttg gggatagagg gacttgaacc ctcatgactt ataaagtcga cggatttttc       60



ttttactaga aatttcattg ttctcagtat tgacatgtag aatgggcctc cctccttatc      120



ctcgtccgat caagtccgta gcgtctaccg attttgctat atcccca                    167





<210>  2769

<211>  142

<212>  DNA

<213>  Zea mays



<400>  2769

acagggacga ggcagagcat gggtaggggg ccatcaacag aattccaaat ttgatttctg       60



tttgctcgct cacaaaatgg agggactcac cacaaacaca ctcaggcgtt gttgctccct      120



cccctgcact gcctcttccc tg                                               142





<210>  2770

<211>  158

<212>  DNA

<213>  Zea mays



<400>  2770

tggcgatggt gcaaatacct tccgtgcttt taacccaact caagctgaag aaacttattc       60



aatggtcact gctaaccgct tttggtccca aatctttggt gttgcttttt ccaataaacg      120



ttggttacat ttctttatgc tatttgtacc cgtcacca                              158





<210>  2771

<211>  76

<212>  DNA

<213>  Zea mays



<400>  2771

tttttttctc tacaaaagaa acctgattct aggctgtgaa gcaaaactaa agggatgtgg       60



ataaaaggag agatga                                                       76





<210>  2772

<211>  110

<212>  DNA

<213>  Zea mays



<400>  2772

ggtccacctt ctccaggctt accaaaacag tgctcgaagg gcaagttggc agaaatatat       60



tcacatatgt ggacgacatt gtcgtcgcca acaggagcaa ggaggaccat                 110





<210>  2773

<211>  415

<212>  DNA

<213>  Zea mays



<400>  2773

ctgagttgag aaagagatgc ttgaatcaaa agaattcctt ttttgaagtt caatttttat       60



aagaggacaa tatgaatatt acaccatgtt ccattaaaac actcaagggg ttatatgata      120



tatcgggtgt agaagtaggg caacacttct attggcaaat aggaggtttc caaattcatg      180



cccaagtact catcacttct taggtcgtaa ttactatttt gctaggttca gttatcatag      240



ctgttcggaa tccacaaacc atcccgaccg atggtcagaa tttcttcgaa tatgtccttg      300



agtttattcg agacttgagc aaaactcaga ttggagaaga atatggtccc tgggttccct      360



ttattggaac tatgttcctt tttatttttg tttcgaattg gtcaggtact ctttt           415





<210>  2774

<211>  108

<212>  DNA

<213>  Zea mays



<400>  2774

ctgatgggag gtggagttgc atcgtcccga cggtcaacgc agcaactctt gcattattgc       60



ctacccggaa atcaacttct cctcttttca cgcttctact tcttatca                   108





<210>  2775

<211>  261

<212>  DNA

<213>  Zea mays



<400>  2775

caagatgttc cctctttgca tttattgcga ttctttctcc actattattc gaattggaat       60



agttttatta cttcaatgaa atccattttt cttttgaaaa aagaaaataa aagactattt      120



cgattcctat ataactctta tgtatcagaa tatgaatttt tcttgttgtt tcttcataaa      180



caatcttctt gcttacgatt aacatcttct ggaacctttc tggaacgaat catcttttct      240



gggaagatgg aacattttgg t                                                261





<210>  2776

<211>  76

<212>  DNA

<213>  Zea mays



<400>  2776

tccttaagtg aggagtccct agggggctca tcacccacag aaaaaccaga tgctgaagat       60



gtacgatgat gaggag                                                       76





<210>  2777

<211>  243

<212>  DNA

<213>  Zea mays



<400>  2777

tatgatccca aacgatagat tcgttgagtt cttgccaata accatggccg ctggataaaa       60



acattaaact gaaagcccag acaaaatgag cgcctaagaa aaaaagacca tatgcagata      120



atgaagaacc ataaaactgg attacttggg atgcctgtgt ccacaagaaa tctcgaagcc      180



aaccattaat cgtaatggaa ctctacgtgg caagaactca ttgaatctat cgtttgggct      240



cat                                                                    243





<210>  2778

<211>  355

<212>  DNA

<213>  Zea mays



<400>  2778

gacgagctac aaaaggattc gtttttttcg tgtcacacct gattactcct tttttcattt       60



taaagagtgg catcctatgt gcactatctc gatcgaggta tggaggtcag aataaataga      120



ataataatga atggaaaaaa gagaaaatcc tttagctgga taaggggcgg atgtagccaa      180



gtggatcaag gcagtggatt gtgaatccac catgcgcgag ttcaatttcc agtcgttcgc      240



ccatcgcatt attggaaatt ccgaaaatgc aattttccat attcctagtt acgtatttac      300



ttacggcgac aaagaaaaaa actatcacta tattttttcc ttttcctagt tcttc           355





<210>  2779

<211>  144

<212>  DNA

<213>  Zea mays



<400>  2779

attctcacaa ccctcccagt ctataaacct atgtctgacg actgggtgtt tcttagaaag       60



aatgacagaa ttgtagaagt cagcctggaa aagattccag aaccgagggt cctggacacc      120



aggatgacga ggagtgagag tagg                                             144





