                         SEQUENCE LISTING

<110>  TROPIC BIOSCIENCES UK LIMITED
       MAORI, Eyal
       GALANTY, Yaron
       PIGNOCCHI, Cristina
       CHAPARRO GARCIA, Angela
       MEIR, Ofir
 
<120>  PRODUCTION OF dsRNA IN PLANT CELLS FOR PEST PROTECTION VIA GENE 
       SILENCING

<130>  81321

<150>  UK 1903521.1
<151>  2019-03-14

<160>  139   

<170>  PatentIn version 3.5

<210>  1
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Query - pest seq (AF502391.1)

<400>  1
aaatgaagaa aatgcacaga cctcaaa                                           27


<210>  2
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Hit - plant seq (NM_001037071.1)

<400>  2
aaatgaagaa aatggaaaga cctcaaa                                           27


<210>  3
<211>  102
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Ath-MIR173 based GEiGS molecule

<400>  3
gaaggacuuu guaaacaauu ucagaauuac ugaggacaaa aauguuguag uacacuuaaa       60

gucgcaaacc gcggugauuu gaauuuguuu guaaagaccu uc                         102


<210>  4
<211>  1591
<212>  DNA
<213>  Arabidopsis thaliana

<400>  4
acaccttcca aacactattg gggaaatggc ttcttctctt ttttccggtg taggtttaag       60

gttttagatt tgaaggcgga tggtgaggag tttgtgttga tgaaatgggt gatttgaatt      120

gaggaaaaca tgaattcgac atcgacacat tttgtgccac cgagaagagt tggtatatac      180

gaacctgtcc atcaattcgg tatgtggggg gagagtttca aaagcaatat tagcaatggg      240

actatgaaca caccaaacca cataataata ccgaataatc agaaactaga caacaacgtg      300

tcagaggata cttcccatgg aacagcagga actcctcaca tgttcgatca agaagcttca      360

acgtctagac atcccgataa gatacaaaga cggcttgctc aaaaccgcga ggctgctagg      420

aaaagtcgct tgcgcaagaa ggcttatgtt cagcaactgg aaacaagcag gttgaagcta      480

attcaattag agcaagaact cgatcgtgct agacaacagg gattctatgt aggaaacgga      540

atagatacta attctctcgg tttttcggaa accatgaatc cagggattgc tgcatttgaa      600

atggaatatg gacattgggt tgaagaacag aacagacaga tatgtgaact aagaacagtt      660

ttacacggac acattaacga tatcgagctt cgttcgctag tcgaaaacgc catgaaacat      720

tactttgagc ttttccggat gaaatcgtct gctgccaaag ccgatgtctt cttcgtcatg      780

tcagggatgt ggagaacttc agcagaacga ttcttcttat ggattggcgg atttcgaccc      840

tccgatcttc tcaaggttct tttgccacat tttgatgtct tgacggatca acaacttcta      900

gatgtatgca atctaaaaca atcgtgtcag caagcagaag acgcgttgac tcaaggtatg      960

gagaagctgc aacacaccct tgcggactgc gttgcagcgg gacaactcgg tgaaggaagt     1020

tacattcctc aggtgaattc tgctatggat agattagaag ctttggtcag tttcgtaaat     1080

caggctgatc acttgagaca tgaaacattg caacaaatgt atcggatatt gacaacgcga     1140

caagcggctc gaggattatt agctcttggt gagtattttc aacggcttag agccttgagc     1200

tcaagttggg caactcgaca tcgtgaacca acgtaggttt gagttatttt gtaacaacca     1260

aatgaagaaa atggaaagac ctcaaaaaat gaagaatgag tgcatctgaa aacagaggac     1320

tactctgaat aaatagaggg gttgctgctg atatttattt ttactctgcg gcggaattag     1380

aaaatttgaa aaacatcatg tattgataag ttgtaaatat cagaaaaagg tgggggtgca     1440

aaaatttgta ctttttagct tttgaaagag gcaagttttt cgaatgtttg tttgatttgt     1500

aaacaatttc agaattatat aaacttggtt ccaaatcccc tgtaataatg tcgagctatc     1560

tgcaatttga aaactatagg ggctttactt a                                    1591


<210>  5
<211>  28
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Query pest seq: AF500024.1

<400>  5
cagcaacaac agaatcagga acagcaac                                          28


<210>  6
<211>  28
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Hit - plant seq (NM_116351.7)

<400>  6
cagcaacaac agcaacagca acagcaac                                          28


<210>  7
<211>  123
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Ath-MIR156a based GEiGS molecule

<400>  7
caagagaaac gcaaagauaa agauugaacu gggguaucac acaaaggcaa gaugcagacc       60

agugcaguug cuucgcuugc gugaugcuca ugguuuuaau uuuaauccgg ugccgaucuc      120

uuc                                                                    123


<210>  8
<211>  3676
<212>  DNA
<213>  Arabidopsis thaliana

<400>  8
aaattaaatt atgcgtctaa gttgtaacat ataataaaag gataatatat ttttcagtca       60

