                         SEQUENCE LISTING

<110>  Wacker Chemie AG
 
<120>  Mikroorganismen-Stamm und Verfahren zur fermentativen Herstellung
        von Methylanthranilat

<130>  Wa11744F

<160>  12    

<170>  PatentIn version 3.5

<210>  1
<211>  1149
<212>  DNA
<213>  Zea mays

<400>  1
atgccgatgc ggattgaacg tgaccttcat atggcgattg ggaatggaga aaccagctat       60

accaagaact cgcgtattca ggagaaagcc atgtttcaga tgaaatcggt tctggaagaa      120

gcaacacgcg cggtctgtac caccctgttg ccgcagacaa tggtggtcgc tgatttgggc      180

tgttcgtctg gtcccaatac tttgcgcttt gtaacggagg tgacgcgtat tatcgcacat      240

cattgcaaac tggagcataa tcgtcgccac gaccatctgc ctcaactgca gttcttcctg      300

aatgacctcc caggcaacga tttcaacaac ctgtttcaac tgatcgaaca gtttaacaag      360

tcgtcaacga cacataaagg ggatgccgct accgaagccc tgcaacctcc ctgctacatt      420

agcggtctgc caggtagcta ctatacccgc attttcccga gcgaaagtgt acatctgttc      480

cactccttat tctgcctgca atggcgttct caggcaccag aacagcttaa aggtactcag      540

aagtcatgct tggatatcta catcaccaaa accatgtctc cgagcatggt caaactgttt      600

cagcagcaat ttcaaaagga ctttagcctc tttctgcgct tacgctatga agaactggtt      660

tcaggcggtc aaatggtgct gacgtttatc ggacggaaac acgaagatgt gttcactggt      720

gagagtaacc acctgtatgg cctgttagct cagagcctga aatccctggt tgacgaaggc      780

ttagtggaga aagagaaact tgagtccttt tacttgccga tttactcccc gtctgtaggc      840

gaagttgaag cgattgtgaa acagttaggg ctgtttaaca tgaaccacgt caaagtgttc      900

gagatcaact gggatccgta tgatgacagc gaaggcgatg atgtacacaa tagtatcgaa      960

agtggcgaaa atgtggcgaa atgtttgcgc gccgtgatgg aaccgcttgt tgcgtcacag     1020

tttggtgaac gcattctgga tgagctgttc aaagaatatg cacgtcgcgt tgccaaacat     1080

ctcgaaaatg agaaaacgaa acatgcggtg ctcgttttat cgattgaaaa ggcgattatc     1140

cacgtctaa                                                             1149


<210>  2
<211>  1188
<212>  DNA
<213>  Rattus norwegicus

<400>  2
atgggacctg tggatggctt gtgtgaccat tctctaagtg aagagggagc cttcatgttc       60

