>AT3G25070.1 | RIN4 (RPM1 INTERACTING PROTEIN 4) protein binding
AAGGGTCAAAGAATACATAGCATCACCACTAGTCAACGCTTTTATAAAACTTCTTCTTCG
TCTCCTCTCCTTCTCACATCTCTCTCTGTCTTTCTCTCTCAAACCTAACAAAAGCTTCAG
ACTTCAATTCTTTAGCTACCTCTCTCCCATGGCAGTAAGTGTTTTCTTTCCTTCTTTCCT
TCTCCTCTTCTTCTTATTTAGGTCTAGAGCTTTCTCTCAGATTATAGTTTTTGTTTCGAT
TCCGTCAATCTCTGACCCTTTTTTTGGAGGATTTGTAGAAAGTTGAGTCTTAATCTATTT
GCATTTATGGTTCTTCCTATTGAGATAACATTTCTATGGATTGCGATGTCTATTAGTATT
CAACTTTATGATTCTGATTTGCTTTAGATAAGAAAAGGGTTTTATGAAAGTTACTATTTT
TATGGTAAAGTTTCTATTTTTGCTTAGCAAAGATTTCAACTTTATCATTGTACTTGGTCG
AAATCGATAAACCCAATTTGTATTTGTTCTGTTTTGGATTCTTAAGTGAATTTGCTATCT
TGTTTCTGTGATGATTGTTCTTTAGGATGTTATGTTATTGAATGTTTTGTGGAAGGACAT
TGTTGTTGAATTGTTTGTTGCAACAGCGTTCGAATGTACCAAAATTTGGAAACTGGGAAG
CTGAGGAGAATGTTCCTTACACAGCTTACTTTGACAAAGCTCGTAAGACTCGAGCACCCG
GTAGCAAGATCATGAACCCGAATGACCCGGAGTATAACTCTGACTCTCAATCACAAGCTC
CTCCTCATCCTCCTTCTTCCAGAACCAAACCTGAGCAAGTTGACACGGTTAGAAGATCAC
GTGAGCATATGAGAAGCCGAGAAGAGAGCGAGTTGAAACAGTTTGGTGATGCTGGTGGTT
CATCAAATGAAGCTGCTAACAAAAGACAAGGAAGAGCTTCTCAGAACAATAGTTATGACA
ACAAGTCACCTTTGCATAAGAATTCTTATGATGGTACTGGAAAATCTAGGCCTAAACCTA
CCAACCTTAGAGCTGATGAAAGTGTAAGAATCTCACTTTTAACCTCTAAAGTGAGAATAT
CTCTGTTTGTTGCTTATGTGTTGTCATCTGTTTATATATAGCCTGAAAAAGTCACAGTGG
TGCCTAAATTCGGTGACTGGGACGAGAACAACCCGTCATCAGCTGACGGATACACGCATA
TCTTCAATAAAGTCCGTGAAGAGAGAAGTTCTGGAGCAAATGTGAGTGGATCTTCAAGAA
CGCCGACTCATCAAAGCTCCCGTAACCCGAACAACACTTCCTCAGTAAGACATTCTTTAA
AACTCATTTTCAAGTATAATCATTAGTGAATACGTATTCAAATAGTGAGTGTGTGTTGAA
CATTGGTTTGTCTTGTGCAATTTGACAGTGTTGCTGCTTTGGCTTTGGAGGAAAATGAAA
GGGACCGGAAGATTGTATATAGTTATCGAGAAATCAGTGTGTAATCTTGATGATTAGACA
TTCGTGCTTCTTTAGATGAAATAAGGCATAAGTCTCACTTGCATAAGATTTTTATAGTAT
AATTTTTGTATGTATATTTTGCAATTCTTCCTTAATACTTTTGGTGTTTTCATAAGACAC
ATTCCAGTTTCGGATCTGCTTGCAGATGCATTATATCTTGCTTGGTACGGCCTGAGTGAT
TTGGTAACTGATTTGATATGAATCAGAGATATTTGGGTACC
>AT3G07040.1 | RPM1 (RESISTANCE TO P SYRINGAE PV MACULICOLA 1) nucleotide binding / protein binding
ATGGCTTCGGCTACTGTTGATTTTGGGATCGGACGGATTCTTAGTGTCCTGGAAAACGAG
ACCTTGTTATTGTCAGGAGTCCATGGTGAGATTGATAAAATGAAGAAGGAGTTGCTGATC