caccaaaaaa aaaattgata agaaagaaaa aaaaagagtg aaaattagaa agacagagaa      120

gcaaagattc ttgctccctg cgaatccgca gctgcttcga aacgcaaatc cgatttgtag      180

tctcctttga ttcttccatt gacgatacag cttctctttc tctcttctct ctgcttactt      240

tgctttttac taagctcaca agaatctacg catctgtact gttattatgc tgatgctctc      300

tacttaatca tcaccaccgc acgcagttcg agatttctgg aattttctgt gtcggatgcg      360

tttgagattc atcgaatcta cttggttata gattggaaat ttaggtgggg atttgagttg      420

cttagcttgt ggtaggttac attttcttgt ttgagattca gtgaatctct ccagagttgc      480

atgtatagaa atgggttctt tggaatctgg gattccgacg aagcgagata acggcggcgt      540

aagaggtgga agacagcaac aacagcaaca gcaacagcaa cagttcttct tgcagagaaa      600

cagatcgaga ctctccagat tctttctatt gaagagtttt aattacctcc tatggatttc      660

tataatttgt gtcttcttct tcttcgctgt gctgttccag atgtttttgc cgggtttggt      720

gattgataaa tcggataaac catggattag taaggagatt ttgccacctg atttggttgg      780

ttttagggag aaagggtttt tggattttgg tgatgatgtt agaattgagc ccaccaagct      840

tctgatgaaa ttccaaagag atgctcatgg ttttaatttt acatcttctt ctctcaatac      900

cactctgcag cgttttggat tcagaaagcc taagctagct ctggtttttg gcgatttgtt      960

agctgatcca gaacaggtgt taatggtgtc tctctccaag gcactgcaag aggttggcta     1020

tgcaattgag gtttactcgc ttgaagatgg tccagtgaat agtatttggc agaaaatggg     1080

agttccagtc acaatactca agcctaatca ggaatcgagt tgtgttatcg actggctctc     1140

ctatgatggc ataattgtga actctctccg agctaggagt atgtttactt gcttcatgca     1200

agaacctttc aaatctttgc ctcttatttg ggtcatcaat gaagaaactc ttgctgttcg     1260

gtctagacag tacaactcaa cagggcagac tgaactcctc actgactgga aaaagatttt     1320

cagccgggca tcggttgtag tcttccataa ttatctcctt ccgatactct acaccgagtt     1380

tgatgctggc aacttctatg tgattcccgg atctcctgaa gaagtatgta aagcaaagaa     1440

tctagagttt cctccacaga aagatgatgt ggtcatttcc attgtgggaa gtcagttctt     1500

gtacaagggt caatggctgg aacatgccct gcttctgcaa gctctacggc ctttattttc     1560

gggcaattac cttgaaagtg ataattccca tctcaagatc atagttttag gtggagagac     1620

agcgtccaac tacagcgtag ctattgagac aatttcccag aacttgacat atccaaaaga     1680

ggctgtgaag cacgtaagag ttgcggggaa tgttgataag attcttgaaa gttctgatct     1740

tgttatatat ggatcatttc ttgaggagca gtcttttcca gaaattttga tgaaggccat     1800

gtccttgggg aaacctatag ttgcaccaga cctcttcaac attagaaaat atgttgacga     1860

cagggttact gggtatctct tccccaagca gaatcttaaa gttctatcgc aagttgtgct     1920

tgaagtgata acagaaggga agatatctcc attggctcag aagattgcca tgatggggaa     1980

aacaactgtt aaaaatatga tggctcggga aaccatagaa ggttatgcag ctctactaga     2040

gaatatgctc aagttttctt cggaagttgc ttctcctaag gatgtacaaa aagttcctcc     2100

agaactgaga gaagagtgga gttggcatcc gtttgaagct tttatggata catcgcctaa     2160

taatagaata gcaagaagtt atgagttctt agcgaaggtt gaggggcatt ggaattatac     2220

cccaggagaa gctatgaaat ttggagctgt taatgatgat tcgttcgtgt atgaaatttg     2280

ggaagaagag agatatcttc aaatgatgaa tagtaaaaaa agacgagaag acgaggagct     2340

gaaaagcaga gtcttgcagt atcgtgggac atgggaagat gtatataaaa gcgccaaaag     2400

ggcagaccga agtaagaatg atctacatga gagggatgaa ggggagctgc taagaaccgg     2460

tcaaccttta tgcatatatg aaccctattt tggtgaagga acctggtcgt ttctacatca     2520

agatcccctc tatcgtgggg ttggcctgtc agttaaagga cgtagaccta ggatggatga     2580

tgtcgatgca tcatcacgtc ttccgctttt caacaatccg tactatcgcg atgctcttgg     2640

tgactttgga gctttttttg caatctcaaa caagattgat cggttacaca agaattcatg     2700

gattgggttt cagtcctgga gagcgactgc caggaaggaa tctttatcca agattgctga     2760

agacgcatta cttaatgcta tacaaacacg aaaacacgga gatgccttat atttttgggt     2820

tcgcatggac aaagatccca gaaatcctct gcagaaaccc ttttggtcgt tctgtgatgc     2880

cataaatgct gggaattgca ggtttgctta caacgaaact ttgaagaaaa tgtacagtat     2940

caagaacttg gactcattgc caccaatgcc cgaggatggg gatacatggt ctgtgatgca     3000

gagctgggca ttgccaacaa gatccttctt agagtttgtc atgttctcaa ggatgtttgt     3060

ggattcacta gatgcacaga tatatgaaga gcatcatcga acaaaccgtt gctatctgag     3120

tttaaccaaa gacaagcatt gctattcgcg ggtactagag cttctggtga acgtatgggc     3180

ttaccacagt gcaagacgca ttgtctacat agatcctgag actggtttga tgcaagagca     3240

acacaaacag aagaaccggc gagggaaaat gtgggtgaag tggttcgatt acacaactct     3300

gaaaacaatg gacgaagatc tagctgaaga agccgactca gaccgtcgtg tgggtcactg     3360

gctatggcca tggactggcg agatcgtgtg gcgcggtaca ttagagaaag agaagcaaaa     3420

gaagaattta gagaaagagg agaagaagaa gaagagtcga gataagctga gtagaatgag     3480

aagtagaagt ggtcgtcaga aagtgatcgg aaaatatgta aaaccaccgc ctgagaacga     3540

aactgttacc ggaaattcca ctttgttaaa tgtagtagac gcataaaaga aaacaaatta     3600

aaattgcttc tttttttgtt aggtcactaa tttgtttcat tcattgtttt tggaaagatt     3660

actgtataaa aggtct                                                     3676


<210>  9
<211>  231
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Pest Query: AF469060.1

<400>  9
tggcatgcaa attttcgtga agacattgac gggcaaaacg atcactttgg aggtggagag       60

ctcggacact gtggacaatg tgaaggagaa gatccaagag aaggagggca ttccgccgga      120

tcagcaacgg ctgatcttcg ccggcaaaca gctcgaggac ggacgaacgt tggccgacta      180

caacatacag aaggagtcca cgctccactt ggtcctccgt ctccggggcg g               231


<210>  10
<211>  231
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Plant hit: NM_001203752.2

<400>  10
tggtatgcag attttcgtta aaaccctaac gggaaagacg attactcttg aggtggagag       60

ctctgacacc attgacaacg tcaaggccaa gatccaagat aaggagggca ttcctccgga      120

ccagcagcgt ctcatcttcg ctggaaagca gcttgaggat ggacgtactt tggccgacta      180

caacatccag aaggagtcta ctcttcactt ggtcctccgt ctccgtggtg g               231


<210>  11
<211>  104
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Ath-MIR156c based GEiGS molecule

<400>  11
cgcacagaaa gggugauaau ggcuugguug cacuaaggca cguugcaugg ccgaugcaua       60

ugcuucucua gcgcaaccaa guucauguau cguuuauucc cgca                       104


<210>  12
<211>  901
<212>  DNA
<213>  Arabidopsis thaliana

<400>  12
caaatctctc aaccgtgatc aaggtagatt tctgagttct tattgtattt cttcgatttg       60

tttcgttcga tcgcaattta ggctctgttc tttgattttg atctcgttaa tctctgatcg      120

gaggcaaatt acatagtttc atcgttagat ctcttcttat ttctcgatta ggatgcagat      180

cttcgttaag actctcaccg gaaagactat caccctcgag gtggaaagct ctgacaccat      240

cgacaacgtt aaggccaaga tccaggataa ggaaggtatt cctccggatc agcagaggct      300

tatcttcgcc ggaaagcagt tggaggatgg ccgcacgttg gcggattaca atatccagaa      360

ggaatccacc ctccacttgg ttctcaggct ccgtggtggt atgcagattt tcgttaaaac      420

cctaacggga aagacgatta ctcttgaggt ggagagctct gacaccattg acaacgtcaa      480

ggccaagatc caagataagg agggcattcc tccggaccag cagcgtctca tcttcgctgg      540

aaagcagctt gaggatggac gtactttggc cgactacaac atccagaagg agtctactct      600

tcacttggtc ctccgtctcc gtggtggttt ctaaaccttg tctctctctc ttatggttac      660

tgaaccaagt tcatgtatcg tttcatctag tactttggtg gtttatgttt tggggccatg      720

tacagcctct gataaataat tgatcgacta tgtttccgtt tctttcatct ctcttttctt      780

tcaaacaaca aatcgaactt attctctatt gcaattatct ctttcgattc acttttgtca      840

tcgttgtctc tttatatgat gtgcttagtt tgatgagtgt gagaagtaca gagtctctat      900

c                                                                      901


<210>  13
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  13
cacagtaaaa ttgaacaaat a                                                 21


<210>  14
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  14
cacagtaaaa ttgaacaaat a                                                 21


<210>  15
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  15
cacagtaaaa ttgaacaaat a                                                 21


<210>  16
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  16
cacagtaaaa ttgaacaaat a                                                 21


<210>  17
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  17
cacagtaaaa ttgaacaaat a                                                 21


<210>  18
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  18
ctgcgatggc atgcaaattt t                                                 21


<210>  19
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  19
ctgcgatggc atgcaaattt t                                                 21


<210>  20
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  20
ctgcgatggc atgcaaattt t                                                 21


<210>  21
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  21
ctgcgatggc atgcaaattt t                                                 21


<210>  22
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  22
ctgcgatggc atgcaaattt t                                                 21


<210>  23
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  23
taaaatggaa atagacaata t                                                 21


<210>  24
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  24
taaaatggaa atagacaata t                                                 21


<210>  25
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  25
taaaatggaa atagacaata t                                                 21


<210>  26
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  26
taaaatggaa atagacaata t                                                 21


<210>  27
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  27
taaaatggaa atagacaata t                                                 21


<210>  28
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  28
gagaaggaaa atacacaatt a                                                 21


<210>  29
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  29
gagaaggaaa atacacaatt a                                                 21


<210>  30
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  30
gagaaggaaa atacacaatt a                                                 21


<210>  31
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  31
gagaaggaaa atacacaatt a                                                 21


<210>  32
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  32
gagaaggaaa atacacaatt a                                                 21


<210>  33
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  33
tagttaggaa atttcaaata a                                                 21


<210>  34
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  34
tagttaggaa atttcaaata a                                                 21


<210>  35
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  35
tagttaggaa atttcaaata a                                                 21


<210>  36
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  36
tagttaggaa atttcaaata a                                                 21


<210>  37
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  37
tagttaggaa atttcaaata a                                                 21


<210>  38
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  38
atgggaatat attaaaactt t                                                 21


<210>  39
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  39
atgggaatat attaaaactt t                                                 21


<210>  40
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  40
atgggaatat attaaaactt t                                                 21