acatctgaat cggtaggaga agggcatcca gataagatct gtgaccagat tagtgatgca      120

gtgctggatg cccatctcaa gcaagacccc aatgccaagg tggcctgtga gacagtgtgc      180

aagacaggga tggtgctcct gtgtggagag atcacctcaa tggccatgat tgactaccag      240

cgggtggtga gagacaccat taagcacatt ggctacgatg actctgccaa gggcttcgac      300

ttcaagacct gcaatgtgct cgtggctctg gagcaacagt ccccagacat tgcccaatgt      360

gtccatctag acagaaatga ggaggacgtt ggtgcaggag atcagggtct gatgttcggc      420

tatgccactg acgagacaga ggagtgcatg ccgctcacca ttgttcttgc tcacaaactc      480

aacacccgga tggcagatct gaggcgctct ggtgtccttc cctggctgag acctgattct      540

aagactcagg taacagttca gtacgtgcag gataatggtg ctgtcatccc tgttcgcgtc      600

cacaccatcg tcatctctgt gcaacacaac gaagacataa cactggaggc catgcgagag      660

gccctgaagg agcaggtgat caaagctgtg gtgccagcca agtacctgga tgaagacacc      720

atctaccacc tgcagccaag tgggcggttt gtcatcggag gtccccaggg ggatgcaggt      780

gtcacaggcc gcaagattat tgtggacaca tacggaggct ggggtgccca tggtggtggt      840

gccttctctg gaaaggacta caccaaggtg gaccgctcag cagcttatgc cgcccgctgg      900

gtggccaagt ctctggtgaa ggctgggctc tgccggagag tccttgttca ggtgtcctat      960

gccattggtg tggcagaacc tctgtccatt tccattttca cctacggaac ttccaagaag     1020

actgagcgag agctactaga ggttgtgaac aagaactttg acctccggcc gggtgttatt     1080

gtcagggact tggatctgaa gaagcccatc taccagaaga ctgcatgcta tggtcatttc     1140

ggaagaagcg agtttccctg ggaggtcccc aagaagcttg tgttttag                  1188


<210>  3
<211>  1563
<212>  DNA
<213>  Escherichia coli

<400>  3
atgcagacgc agaaaccgac tctggaactc cttacgtgtg agggcgctta ccgcgataat       60

cccacagcac tcttccacca gttatgcggg gatcgccctg caacgttact gctggaaagc      120

gcagatattg actccaaaga cgacctgaaa agccttctgc tggtcgatag tgcgctgcgt      180

attacggcgc tcggcgatac cgtcaccatt caggcgttat ctggcaatgg cgaagcgctg      240

ctggcgcttc tggataacgc ccttccggct ggtgtcgaat ctgaacagag tccaaactgt      300

cgggtacttc gcttccctcc ggtttctcca ctgcttgacg aggatgctcg gctgtgcagt      360

ttatcggtgt ttgatgcgtt tcgcctgttg cagaacctgt taaacgtgcc taaagaggaa      420

cgcgaagcca tgttctttgg agggctgttc tcgtacgatc tggttgcggg tttcgaggat      480

ctgccccaac tcagcgcgga gaacaactgc ccggacttct gcttctattt ggcagaaaca      540

cttatggtga tcgaccatca gaagaaatcc acccgcattc aggcaagcct gtttgctccg      600

aatgaagaag agaaacagcg tttaaccgcg cggttgaatg agctgcgcca acaattgact      660

gaagccgcac caccactgcc ggtggtttcg gtgccccaca tgcgttgcga gtgcaatcag      720

tcggatgaag aatttggcgg tgtagtacgg ctgctgcaga aagctattcg tgctggtgaa      780

atctttcaag tagtcccgag tcgtcgcttt tccttaccgt gtccctcacc gttagcggcg      840

tactatgtgt tgaagaagag caatccgagt ccgtatatgt tctttatgca ggataacgat      900

tttacgctgt ttggagcctc accggagagt agcctgaaat acgacgctac cagccgtcag      960

atcgaaatct acccgatcgc gggaacacgt ccgcgtggtc gtcgtgctga tggcagcctc     1020

gatcgcgacc tggactcgcg tattgaactg gaaatgcgca cggatcacaa ggaactgagc     1080

gagcacctga tgctggttga tctggcacgc aatgacttag cgcgcatttg tacccctggg     1140

tcacgctatg tggccgatct gaccaaagtc gaccgctact cgtatgtgat gcatctggtt     1200

tcacgcgttg tgggtgaact ccgtcacgat ttggatgccc tgcatgccta tcgcgcatgc     1260

atgaacatgg gcaccttgag cggtgccccg aaagttcgcg ccatgcagct gatcgccgaa     1320

gcagaaggtc gtcgtcgcgg ttcctatggt ggggcggtgg gctatttcac tgcgcatggc     1380

gatctggaca cctgtattgt gattcgctct gccttggtag agaatggcat cgccaccgtc     1440

caagcgggcg caggcgttgt tctcgattcc gtgccacaat ctgaagcgga cgaaacgcgc     1500

aacaaagccc gcgcagtcct gcgtgcgatt gctactgcgc atcatgccca agaaaccttt     1560

taa                                                                   1563


<210>  4
<211>  40
<212>  DNA
<213>  Oligonucleotide

<400>  4
tcccgggctg caggggtacc ttagacgtgg ataatcgcct                             40


<210>  5
<211>  50
<212>  DNA
<213>  Oligonucleotide

<400>  5
ttgtgtttta gcggggtacc aggaggtaga atgccgatgc ggattgaacg                  50