ATGAAGTCCTTTCTTGAGGATACTCATAAACATGGTGGAAATGGATCCACAACAACAACA
ACTCAACTCTTCCAAACTTTTGTGGCAAACACGAGAGATTTGGCTTACCAAATCGAAGAC
ATTCTCGACGAGTTTGGCTATCACATCCACGGTTATCGTAGCTGCGCCAAAATTTGGCGT
GCGTTTCATTTCCCGAGGTATATGTGGGCGAGGCACTCGATAGCTCAAAAGCTAGGAATG
GTTAATGTCATGATTCAATCCATTTCTGATTCCATGAAAAGGTACTATCATTCAGAAAAC
TACCAAGCAGCATTATTACCGCCTATTGATGATGGCGATGCAAAGTGGGTGAACAACATC
AGTGAGTCATCTCTTTTCTTTAGTGAAAATAGTCTTGTAGGGATTGATGCACCCAAGGGA
AAGCTCATCGGACGGCTTCTAAGTCCCGAACCTCAGCGGATTGTTGTCGCGGTGGTTGGG
ATGGGCGGTTCAGGGAAAACTACACTCTCAGCGAATATCTTCAAGTCTCAAAGTGTGCGG
AGGCATTTTGAGTCTTACGCTTGGGTTACAATCTCGAAATCTTATGTGATTGAAGATGTG
TTTAGGACCATGATCAAGGAGTTTTACAAAGAAGCAGATACACAGATTCCAGCTGAATTA
TACTCCTTAGGCTACAGAGAGTTGGTGGAAAAACTTGTGGAGTATTTGCAGTCGAAGAGG
TACATTGTTGTGCTTGATGATGTATGGACCACTGGTCTATGGAGGGAGATAAGTATTGCT
TTACCAGATGGTATTTATGGAAGTCGTGTTATGATGACTACTCGGGACATGAACGTGGCT
TCTTTCCCATATGGAATTGGGAGCACAAAGCACGAGATTGAGCTCTTAAAAGAAGACGAA
GCTTGGGTGCTTTTCTCCAACAAAGCTTTTCCGGCAAGTCTTGAGCAATGCAGAACGCAG
AATTTGGAGCCGATAGCACGAAAATTAGTCGAGAGATGTCAGGGTTTGCCATTAGCTATT
GCTTCTTTGGGAAGCATGATGTCAACCAAGAAGTTTGAATCAGAATGGAAGAAAGTCTAC
AGTACTTTAAACTGGGAACTGAACAACAATCATGAACTCAAGATTGTTCGAAGCATTATG
TTCCTTAGCTTCAATGATTTGCCATACCCGCTTAAACGTTGTTTCTTATATTGTTCTCTT
TTCCCTGTGAACTATCGGATGAAAAGAAAGAGGCTCATTAGGATGTGGATGGCACAAAGG
TTTGTGGAACCGATCAGAGGAGTGAAAGCAGAAGAAGTGGCTGATAGTTACCTCAATGAA
CTTGTTTACAGAAATATGCTTCAAGTTATCTTGTGGAATCCTTTTGGACGACCCAAGGCG
TTCAAGATGCATGACGTGATATGGGAGATTGCTCTATCTGTATCCAAACTTGAGAGGTTC
TGTGATGTATATAATGATGACAGTGATGGTGATGATGCTGCAGAAACAATGGAGAATTAC
GGTAGTCGCCATTTATGCATTCAGAAAGAGATGACACCTGATAGTATACGTGCAACAAAC
CTTCACTCTCTTTTGGTTTGCTCTTCTGCTAAACACAAGATGGAATTACTTCCAAGTCTG
AACCTTCTGAGAGCCTTAGACCTTGAAGACTCTTCCATCAGCAAGTTACCAGATTGTTTA
GTAACTATGTTCAACTTAAAGTACTTGAATTTGTCCAAGACACAGGTGAAAGAACTGCCA
AAAAACTTCCATAAACTCGTCAATTTGGAGACGTTGAACACAAAGCACTCCAAGATTGAG
GAACTTCCTCTAGGGATGTGGAAATTGAAGAAGTTGCGATATCTCATTACTTTTCGCCGC
AATGAAGGACATGATTCCAATTGGAATTATGTTTTAGGTACAAGGGTTGTTCCTAAAATC
TGGCAGTTGAAGGATTTGCAAGTCATGGACTGCTTCAACGCAGAAGATGAGCTTATCAAA
AATCTCGGGTGTATGACTCAGCTCACAAGAATAAGTCTTGTCATGGTTAGGAGAGAACAT