<210>  41
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  41
atgggaatat attaaaactt t                                                 21


<210>  42
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  42
atgggaatat attaaaactt t                                                 21


<210>  43
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  43
tggagcaatc attctgaatg a                                                 21


<210>  44
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  44
tggagcaatc attctgaatg a                                                 21


<210>  45
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  45
ctcactcctt ttaaacaaat a                                                 21


<210>  46
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  46
ctcactcctt ttaaacaaat a                                                 21


<210>  47
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  47
atacatatag attgataaca a                                                 21


<210>  48
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  48
atacatatag attgataaca a                                                 21


<210>  49
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  49
ccaggattcc atgtaaaaaa a                                                 21


<210>  50
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  50
ccaggattcc atgtaaaaaa a                                                 21


<210>  51
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  51
caaccgcatg ataaacgtga a                                                 21


<210>  52
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  52
caaccgcatg ataaacgtga a                                                 21


<210>  53
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  53
ctgcatgttc ttcatccccg a                                                 21


<210>  54
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  suggested small interfering RNAs nucleic acid sequence

<400>  54
ctgcatgttc ttcatccccg a                                                 21


<210>  55
<211>  2397
<212>  DNA
<213>  Meloidogyne incognita

<400>  55
atggcacaag agccgcccct gcaaattgtg atcccgaaat tagacgaagg caagacgatg       60

gcaatgcgtc ggctgccgcc tccggcacaa ccggcggctg cggtgccgtc cgccgaacgc      120

gtgtccaatc gggacgagga cgcgcagaac accgagccgt caatgagcgg caagcaaatc      180

gtcggattga tcatcccacc accagacatc cgaacgattg tggacaaaac ggcccttttc      240

gtcgctcgca acggtttgga atttgagttg aaaatcaaag agcgcgaggc gtccaacatg      300

cgcttcaact tcctcaaccc caccgacccg tactttgcct actaccggaa taaggtcaac      360

gaattcgaga cgggcgtcgc ttcagccgac acacaatcta gcgtgaagat gccggaagcc      420

atccgtgaac acgtgaaacg ggcagagttc attccacgac agccgcccaa accgttcgaa      480

ttctgtgccg aaccgtcaac gctgaacgcc ttcgatttag acctcatcca tttgaccgct      540

ttgtttgttg cgcgaaacgg gcgccaattc ctcacacagc tgatgaaccg cgaagtgcgt      600

aactttcaat tcgactttct gaagccgcag cactccaatt tccaatactt caccaagctg      660

gtcgagcagt acacaaaggt gctgatccct tccaaaaaca ttgtggacga gttgcgtgca      720

cagctcagtc agcacaaaat tgtggaggat gtgcgctatc gcgtcggttg ggaccggcat      780

caaaaggcgc tgaaggaccg cgaggaccag gcggtggaga aggagcgcat cgcgtacaac      840

caaatcgatt ggcacgagtt cgtcgtggtc caaacggtgg actttcagcc cagcgaaacg      900

ctgaatttgc cgcatttgtg cacgccaaag gacgtcggag cgcgcatttt gctgcaacag      960

cgcacggatg cggccaaagc ggcggcggag agtgtggcta tggaggtcga atctgacgag     1020

gagggtggcg gctcggagtc gggtggcgag gagacggacg aacgcggcgt cgccgaggcg     1080

gacaacgcgg cggttgagct gcgccagcac ctgaacattg ggacggagaa gcagcacacc     1140

ggctccacgc taacacaacc ggcgcccgca gcgccgaacg ttggcagcgt tataatccgc     1200

gattacgacc ccaaaaaggc tcgcagcggt ccagtggcca aaactaccgc ctcctccgcg     1260

gagaagtaca tcatttcgcc gctgaccaac gagcgcattc cggcggacaa actgcacgag     1320

catgtgcgct acaacactgt ggacccgcag ttcaaagagc aacgagaccg cgaacatatg     1380

gatcgtcagg acgaggactt aggtatggcg cccggggcgg agatcagccg taacattgcc     1440

aagttggccg aacggcggac ggacattttt ggcattgggg agaagggtgt cgagcagaca     1500

atcattggca aaaaattggg ggaggaggag cgccaaatgc cgcgttcgga cccgaagacc     1560

atttgggacg gccaacagtc gaccatcgac gcgaccactc gcgcagccca gcagagcgtg     1620

tcgttggagc agcagatcaa tgaaattcaa cgacagcacg ggtacttgcc gaaccccgct     1680

gcggaacgaa tggcaccttc gatgccgcca acttcggcac cttcgcaaca gtttggccaa     1740

ccgccgacat cgacggcgat ggctccgccg caccgtcccc cggctcattc gaccggcggt     1800

ggaagcgttc aaaaaatcgt ctctctgccg ccccatcctc aacatcagca aatgcgcccg     1860

ccgatgccgc cgcacttcat gccctcgggc cagcgtccgc atttgccacc accgcatatg     1920

ggcatgccgc cacacggcgt tatgggagga atacaaatgc ctccgcatat gcaacctggc     1980

atgccgggaa tgcccccgcc ggggatgatg cgtccgcccc atggcgcctt tatgcctccg     2040

cccccctctt tcggcggcga tgagcctccg agcaaacgtc cgcgtgagga gacgttggaa     2100

tcggaagagc gttggctgca aaaggttcgc ggtcaaatca ctgtgcaggt gtgcacgcca     2160

cagaacgagg agtggaactt gaagggcgac tccatccaag tcttgttgga catcagttcg     2220

tcggtaactg cacttaaatc gatgatccaa gagcaaatcg gcgttgctgc aggcaaacag     2280

aaattggttt atgagggtat tttcatgaaa gacaaccaaa cgttggccta ttacaacttt     2340

atgccaaacg cggctgtcca acttcagctg aaggaacgtg gaggccgaaa gaaatga        2397


<210>  56
<211>  789
<212>  DNA
<213>  Heterodera glycines

<400>  56
atggcagtcg gaaagaataa gaaaatgggc aaaaagggag ccaagaagaa ggctgtcgat       60

ccgttcacac gcaaagaatg gtacgacatc aaagcgccgg cgatgttcac acatcgaaac      120

gtcggcaaaa cgttggtcaa ccgtactcag ggaacgcgca tttcgagcga ctttctaaaa      180

ggccgcgttt acgaagtgtc actgggtgac cttaacagca ctgacgccga ctttcgaaag      240

ttccgcctga tctgtgaaga ggtacagggc aagatttgcc tgaccaactt tcacggaatg      300

tcgttcactc gggacaaact gtgctctatt gtcaagaagt ggcacacgct cattgaggcg      360

aatgtggcag tgaagactac cgacggtttc atgctccgac tcttttgtat cggctttacc      420

aagcgaaatg ccaatcaaat taagaagacg agctatgcaa aagcctctca ggtgcggatg      480

attcgtgcca aaatggtgga gatcatgcag aaagaggtct cttccggcga tctgaaggaa      540

gtagtcaaca agctgatccc ggattcgatc ggcaaagaca tagagaaggc gtgctccttc      600

tactaccctc tgcaggacgt ttacattcgt aaggtgaagg tgctgaagaa gccgaagttc      660

gagctgggca aactattgga gatgcatggg gagggtgccg gaacggtcgc tacgattacg      720

acggccgccg gtgaaaaaat tgagagccgt ccggatgcgt acgaaccgcc tgttcaacag      780

agcgtttga                                                              789


<210>  57
<211>  2496
<212>  DNA
<213>  Heterodera glycines

<400>  57
atggttggta ttgatcaaac gactagtgat gaaattattc aagataaaga gcagttaaag       60