<210>  2780

<211>  42

<212>  DNA

<213>  Zea mays



<400>  2780

gggcatcttc tggtaggagg acatcatccc cttcttccag aa                          42





<210>  2781

<211>  201

<212>  DNA

<213>  Zea mays



<400>  2781

tacggaagaa gagcaagttt tttctttgat gttcaccaaa acaattcact tttctttcca       60



tggatcacac agtgagcgta tttggtattt ggatattatc cgtatcaatg acctggtgaa      120



tcctcttact cttaattaat cattagacaa aattaataaa ctagaaaaga tcgatatcaa      180



gataaaactt gcacattttc c                                                201





<210>  2782

<211>  82

<212>  DNA

<213>  Zea mays



<400>  2782

gctttgtgca tctctacgct cgcctaagcc aagaagataa ggcggtcatg ctcaaacttc       60



tagaaagagc gagagaacaa ag                                                82





<210>  2783

<211>  243

<212>  DNA

<213>  Zea mays



<400>  2783

tgatattatg gacgagtggt tacaaaggga caatttcgtt tttgaaggat ggtccggctt       60



attgcttttt ccttgtgctt atttcgcttt agggggttgg tttacccatg gattggctag      120



ttcctatttg gaaggttgca atttcttaac cgtggcagtt tccacacctg ccaatagttt      180



agcacactct ttgttgctac tatggggacc agaagcacag ggatatttta ctcgttggtg      240



tca                                                                    243





<210>  2784

<211>  75

<212>  DNA

<213>  Zea mays



<400>  2784

tggaaggggc atgcagagga gcacgaacga ggtgtggttg gcccctcgtt agctctcctg       60



tgcctgcctc ttcca                                                        75





<210>  2785

<211>  74

<212>  DNA

<213>  Zea mays



<400>  2785

ttgagcgcag cgttgatgag ccagccgccg tgcctcccct gtcggctgcg gcggctcacc       60



agcgctgcac tcaa                                                         74





<210>  2786

<211>  164

<212>  DNA

<213>  Zea mays



<400>  2786

ctaaacaacc tagattatcc tccattaaag tgtatctatt tcagatagaa tcctttaagt       60



tgaaaaaatc tatcttatcc taataggttc atcttgtgtt aaaaaaatta tcttatccta      120



ataggttcat tttaggtttt tttggataac gggtagtttg gagt                       164





<210>  2787

<211>  80

<212>  DNA

<213>  Zea mays



<400>  2787

agctgccgac tcattcaccc acatgccaag caaacggcca tggaaaccag ctttgcagat       60



gagtgaatga agcgggaggt                                                   80





<210>  2788

<211>  222

<212>  DNA

<213>  Zea mays



<400>  2788

atgaagtgta atcagggaaa aaacagatgc cgaaggtgga gtcctcaaag gtggagtccc       60



gaggtggctc atcagccgcc gaaaaaacag atgccgaaga tgtacgatga tcaggaggag      120



gtggagggtg gtggtggtaa ccagagccgg atggcctagg gtcaccagga atgggtcccg      180



gacctgggta aggaggcgga gggtgggagg atgattgacc cg                         222





<210>  2789

<211>  141

<212>  DNA

<213>  Zea mays



<400>  2789

gcgggggcga actgagaaca catgagaata atgagatgag attgctcgcc tcgcggtacg       60



gttcgtgctg gcctggacca ccgtcgtcgc cgttcatctt gtacgcataa taatgctgca      120



tgtgttctca ggtcgccccc g                                                141





<210>  2790

<211>  81

<212>  DNA

<213>  Zea mays



<400>  2790

actccctctg tttcttttta gttgtcgctg gatagtgcaa aattgaacta tccagtgaca       60



actaaaaaga aacagaggga g                                                 81





<210>  2791

<211>  56

<212>  DNA

<213>  Zea mays



<400>  2791

gggccgggcc ggccggtccg cctcacggcg agaaccgacc ggctcgaccc ttctgc           56





<210>  2792

<211>  243

<212>  DNA

<213>  Zea mays



<400>  2792

tccctcactc caaccattct cgccttagcc tctccacggt gtttagagcc tcctctctca       60



ctcacctcaa ccggttcata gttccaaaac ctctccaatc atggtgcgtc gtcgcaaccc      120



ttccgtgatt gagtttagca gcgactcgga tgagattcag gaggaatctc ccgtcccctc      180



tctccgcctc gtcgctccct ctctaagaga ggacgcggct ctggtaggat ggatggagag      240



ggt                                                                    243





<210>  2793

<211>  224

<212>  DNA

<213>  Zea mays



<400>  2793

tccgaagttt ccctcaggat agctggagcc cacacgagtt ctatcgggta aagccaatga       60



ttagaggcat cgggggcgca acgccctcga cctattctca aactttaaat aggtaggacg      120



gcgcggctgc ttcggtgagc cgtgccacgg aatcgggagc tccaagtggg ccatttttgg      180



taagcagaac tggcgatgcg ggatgaaccg gaagccgggt tacg                       224