GGAAGAGACTTGTGCGATTCACTGAATAAGATTAAAAGAATTCGATTCTTATCTTTAACG
TCGATTGATGAAGAGGAACCGTTAGAGATAGATGACCTGATCGCAACTGCAAGCATTGAG
AAGCTCTTTCTTGCTGGGAAACTGGAGAGAGTACCAAGTTGGTTCAACACTCTTCAAAAC
CTTACCTATTTGGGTTTGCGTGGATCTCAGCTACAGGAAAACGCCATTCTCTCTATCCAA
ACGCTTCCTAGATTGGTATGGCTTTCATTTTACAATGCATACATGGGACCTAGGTTGCGT
TTTGCACAAGGATTTCAGAATCTGAAGATTCTAGAGATAGTTCAGATGAAACATCTGACA
GAAGTTGTTATAGAAGACGGTGCAATGTTTGAGCTTCAGAAGCTTTATGTCAGGGCTTGT
AGAGGGTTAGAGTACGTACCAAGAGGAATTGAGAATCTTATAAATCTTCAAGAACTGCAT
TTGATTCATGTTTCTAATCAGTTAGTAGAACGCATTCGCGGAGAAGGGAGTGTGGACCGG
TCAAGGGTTAAACACATTCCTGCGATTAAGCATTATTTCAGAACTGATAATGGCTCTTTC
TATGTGAGCCTCTCATCTTAGGCGGCCAAGGCAAGCTTCATCATACAAGATACTGCACAC
TGTACTGTGAAAATCAGGGATGGATATTCACATAACTACTAAACGCCATGAGCTTACCAA
ACAGATTGATTGTCATGTGTTGTCTTTGAAAGTCAACAATCAGGTCTTCTCTTCACTCAA
AGACAACATTTTTTTGCTGGTCTCATGAGTCAGTGCTAATGACTAAACAGCTCACTTCAC
AGCAGTTTCCACTGTTTTTTTTCGAAATTCATTTAAGTAAGATTTAATATGGTCAGCTGA
TTGTTCTGTAATT
>AT2G18040.1 | PIN1AT (PEPTIDYLPROLYL CIS/TRANS ISOMERASE NIMA-INTERACTING 1) peptidyl-prolyl cis-trans isomerase
AATCGTCGATAATCATTAGGGTAAAGCAAAAATAGTGAAGCAGAGCCGCAAAAACACTTT
TCCCAAAATCAACGAAGATAGATTCAGATCGGAAGCGAAAGAACGATTCGGTCTCCTCCA
CAGATCGAACATCGAAGGAGAAGAAAGACCATCATCACAACAAGCATCGAAAGAAGAGCA
AGATGGCGTCGAGAGACCAAGTTAAGGCATCGCACATTTTGATTAAGCATCAAGGTTCTC
GGAGGAAAGCGTCGTGGAAGGATCCAGAAGGGAAGATTATTCTGACTACCACTAGAGAAG
CCGCCGTTGAGCAGCTTAAATCGATCCGTGAAGATATTGTCTCCGGCAAGGCGAATTTCG
AAGAAGTGGCGACTCGTGTTTCTGACTGTAGCTCTGCTAAACGCGGCGGTGATCTTGGTT
TGTTCTTATCCCTAATCTCTAGATCAGCGAGTTTAGGTTTAGGATGATTGAACTTAGGGT
TAGATCTAGTGGCAATTAAGATTTTAGGAAATGAAGTTAATCTGTATAGTCTCAAGTGAT
GTTTGTTGAAGGAGTAGAAAGCTTGTTAACTGGATTCTATTGGATCTAACTCTTTACAGT
GAAATTGAGCATAATGATCATAGCTTAGATCATTAGTGATGTTTAGAATCTCACAGTTCT
TCCTCGATGTGTTTATAGTCATCACTAATGTTTAGAATCTATAGTTTCTAGCTTGATAAA
TCTTTAGTTGGTGCTCAGAAATTTTACTAATCTCTAGCTTCTATCATCATTAATGTTTAG
CTTCTTCATATTCCTTAATAAATCTATTCTTGGCTCTCGTTAATCTCACTAATGTCTGTT
TAGATAATCACCGATGTTGAGAGTCTAAAGTTTATCTTCCTTGATGAATCTATATCGGTG
CTCACAAGTCTTACTATTGTCCACTTAGATCAACATCGATGATTAGAAACTAAAGTTTAT
TCCTTGATGTATCTTTAGTTGGTGCTCGTAAATCTTACTACTGTTTGCTTAGAGCATAAC