tggaagatgg acaatttgca ttggtttcct gaagatgagc ttccgccgaa cgactttccg      120

cctgcgctaa gtatggaaag tgagggaagc tcattcaaca acaatgtgaa cgcggaaatg      180

gacgaggaaa tgatggggga agatacaatg caccatgaag acgatcagcc ggtattgggc      240

agcgacgagg atgaacagga ggatccaaaa gactacaaga aaggcggtta ccaccctgtg      300

caaattggcg atgtcttcaa acatggacga taccatgtca tccgaaaatt gggctggggc      360

catttctcca ccgtttggct tagttgggac atcgacgtga aacgatttgt cgctatgaaa      420

atagtcaaat cggctgagca ttacacagag gcagcgttgg acgaaataaa attgctcgaa      480

tgtgtgaggg attctgatcc agccgacgct tcacttcaga gagttgtcca actgctcgat      540

catttcacag tcagcggcgt caacggtgcc catgtttgta tggtttttga ggttctcggg      600

tgcaatttgt tgaagcttat cattcgtagc agctacgagg gcttgccgat aaacctggtc      660

aaaaggataa cgaaacaggt tctcgaagga cttcactatt tgcatgagaa atgtcatatc      720

attcatacgg acataaaacc cgagaatgtt ttgatcacca tgagtcatga agagatcaaa      780

aagatggcgg aagatgcgat tttggcggga aaggcgggga atgccatgtc cggttctgct      840

gtttgcagct cgaagagggc cttcaagaag atggaggaaa cgcttacaaa gaacaaaaag      900

aagaagctga agaagaaacg gaagagacat cgcgacattc ttgaacagca gctcaaagaa      960

gttgagggaa tgagtgtgga aattaccagc ccaatcagtg aacagaatcc atttcgcatc     1020

aaccaccaac ggcacgatgg cgtttattcc tcggacgaca acgaggagga cggagagagt     1080

tgtagggaaa acgacgctca actgacaaag aatctctcac ttttggagaa aatcaaaatt     1140

ccgcgcattt ctttgaccca attttcaact aacaattcgc accaaaacaa cactaataac     1200

agcaataata ataacaacga acaacaacaa cagcagcagc agcaacaaca actccaattg     1260

ggggaggagg gcacgaagaa tgggaaaagg gttgctgcgt ctggcagacc atcgaagttg     1320

gtcaattcga cccaaaaatc ttgcgccaga agcgaaaatg atgagcaaaa accggtcaaa     1380

aaggaaccgt cggtgacggg aaatgccgaa ccgggccaat cgtcggacgc actgccgaaa     1440

cgaattggca aaaagaaaaa gacgggcaaa aacaaacaaa tgttggtcaa aaaggataag     1500

agagacgatt caccctcgcc tcctatcaaa agggaggaag aggaggccat gggacccgaa     1560

gaggacgaca ccaaagagtc gccgacaaag gggaaaacgg ccaaactgtc gaatgagtcg     1620

gacgatggca aaacgatggg ttatgatggg atgggaaaag gaggcgaaga agcagcggaa     1680

aatgtcaaag tgaatgcgca gcagcgagag gggcaggaag aagattcaat ttcgaagggg     1740

aaaaagaaga aagcgaagcg aaagaataag aagaagctca agcaacaagc gtatgcacaa     1800

gaagaagatg aggagttgcg agaaatcgac aaaagtgatg gtgttcacca tcaaagcatg     1860

gtcgactcgg ggcagaacaa ggagctaaaa acagaggaag attatcaaca gctgagtcca     1920

atggagcagg agatgtcgtt cgaacacgaa aaccacgaaa agcaaatgct cgacaaaata     1980

attgccaaga aatttgatgt gaaaattgcg gacctgggca atgcttgttg gacctaccat     2040

cacttcaccg aggacatcca gacgcgtcag tacagagctt tggaagtcat catcggcgcg     2100

ggctacgata cgtctgccga catttggagt gtcgcctgta tggcttttga attggcgacc     2160

ggcgactatt tattcgagcc gcacagcgga ggcacttaca gcagggacga ggaccatctt     2220

gcgcatgtaa tcgagctgtt gggaagcatt ccgccgaccg ttttcaaaaa gggcgagcat     2280

tggcgcgagt ttttccataa gaatggtcgt ctgcttcaca taccgaacct gaagccttgg     2340

tcactggtcg aagttcttac gcagaagtac caatggcctt tcgagcaagc cagatcgttc     2400

gcggcatttt tgtttcctat gcttaactat gaaccggctg aacgcgtcac tgcagcacag     2460

tgtctaaagc ataattggct caaaaacata gaatga                               2496


<210>  58
<211>  2946
<212>  DNA
<213>  Heterodera glycines

<400>  58
atgagttctt ctggtgaaca accctgttac gcgctgattc atgtcgcaaa cgacgtcgaa       60

tttccgtctg aagggcaatt aaaggacaaa tttgagcacg gggacacaaa atccaagacg      120

gatgcactga aaaagctgat tttgatgatc caggcgggcg agaaggtcac cagccagcta      180

atgatgtacg tgatccgttt ttgtctacca acatccgatc attatctgaa gaagttgctg      240

ctgatattct gggaggtcgt cccgaagaca aatcaagagg gcaaactgtt gcacgaaatg      300

attttagtct gcgacgcgta ccgcaaagat ttgcagcatc cgaacgaata catacgcggc      360

tcgaccttgc gattcctttg taaactaaaa gagcccgagt tgctcgagcc gttgatgccg      420

tcgattcgga agtgcttgga gcatcgccat tcctacgtac gccgcaattc cattttggca      480

atctacacaa tttacaaaaa tttcgagttt ttgattcccg atgcgcccga attgatccaa      540

caactgctag agaccgagca ggacgcctcc tgcaagcgca acgcgttcat tatgcttcta      600

cacgttgacc ggcagcgggc cttggattat ttgtccggtt gtattgagca ggttgcgcag      660

ttcggcgaca tccttcagct tatcattgtg gagctgatct acaaagtctg tcacaacaac      720

ccggcggaac gcaatcgctt cattcgttgt gtgtacaatt tgctgcagtc gcagtcgggc      780

gccgttcgct acgaggcggc tggcacactt gtgacgctta gcaccgcgcc gacggcggtg      840

aaagcggccg caaccgctta cattgagctg atcgtcaaag agtcggacaa caatgttaag      900

ctgattgtac tcgatcgtct ggtatgccta cgcgaggttt tgcccaacga caaagtgctg      960

caggatttgg taatggacat tctgcgtgtt ctgtccacaa cggactacga agtgcgccga     1020

aagatcctgc agttggcgct tgaactggtc tcatcgcgca acgttcatga gatggtgatg     1080

tttttgcgca aggagatcga caaaacaaac aacgacacgc aagaggacac cggccggtac     1140

agacagttgc tggtccgcac cctgcacagt gcgacaatca aattcccgga cgtggccatt     1200

caaatcttcc cagtgctaat ggagtttttg tcagatcaga acgaaagtgc ggcgttggat     1260

gtgttagtgt ttgtgcgtga ggcgattcaa cgactgccgc acctgcgcca tcacatcacc     1320

aaccaattgc tggaagtttt tccgaccatc cgaaacgcgt ccatttttcg atccgctctg     1380

tggattcttg gcgaatattg cgagaattct gaggcaattg gtcgtttatt cgttttggtc     1440

aagttgtcgg tgggtgaatt gcctattgtc gagtcggaga gtcgggaccg agatggtgga     1500

gcagcaaagg acgaggcatc ggcacctaga aagagtggag tcgatggcaa gaccagccag     1560

cagaaactga tcaccgcgga tggcacttac gccaaacaat cggctatctt ttctgccgct     1620

tcgaacgccg ttagtgcggc tgacgataaa ccaattttgc gcagttttct actcgatggg     1680

aacttcttta ttgcgtcagc gttggccaac actttggcga agttggtgct tcgttatgcg     1740

gaactgaata aaggtgtagc gtcaaccgtt aacaaattgg cgagcgaagc gctgctgctt     1800

atcgcatcca ttattcacct cggcaagtcc ggcatgtgca aacaggcgat aactgaggac     1860

gatctggacc gtctctccac cacagtgcgt ttgatcgtgg accaatggcc tgatgcagtg     1920

catgtattcc tgaatgagtg tcgttcgtca cttgagcgca tgttaatggc caaaggtgat     1980

gtggaccggc acgagcgcga gaccaaggcg ccgaagaaaa agattcctga caagactatc     2040

atgttcacgc aactgtccac ccgagtttcg gagaatgtca cagataccaa tcttttcgac     2100

ctttcgttgt ctcaagcgct tggcacggca cccaaaacta ccaaatacaa ctttgctagt     2160

tccaaacttg gcaaagtgat ccagctggcc ggcttctcag accccgtcta tgcggaagcg     2220

tacgtcaacg tcaaccagta cgacattgtt ttggatgtgc tcgtggtcaa ccaaaccagc     2280

gacacactgc agaatctgac gctggagctg tcgactgtgg gcgacttgaa actggtggac     2340

aaaccatctc caattacatt ggcgcccaat gacttcacca acatcaaagc caccgtcaaa     2400

gtgtcgtcca ccgaaaatgg agtaattttt tcgaccattg cttacgatgt gcgcggatca     2460

acatcggatc ggaactgtgt gtacctggag gacatccaca ttgacataat ggattacatt     2520

gtgccgggaa cttgcactga cacggagttt cgcaaaatgt gggccgaatt tgagtgggaa     2580

aacaaggttg gcgttgtgac gccgatcacg gaccttcgcc agtatctgga ccatttgtcg     2640

gctcaaacaa acatgaagct gttgaccacg gatgccgcat tagagggcga ctgcggtttt     2700

ttggcggcca acttttgtgc ccactccatt tttggtgagg acgcattggc caatgtttcc     2760

attgagaagg cggacccgct tgacccgatg agtgccatca ttggacacat tcggatcagg     2820

gcgaagtccc aggggatggc actttcattg ggggacaaga taaaccacgc gcaaaaggag     2880

cgcaaaccgg tggagagggg tggggcaaga gcggctatga atgccgctgc cgccgccgca     2940

aaataa                                                                2946


<210>  59
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  siRNA target site