<210>  6
<211>  1563
<212>  DNA
<213>  Escherichia coli

<400>  6
atgcaaacgc agaagccgac tctcgagtta ctgacctgtg aaggtgccta tcgcgataac       60

agtacagcgc tgttccacca gttatgtggg gatcgcccgg caactctgct gctggaaagc      120

gcagacattg actccaaaga tgacctggaa agtctgctgc tggttgattc cgcgctgcgc      180

attaccgcat tgggcgatac cgtaaccatt caggccctgt ccggtaatgg tgaggcgctg      240

cttgcgcttt tggataacgc gctgcccgca ggcgttgaat ctgaacagtc accgaattgc      300

cgcgtgctgc gctttcctcc ggtttcaccc ttgctggatg aggatgcccg cttatgctcg      360

cttagcgtgt tcgatgcctt tcgcttactg cagaatcttc tgaatgtacc gaaagaggaa      420

cgcgaggcga tgttctttgg cggcttgttc agctacgatc tcgtagccgg ttttgaggac      480

ttgccccaac tcagtgcgga aaacaattgc cctgacttct gcttttatct ggccgaaacc      540

ctgatggtga ttgatcacca gaagaaatcg acacgtatcc aagcaagcct gtttgctccg      600

aacgaagagg agaaacagcg tttaacagcc cggttgaacg aactgcgcca acagctgacc      660

gaagctgcgc cacctctgcc agtggtgtca gttccgcaca tgcgttgtga atgcaatcaa      720

agcgatgagg agtttggcgg cgttgttcgc cttctgcaga aagcgattcg cgcgggcgaa      780

atcttccaag tggtcccctc tcgtcgcttc tccctgccgt gtccgtcccc gttagcagcg      840

tattacgtgc tgaagaaatc gaaccctagt ccatacatgt tctttatgca ggataacgac      900

ttcaccctct ttggtgcgtc accggaatcg tcgctgaaat acgatgcaac gagccgtcag      960

atcgaaattt atccgattgc gggaacgcgt ccgcgcggtc gccgtgccga tggaagtctg     1020

gaccgtgacc tggactcacg cattgaactg gaaatgcgca ccgaccataa agaactcagc     1080

gagcatctga tgttggtgga tctggcccgt aatgacctgg cgcgcatctg cacgccaggt     1140

tcgcggtatg tcgctgatct gaccaaagtg gatcgctatt cttacgtgat gcacctggtt     1200

agccgtgtag tgggtgaatt acgccatgac ttggacgccc ttcatgccta tcgcgcatgc     1260

atgaacatgg gcactctgtc tggtgcgcca aaagtccgtg caatgcagtt aatcgctgaa     1320

gcggaaggcc gtcgtcgtgg gagctatggt ggcgccgtcg ggtactttac ggcacatggg     1380

gatcttgata cgtgtatcgt cattcgcagc gctttagtcg aaaatggcat cgctacggta     1440

caggctggcg caggagtggt tctcgatagt gtcccgcagt ctgaagcgga tgaaacccgg     1500

aacaaagcgc gtgctgttct ccgggctatt gccactgcgc atcacgccca agaaaccttt     1560

taa                                                                   1563


<210>  7
<211>  38
<212>  DNA
<213>  Oligonucleotide

<400>  7
catatgtgaa ttactagttt aaaaggtttc ttgggcgt                               38


<210>  8
<211>  48
<212>  DNA
<213>  Oligonucleotide

<400>  8
gtacccctgc agcccgggag gaggtagaat gcaaacgcag aagccgac                    48


<210>  9
<211>  72
<212>  DNA
<213>  Oligonucleotide

<400>  9
atggctgaca ttctgctgct cgataatatc gactctttta cgtacaacct aattaaccct       60

cactaaaggg cg                                                           72


<210>  10
<211>  73
<212>  DNA
<213>  Oligonucleotide

<400>  10
ttaccctcgt gccgccagtg cggtgactct gtcgtaagcg gaaccactgc taatacgact       60

cactataggg ctc                                                          73


<210>  11
<211>  20
<212>  DNA
<213>  Oligonucleotide

<400>  11
gaatatgggg acgttaagcg                                                   20


<210>  12
<211>  20
<212>  DNA
<213>  Oligonucleotide

<400>  12
tttctcatca gtcagcaccg                                                   20