<400>  59
tggagcagca gatcaatgaa attcaacgac                                        30


<210>  60
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  siRNA target site

<400>  60
attcgtaagg tgaaggtgct gaagaagccg                                        30


<210>  61
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  siRNA target site

<400>  61
aaaaacaaac aaatgttggt caaaaaggat                                        30


<210>  62
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  siRNA target site

<400>  62
ccgctctgtg gattcttggc gaatattgcg                                        30


<210>  63
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  63
accaatttga cccaaaaagg c                                                 21


<210>  64
<211>  24
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  64
gcagcagatc aatgaaattc aacg                                              24


<210>  65
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  65
agccgctctg tggattcttg                                                   20


<210>  66
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  66
aaactcctcg cctcttggtg                                                   20


<210>  67
<211>  22
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  67
tcttcagcac cttcacctta cg                                                22


<210>  68
<211>  25
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  68
tcctttttga ccaacatttg tttgt                                             25


<210>  69
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  69
accaatttga cccaaaaagg c                                                 21


<210>  70
<211>  26
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  70
tggacttaga atatgctatg ttggac                                            26


<210>  71
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  71
aaactcctcg cctcttggtg                                                   20


<210>  72
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  72
tctatctcta cctctaattc gttcgag                                           27


<210>  73
<211>  839
<212>  DNA
<213>  Artificial sequence

<220>
<223>  AtTAS1b_AT1G50055

<400>  73
aaatctaaac ctaagcggct aagcctgacg tcatttaaca aaaagagtaa acatgagcgc       60

cgtcaagctc tgcaactacg atctgtaact ccatcttaac acaaaagttg agataggttc      120

ttagatcagg ttccgctgtt aaatcgagtc atggtcttgt ctcatagaaa ggtactttct      180

tttacttctc ttgagtagct tctatagcta gattgagatt gaggttttga gatattaggt      240

tcgatgtccc ggtctatttg tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc      300

tgtatttggt tttatcggaa tacggagatc tattttcagg aggagacaac tttgttttct      360

tgtgattttt ctcaacaagc gaatgagtca ttcatcggta tctaaccatt caccatatta      420

tcagagtagt tatgattgat aggatggtag aagaatattc taagtccaac atagcatatt      480

ctaagtccaa catagcgtaa aaaattggga gatatccgga atgatattat acgtaaaaaa      540

aaatgggaga tgtccggaat gatatttgta atatttttat gttaacgaaa catattttag      600

gatatgcaaa aaaaagtaga tgttggtatt cttgttttgc aagatttgta atgggagttg      660

tgtagtcttt ttatgatgtg tcatgaagtc taccgccaat tacatacatc attcactttg      720

taattaaatt gtcttcaagt ttgtaatttt atttttgttt tatgtaccaa aatctaaatt      780

cagttgttta caacttgata acaaaaaaaa agttatacat tacttatgtt ttcacactc       839


<210>  74
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  sgRNA_AtTAS1b (including PAM)

<400>  74
ggacttagaa tatgctatgt tgg                                               23


<210>  75
<211>  839
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Splicing factor-transcript

<400>  75
aaatctaaac ctaagcggct aagcctgacg tcatttaaca aaaagagtaa acatgagcgc       60

cgtcaagctc tgcaactacg atctgtaact ccatcttaac acaaaagttg agataggttc      120

ttagatcagg ttccgctgtt aaatcgagtc atggtcttgt ctcatagaaa ggtactttct      180

tttacttctc ttgagtagct tctatagcta gattgagatt gaggttttga gatattaggt      240

tcgatgtccc ggtctatttg tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc      300

tgtatttggt tttatcggaa tacggagatc tattttcagg aggagacaac tttgttttct      360

tgtgattttt ctcaacaagc gaatgagtca ttcatcggta tctaaccatt caccatatta      420

tcagagtagt tatgattgat aggatggtag aaggtcgttg aatttcattg atctgctgct      480

ccaagtccaa catagcgtaa aaaattggga gatatccgga atgatattat acgtaaaaaa      540

aaatgggaga tgtccggaat gatatttgta atatttttat gttaacgaaa catattttag      600

gatatgcaaa aaaaagtaga tgttggtatt cttgttttgc aagatttgta atgggagttg      660

tgtagtcttt ttatgatgtg tcatgaagtc taccgccaat tacatacatc attcactttg      720

taattaaatt gtcttcaagt ttgtaatttt atttttgttt tatgtaccaa aatctaaatt      780

cagttgttta caacttgata acaaaaaaaa agttatacat tacttatgtt ttcacactc       839


<210>  76
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Splicing 
       factor-transcript

<400>  76
gtcgttgaat ttcattgatc tgctgctcca                                        30


<210>  77
<211>  1000
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Splicing factor-DONOR

<400>  77
gttgttgttg ctaaatgaat gatattaatc cactacagtt gtaaactaca aatatacaaa       60

gcagtaaaaa tccatgtatg atgattaata agaagctttc gaatggatat agaaaaaact      120

tgaatcattg agtgtgaaaa cataagtaat gtataacttt ttttttgtta tcaagttgta      180

aacaactgaa tttagatttt ggtacataaa acaaaaataa aattacaaac ttgaagacaa      240

tttaattaca aagtgaatga tgtatgtaat tggcggtaga cttcatgaca catcataaaa      300

agactacaca actcccatta caaatcttgc aaaacaagaa taccaacatc tacttttttt      360

tgcatatcct aaaatatgtt tcgttaacat aaaaatatta caaatatcat tccggacatc      420

tcccattttt ttttacgtat aatatcattc cggatatctc ccaatttttt acgctatgtt      480

ggacttggag cagcagatca atgaaattca acgaccttct accatcctat caatcataac      540

tactctgata atatggtgaa tggttagata ccgatgaatg actcattcgc ttgttgagaa      600

aaatcacaag aaaacaaagt tgtctcctcc tgaaaataga tctccgtatt ccgataaaac      660

caaatacaga gagcacggga ctggtcgaaa ctgacacatg gctggtgaca aatagaccgg      720

gacatcgaac ctaatatctc aaaacctcaa tctcaatcta gctatagaag ctactcaaga      780

gaagtaaaag aaagtacctt tctatgagac aagaccatga ctcgatttaa cagcggaacc      840

tgatctaaga acctatctca acttttgtgt taagatggag ttacagatcg tagttgcaga      900

gcttgacggc gctcatgttt actctttttg ttaaatgacg tcaggcttag ccgcttaggt      960

ttagatttat gaggtcggta atgagtgact tgggtttata                           1000


<210>  78
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Splicing 
       factor-DONOR

<400>  78
tggagcagca gatcaatgaa attcaacgac                                        30


<210>  79
<211>  839
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Y25-transcript

<400>  79
aaatctaaac ctaagcggct aagcctgacg tcatttaaca aaaagagtaa acatgagcgc       60

cgtcaagctc tgcaactacg atctgtaact ccatcttaac acaaaagttg agataggttc      120

ttagatcagg ttccgctgtt aaatcgagtc atggtcttgt ctcatagaaa ggtactttct      180

tttacttctc ttgagtagct tctatagcta gattgagatt gaggttttga gatattaggt      240

tcgatgtccc ggtctatttg tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc      300

tgtatttggt tttatcggaa tacggagatc tattttcagg aggagacaac tttgttttct      360

tgtgattttt ctcaacaagc gaatgagtca ttcatcggta tctaaccatt caccatatta      420

tcagagtagt tatgattgat aggatggtag cgcaatattc gccaagaatc cacagagcgg      480

ctaagtccaa catagcgtaa aaaattggga gatatccgga atgatattat acgtaaaaaa      540

aaatgggaga tgtccggaat gatatttgta atatttttat gttaacgaaa catattttag      600

gatatgcaaa aaaaagtaga tgttggtatt cttgttttgc aagatttgta atgggagttg      660

tgtagtcttt ttatgatgtg tcatgaagtc taccgccaat tacatacatc attcactttg      720

taattaaatt gtcttcaagt ttgtaatttt atttttgttt tatgtaccaa aatctaaatt      780

cagttgttta caacttgata acaaaaaaaa agttatacat tacttatgtt ttcacactc       839


<210>  80
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Y25-transcript

<400>  80
cgcaatattc gccaagaatc cacagagcgg                                        30


<210>  81
<211>  1000
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Y25-DONOR

<400>  81
gttgttgttg ctaaatgaat gatattaatc cactacagtt gtaaactaca aatatacaaa       60

gcagtaaaaa tccatgtatg atgattaata agaagctttc gaatggatat agaaaaaact      120

tgaatcattg agtgtgaaaa cataagtaat gtataacttt ttttttgtta tcaagttgta      180

aacaactgaa tttagatttt ggtacataaa acaaaaataa aattacaaac ttgaagacaa      240

tttaattaca aagtgaatga tgtatgtaat tggcggtaga cttcatgaca catcataaaa      300

agactacaca actcccatta caaatcttgc aaaacaagaa taccaacatc tacttttttt      360

tgcatatcct aaaatatgtt tcgttaacat aaaaatatta caaatatcat tccggacatc      420

tcccattttt ttttacgtat aatatcattc cggatatctc ccaatttttt acgctatgtt      480

ggacttagcc gctctgtgga ttcttggcga atattgcgct accatcctat caatcataac      540

tactctgata atatggtgaa tggttagata ccgatgaatg actcattcgc ttgttgagaa      600

aaatcacaag aaaacaaagt tgtctcctcc tgaaaataga tctccgtatt ccgataaaac      660

caaatacaga gagcacggga ctggtcgaaa ctgacacatg gctggtgaca aatagaccgg      720

gacatcgaac ctaatatctc aaaacctcaa tctcaatcta gctatagaag ctactcaaga      780

gaagtaaaag aaagtacctt tctatgagac aagaccatga ctcgatttaa cagcggaacc      840

tgatctaaga acctatctca acttttgtgt taagatggag ttacagatcg tagttgcaga      900

gcttgacggc gctcatgttt actctttttg ttaaatgacg tcaggcttag ccgcttaggt      960

ttagatttat gaggtcggta atgagtgact tgggtttata                           1000


<210>  82
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of Y25-DONOR

<400>  82
ccgctctgtg gattcttggc gaatattgcg                                        30


<210>  83
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  AtTAS3a_AT3G17185

<400>  83
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tctatctcta cctctaattc gttcgagtca      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  84
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  sgRNA_AtTAS3a (including PAM)

<400>  84
aaatgactcg aacgaattag agg                                               23


<210>  85
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Ribosomal protein 3a-transcript

<400>  85
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tcggcttctt cagcaccttc accttacgaa      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  86
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Ribosomal protein 
       3a-transcript

<400>  86
cggcttcttc agcaccttca ccttacgaat                                        30


<210>  87
<211>  1000
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS- Ribosomal protein 3a -DONOR

<400>  87
tgtacatgca ttataccaac ataaatttgt atcaatacta cttttgattt acgatgatgg       60

atgttcttag atatcttcat acgtttgttt ccacatgtat ttacaactac atatatattt      120

ggaatcacat atatacttga ttattatagt tgtaaagagt aacaagttct tttttcaggc      180

attaaggaaa acataacctc cgtgatgcat agagattatt ggatccgctg tgctgagaca      240

ttgagttttt cttcggcatt ccagtttcaa tgataaagcg gtgttatcct atctgagctt      300

ttagtcggat tttttctttt caattattgt gttttatcta gatgatgcat ttcattattc      360

tctttttctt gaccttgtaa ggccttttct tgaccttgta agaccccatc tctttctaaa      420

cgttttatta ttttctcgtt ttacagattc tattctatct cttctcaata tagaatagat      480

atcggcttct tcagcacctt caccttacga attttctcct accttgtcta tccctcctga      540

gctaatctcc acatatatct tttgtttgtt attgatgtat ggttgacata aattcaataa      600

agaagttgac gtttttctta tttgattttt gttgttgttg gttatattat tgcaacaaaa      660

ttaaaggggg taaggaaggt ctcgctatca aggggactgg caaaaggtaa tgaataagga      720

aacgggcaaa aagaattatg cctttactct ctcttttaag gctttggaca ggaatttagt      780

tttgttttat gtgttgtgtt gtttgtttgg gtctgactga ccccaaaggg caaagccaaa      840

ccagagaaga ctcttattaa atattccctc agaatcattt attgcctcta tctttatctc      900

tctctttctc acactcgtga ctgtttctca ccttatgtat gtactagtaa tagtttttac      960

cactttcaac ttttacaaat agcatttgtt tctgtttaaa                           1000


<210>  88
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS- Ribosomal protein
       3a -DONOR

<400>  88
cggcttcttc agcaccttca ccttacgaat                                        30


<210>  89
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Spliceosomal SR protein-transcript

<400>  89
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tcctttttga ccaacatttg tttgttttta      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  90
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Spliceosomal SR 
       protein-transcript

<400>  90
atcctttttg accaacattt gtttgttttt                                        30


<210>  91
<211>  1000
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Spliceosomal SR protein-DONOR

<400>  91
tgtacatgca ttataccaac ataaatttgt atcaatacta cttttgattt acgatgatgg       60

atgttcttag atatcttcat acgtttgttt ccacatgtat ttacaactac atatatattt      120

ggaatcacat atatacttga ttattatagt tgtaaagagt aacaagttct tttttcaggc      180

attaaggaaa acataacctc cgtgatgcat agagattatt ggatccgctg tgctgagaca      240

ttgagttttt cttcggcatt ccagtttcaa tgataaagcg gtgttatcct atctgagctt      300

ttagtcggat tttttctttt caattattgt gttttatcta gatgatgcat ttcattattc      360

tctttttctt gaccttgtaa ggccttttct tgaccttgta agaccccatc tctttctaaa      420

cgttttatta ttttctcgtt ttacagattc tattctatct cttctcaata tagaatagat      480

atcctttttg accaacattt gtttgttttt attttctcct accttgtcta tccctcctga      540

gctaatctcc acatatatct tttgtttgtt attgatgtat ggttgacata aattcaataa      600

agaagttgac gtttttctta tttgattttt gttgttgttg gttatattat tgcaacaaaa      660

ttaaaggggg taaggaaggt ctcgctatca aggggactgg caaaaggtaa tgaataagga      720

aacgggcaaa aagaattatg cctttactct ctcttttaag gctttggaca ggaatttagt      780

tttgttttat gtgttgtgtt gtttgtttgg gtctgactga ccccaaaggg caaagccaaa      840

ccagagaaga ctcttattaa atattccctc agaatcattt attgcctcta tctttatctc      900

tctctttctc acactcgtga ctgtttctca ccttatgtat gtactagtaa tagtttttac      960

cactttcaac ttttacaaat agcatttgtt tctgtttaaa                           1000


<210>  92
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Homologous region in the GEiGS design of GEiGS-Spliceosomal SR 
       protein-DONOR

<400>  92
atcctttttg accaacattt gtttgttttt                                        30


<210>  93
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  93
taacataaaa atattacaaa tatcattccg                                        30


<210>  94
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  94
tcagagtagt tatgattgat aggatgg                                           27


<210>  95
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  95
gctcaggagg gatagacaag g                                                 21


<210>  96
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  96
ctcgttttac agattctatt ctatctc                                           27


<210>  97
<211>  22
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  97
tgaccttgta agaccccatc tc                                                22


<210>  98
<211>  24
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  98
aggagaaaat tcgtaaggtg aagg                                              24


<210>  99
<211>  22
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  99
tgaccttgta agaccccatc tc                                                22


<210>  100
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  100
ggtaggagaa aatgactcga acg                                               23


<210>  101
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  101
caaccataca tcaataacaa acaaaag                                           27


<210>  102
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  102
atatagaata gatatcggct tcttcag                                           27


<210>  103
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  103
caaccataca tcaataacaa acaaaag                                           27


<210>  104
<211>  25
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  104
tcctttttga ccaacatttg tttgt                                             25


<210>  105
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  105
gagtcattca tcggtatcta acc                                               23


<210>  106
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  106
agccgctctg tggattcttg                                                   20


<210>  107
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  107
gagtcattca tcggtatcta acc                                               23


<210>  108
<211>  26
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  108
tggacttaga atatgctatg ttggac                                            26


<210>  109
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  109
gcatatccta aaatatgttt cgttaac                                           27


<210>  110
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  110
tcgccaagaa tccacagagc                                                   20


<210>  111
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  111
gcatatccta aaatatgttt cgttaac                                           27


<210>  112
<211>  27
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  112
taagtccaac atagcatatt ctaagtc                                           27


<210>  113
<211>  40
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  113
atgtttgaac gatcgggccc aagggacacg aagtgatccg                             40


<210>  114
<211>  38
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  114
ctccaccatg ttcccggggg cacagagtgt tcaacccc                               38


<210>  115
<211>  1038
<212>  DNA
<213>  Artificial sequence

<220>
<223>  AtTAS1B (At1g50055)

<400>  115
ttgacccaaa aaggctttgt actctttaca taacaaaaaa ggtcaaatag ggaaaacgat       60

gggactttat aaacccaagt cactcattac cgacctcata aatctaaacc taagcggcta      120

agcctgacgt catttaacaa aaagagtaaa catgagcgcc gtcaagctct gcaactacga      180

tctgtaactc catcttaaca caaaagttga gataggttct tagatcaggt tccgctgtta      240

aatcgagtca tggtcttgtc tcatagaaag gtactttctt ttacttctct tgagtagctt      300

ctatagctag attgagattg aggttttgag atattaggtt cgatgtcccg gtctatttgt      360

caccagccat gtgtcagttt cgaccagtcc cgtgctctct gtatttggtt ttatcggaat      420

acggagatct attttcagga ggagacaact ttgttttctt gtgatttttc tcaacaagcg      480

aatgagtcat tcatcggtat ctaaccattc accatattat cagagtagtt atgattgata      540

ggatggtaga agaatattct aagtccaaca tagcatattc taagtccaac atagcgtaaa      600

aaattgggag atatccggaa tgatattata cgtaaaaaaa aatgggagat gtccggaatg      660

atatttgtaa tatttttatg ttaacgaaac atattttagg atatgcaaaa aaaagtagat      720

gttggtattc ttgttttgca agatttgtaa tgggagttgt gtagtctttt tatgatgtgt      780

catgaagtct accgccaatt acatacatca ttcactttgt aattaaattg tcttcaagtt      840

tgtaatttta tttttgtttt atgtaccaaa atctaaattc agttgtttac aacttgataa      900

caaaaaaaaa gttatacatt acttatgttt tcacactcaa tgattcaagt tttttctata      960

tccattcgaa agcttcttat taatcatcat acatggattt ttactgcttt gtatatttgt     1020

agtttacaac tgtagtgg                                                   1038


<210>  116
<211>  1039
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-TuMV

<400>  116
tttgacccaa aaaggctttg tactctttac ataacaaaaa aggtcaaata gggaaaacga       60

tgggacttta taaacccaag tcactcatta ccgacctcat aaatctaaac ctaagcggct      120

aagcctgacg tcatttaaca aaaagagtaa acatgagcgc cgtcaagctc tgcaactacg      180

atctgtaact ccatcttaac acaaaagttg agataggttc ttagatcagg ttccgctgtt      240

aaatcgagtc atggtcttgt ctcatagaaa ggtactttct tttacttctc ttgagtagct      300

tctatagcta gattgagatt gaggttttga gatattaggt tcgatgtccc ggtctatttg      360

tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc tgtatttggt tttatcggaa      420

tacggagatc tattttcagg aggagacaac tttgttttct tgtgattttt ctcaacaagc      480

gaatgagtca ttcatcggta tctaaccatt caccatatta tcagagtagt tatgattgat      540

aggatggtag aagaatattc taagtccaac atagcataac ttgctcacac actcgactga      600

aaaattggga gatatccgga atgatattat acgtaaaaaa aaatgggaga tgtccggaat      660

gatatttgta atatttttat gttaacgaaa catattttag gatatgcaaa aaaaagtaga      720

tgttggtatt cttgttttgc aagatttgta atgggagttg tgtagtcttt ttatgatgtg      780

tcatgaagtc taccgccaat tacatacatc attcactttg taattaaatt gtcttcaagt      840

ttgtaatttt atttttgttt tatgtaccaa aatctaaatt cagttgttta caacttgata      900

acaaaaaaaa agttatacat tacttatgtt ttcacactca atgattcaag ttttttctat      960

atccattcga aagcttctta ttaatcatca tacatggatt tttactgctt tgtatatttg     1020

tagtttacaa ctgtagtgg                                                  1039


<210>  117
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-TuMV- mature siRNA

<400>  117
acttgctcac acactcgact g                                                 21


<210>  118
<211>  1039
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-dummy

<400>  118
tttgacccaa aaaggctttg tactctttac ataacaaaaa aggtcaaata gggaaaacga       60

tgggacttta taaacccaag tcactcatta ccgacctcat aaatctaaac ctaagcggct      120

aagcctgacg tcatttaaca aaaagagtaa acatgagcgc cgtcaagctc tgcaactacg      180

atctgtaact ccatcttaac acaaaagttg agataggttc ttagatcagg ttccgctgtt      240

aaatcgagtc atggtcttgt ctcatagaaa ggtactttct tttacttctc ttgagtagct      300

tctatagcta gattgagatt gaggttttga gatattaggt tcgatgtccc ggtctatttg      360

tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc tgtatttggt tttatcggaa      420

tacggagatc tattttcagg aggagacaac tttgttttct tgtgattttt ctcaacaagc      480

gaatgagtca ttcatcggta tctaaccatt caccatatta tcagagtagt tatgattgat      540

aggatggtag aagaatattg gaggggtaat gccattgctt ctaagtccaa catagcgtaa      600

aaaattggga gatatccgga atgatattat acgtaaaaaa aaatgggaga tgtccggaat      660

gatatttgta atatttttat gttaacgaaa catattttag gatatgcaaa aaaaagtaga      720

tgttggtatt cttgttttgc aagatttgta atgggagttg tgtagtcttt ttatgatgtg      780

tcatgaagtc taccgccaat tacatacatc attcactttg taattaaatt gtcttcaagt      840

ttgtaatttt atttttgttt tatgtaccaa aatctaaatt cagttgttta caacttgata      900

acaaaaaaaa agttatacat tacttatgtt ttcacactca atgattcaag ttttttctat      960

atccattcga aagcttctta ttaatcatca tacatggatt tttactgctt tgtatatttg     1020

tagtttacaa ctgtagtgg                                                  1039


<210>  119
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-dummy- mature siRNA

<400>  119
ttggaggggt aatgccattg c                                                 21


<210>  120
<211>  102
<212>  DNA
<213>  Artificial sequence

<220>
<223>  miR173_ AT3G23125

<400>  120
taagtacttt cgcttgcaga gagaaatcac agtggtcaaa aaagttgtag ttttcttaaa       60

gtctctttcc tctgtgattc tctgtgtaag cgaaagagct tg                         102


<210>  121
<211>  22
<212>  DNA
<213>  Artificial sequence

<220>
<223>  miR173-mature miRNA

<400>  121
ttcgcttgca gagagaaatc ac                                                22


<210>  122
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  AtTAS3a_AT3G17185

<400>  122
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tctatctcta cctctaattc gttcgagtca      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  123
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Ribosomal protein 3a-transcript

<400>  123
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tcggcttctt cagcaccttc accttacgaa      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  124
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Ribosomal protein 3a-transcript - the expected processed 
       siRNA

<400>  124
cggcttcttc agcaccttca ccttacgaat                                        30


<210>  125
<211>  947
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Spliceosomal SR protein-transcript

<400>  125
atcccaccgt ttcttaagac tctctctctt tctgttttct atttctctct ctctcaaatg       60

aaagagagag aagagctccc atggatgaaa ttagcgagac cgaagtttct ccaaggtgat      120

atgtctatct gtatatgtga tacgaagagt tagggttttg tcatttcgaa gtcaattttt      180

gtttgtttgt caataatgat atctgaatga tgaagaacac gtaactaaga tatgttactg      240

aactatataa tacatatgtg tgtttttctg tatctatttc tatatatatg tagatgtagt      300

gtaagtctgt tatatagaca ttattcatgt gtacatgcat tataccaaca taaatttgta      360

tcaatactac ttttgattta cgatgatgga tgttcttaga tatcttcata cgtttgtttc      420

cacatgtatt tacaactaca tatatatttg gaatcacata tatacttgat tattatagtt      480

gtaaagagta acaagttctt ttttcaggca ttaaggaaaa cataacctcc gtgatgcata      540

gagattattg gatccgctgt gctgagacat tgagtttttc ttcggcattc cagtttcaat      600

gataaagcgg tgttatccta tctgagcttt tagtcggatt ttttcttttc aattattgtg      660

ttttatctag atgatgcatt tcattattct ctttttcttg accttgtaag gccttttctt      720

gaccttgtaa gaccccatct ctttctaaac gttttattat tttctcgttt tacagattct      780

attctatctc ttctcaatat agaatagata tcctttttga ccaacatttg tttgttttta      840

ttttctccta ccttgtctat ccctcctgag ctaatctcca catatatctt ttgtttgtta      900

ttgatgtatg gttgacataa attcaataaa gaagttgacg tttttct                    947


<210>  126
<211>  30
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS-Spliceosomal SR protein-transcript - the expected processed
       siRNA

<400>  126
atcctttttg accaacattt gtttgttttt                                        30


<210>  127
<211>  107
<212>  DNA
<213>  Artificial sequence

<220>
<223>  miR390_ AT2G38325

<400>  127
gtagagaaga atctgtaaag ctcaggaggg atagcgccat gatgatcaca ttcgttatct       60

attttttggc gctatccatc ctgagtttca ttggctcttc ttactac                    107


<210>  128
<211>  25
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  128
gctcaactga caaagaatct ctcac                                             25


<210>  129
<211>  25
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  129
ttgaaaattg ggtcaaagaa atgcg                                             25


<210>  130
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  130
gaacggtcgc tacgattacg a                                                 21


<210>  131
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  131
caaacgctct gttgaacagg c                                                 21


<210>  132
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  132
ttccagcaga tgtggatcag                                                   20


<210>  133
<211>  20
<212>  DNA
<213>  Artificial sequence

<220>
<223>  Single strand DNA oligonucleotide

<400>  133
cggccttatt cttcaagcac                                                   20


<210>  134
<211>  23
<212>  DNA
<213>  Artificial sequence

<220>
<223>  sgRNA which would have been used to cut TAS1b

<400>  134
ccaacatagc gtaaaaaatt ggg                                               23


<210>  135
<211>  21
<212>  DNA
<213>  Artificial sequence

<220>
<223>  siRNA sequence that targets TuMV (which would have been 
       introduced into the TAS1b backbone by the GEiGS donor using an 
       HDR-mediated swap)

<400>  135
acttgctcac acactcgact g                                                 21


<210>  136
<211>  1200
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS donor which included the desired changes to the TAS1b 
       backbone

<400>  136
atacatacca atttgaccca aaaaggcttt gtactcttta cataacaaaa aaggtcaaat       60

agggaaaacg atgggacttt ataaacccaa gtcactcatt accgacctca taaatctaaa      120

cctaagcggc taagcctgac gtcatttaac aaaaagagta aacatgagcg ccgtcaagct      180

ctgcaactac gatctgtaac tccatcttaa cacaaaagtt gagataggtt cttagatcag      240

gttccgctgt taaatcgagt catggtcttg tctcatagaa aggtactttc ttttacttct      300

cttgagtagc ttctatagct agattgagat tgaggttttg agatattagg ttcgatgtcc      360

cggtctattt gtcaccagcc atgtgtcagt ttcgaccagt cccgtgctct ctgtatttgg      420

ttttatcgga atacggagat ctattttcag gaggagacaa ctttgttttc ttgtgatttt      480

tctcaacaag cgaatgagtc attcatcggt atctaaccat tcaccatatt atcagagtag      540

ttatgattga taggatggta gaagaatatt ctaagtccaa catagcataa cttgctcaca      600

cactcgactg aaaaattggg agatatccgg aatgatatta tacgtaaaaa aaaatgggag      660

atgtccggaa tgatatttgt aatattttta tgttaacgaa acatatttta ggatatgcaa      720

aaaaaagtag atgttggtat tcttgttttg caagatttgt aatgggagtt gtgtagtctt      780

tttatgatgt gtcatgaagt ctaccgccaa ttacatacat cattcacttt gtaattaaat      840

tgtcttcaag tttgtaattt tatttttgtt ttatgtacca aaatctaaat tcagttgttt      900

acaacttgat aacaaaaaaa aagttataca ttacttatgt tttcacactc aatgattcaa      960

gttttttcta tatccattcg aaagcttctt attaatcatc atacatggat ttttactgct     1020

ttgtatattt gtagtttaca actgtagtgg attaatatca ttcatttagc aacaacaaca     1080

ctcgttaagt ttgctcactt gtcataatta taaaccaacg catgcatcac atatataagt     1140

aaatgcaaaa cctatgcagc tattatcaaa gtcttcactt ctcaaacgtg cttcaatcac     1200


<210>  137
<211>  1039
<212>  DNA
<213>  Artificial sequence

<220>
<223>  GEiGS oligo which would have been expressed in Arabidopsis 
       following GEiGS with the donor of (3) (designed to introduce the 
       mature siRNA sequence of (1) into the TAS1b sequence)

<400>  137
tttgacccaa aaaggctttg tactctttac ataacaaaaa aggtcaaata gggaaaacga       60

tgggacttta taaacccaag tcactcatta ccgacctcat aaatctaaac ctaagcggct      120

aagcctgacg tcatttaaca aaaagagtaa acatgagcgc cgtcaagctc tgcaactacg      180

atctgtaact ccatcttaac acaaaagttg agataggttc ttagatcagg ttccgctgtt      240

aaatcgagtc atggtcttgt ctcatagaaa ggtactttct tttacttctc ttgagtagct      300

tctatagcta gattgagatt gaggttttga gatattaggt tcgatgtccc ggtctatttg      360

tcaccagcca tgtgtcagtt tcgaccagtc ccgtgctctc tgtatttggt tttatcggaa      420

tacggagatc tattttcagg aggagacaac tttgttttct tgtgattttt ctcaacaagc      480

gaatgagtca ttcatcggta tctaaccatt caccatatta tcagagtagt tatgattgat      540

aggatggtag aagaatattc taagtccaac atagcataac ttgctcacac actcgactga      600

aaaattggga gatatccgga atgatattat acgtaaaaaa aaatgggaga tgtccggaat      660

gatatttgta atatttttat gttaacgaaa catattttag gatatgcaaa aaaaagtaga      720

tgttggtatt cttgttttgc aagatttgta atgggagttg tgtagtcttt ttatgatgtg      780

tcatgaagtc taccgccaat tacatacatc attcactttg taattaaatt gtcttcaagt      840

ttgtaatttt atttttgttt tatgtaccaa aatctaaatt cagttgttta caacttgata      900

acaaaaaaaa agttatacat tacttatgtt ttcacactca atgattcaag ttttttctat      960

atccattcga aagcttctta ttaatcatca tacatggatt tttactgctt tgtatatttg     1020

tagtttacaa ctgtagtgg                                                  1039


<210>  138
<211>  25
<212>  DNA
<213>  Artificial sequence

<220>
<223>  parameters for FASTQ


<220>
<221>  misc_feature
<222>  (1)..(4)
<223>  n is a, c, g, t or u

<400>  138
nnnntggaat tctcgggtgc caagg                                             25


<210>  139
<211>  67
<212>  DNA
<213>  Artificial sequence

<220>
<223>  parameters for FASTQ

<400>  139
agatcggaag agcacacgtc tgaactccag tcaaagatcg gaagagcgtc gtgtagggaa       60

agagtgt                                                                 67