TATGTTTATAATCTAAAGTGTATTCCTTGATGAATCCATAATCGGTGCTCATAAATCTTA
CTAATGTCCACTTAGATCACTACCCATGTTTTCCTCGTGATGATTTATAATTGGTGCTCA
TCAAGTTTACTAACATCTTCGTAGATCATCTCCCACATAGAGTTTCTTTCTTGATGAATC
TATAATTTGTGCTCATAAATCTTATGTTGATTTGTCCATCCCTGTTCAGGTTCCTTTGGT
AGAGGTCAAATGCAGAAACCATTTGAGGAAGCAACTTACGCGCTCAAGGTTGGAGATATA
AGCGACATTGTCGATACAGACAGTGGAGTCCACATCATTAAGAGAACAGCTTGACCTTAT
CTGATCTGATAGAAAATGTATTGAAGGTGCCTGCTTCGTTTCCCTTCTCTTCTTGACCAG
AAGAACATAGAAGAAGAAGAATAAGAAGAATTTAATTCAAGGTTATTGTTATTGTGGTTT
TGATTCTGAATCTGTCTACGAATTTGATACAACTCAAACATATGATAAAATCAGACAAGC
TATCTCATTTCTTCTTAAAGGCTTCATAAGCACTCCCTGTCGTAGACAGTGACTTGTATA
ATCACATTTCAGTATCTTTGTCATGGTCTTACTGCAACATTCTGGCATCTTGTGTGTTGT
CATTTTGCTCTTAAACTCTTGATAGTC
>AT3G20600.1 | NDR1 (non race-specific disease resistance 1) signal transducer
AAAATACCAAATTCTTGAAAACAAAAAAAAAATGAATAATCAAAATGAAGACACAGAAGG
TGGTCGAAACTGTTGTACTTGCTGCTTAAGCTTCATCTTCACAGCTGGTCTCACCTCTCT
TTTCTTATGGCTTAGTCTCCGTGCGGACAAACCCAAATGCTCAATCCAAAACTTTTTCAT
TCCTGCCCTCGGAAAAGACCCAAATTCACGAGACAATACCACTCTAAATTTCATGGTTCG
TTGTGACAATCCGAATAAAGACAAAGGAATCTACTACGACGATGTCCACCTTAATTTTTC
CACCATCAACACGACCAAGATCAATTCATCTGCTCTTGTCTTAGTTGGTAACTACACAGT
GCCTAAGTTCTATCAAGGACACAAGAAGAAGGCCAAGAAGTGGGGTCAAGTAAAGCCGCT
AAACAACCAGACGGTTTTACGAGCGGTTTTGCCTAATGGATCGGCTGTTTTCAGGTTGGA
TCTCAAGACTCAAGTTAGATTCAAGATTGTTTTTTGGAAAACTAAGAGGTATGGGGTTGA
AGTTGGAGCTGATGTTGAAGTCAACGGTGATGGAGTTAAAGCTCAGAAGAAAGGAATTAA
GATGAAGAAATCTGATTCTTCTTTTCCATTAAGAAGCTCTTTTCCGATTAGTGTTTTGAT
GAATTTACTCGTATTCTTTGCTATTCGTTAACTTCATTAATGGTGTTGATTTTCAGGTTT
TTCATTTCTTGGTTTTGTTGATTTTGATTATTGACTATTTCATGAGTTTTGTTGTGATCC
TTAGTTCCATTTTCTTCATTGCATAATTTATCCCTTATTTTTTTTGTTTTAACTATGTAT
TAGTTTCCATCAACAAAATTCTATTTGAAAATCATTTTATCCATTTTTTAT
>AT3G03600.1 | RPS2 (RIBOSOMAL PROTEIN S2) structural constituent of ribosome
AATTCAATCTGCGAATTTCTCTTAAACCCTAACCCTCTCGCTGCCGTCCGGTGGTTTTTC
CGACGACGAACTATGACGATTCACGCTGCAGTAATCCAGAAGCTTCTGAACACCGGAGCA
CATCTCGGCCGTCGTGCCGCCGAGCACCATTTCAAGCAATACGCTTACGGGACGCGTAAC
GGAATGACAATTATCGACTCCGACAAAACCCTAATTTGCCTCCGTAGCGCCGCTCATTTC
GTCGCTAACCTCGCCCACATGAGAGGTAACATCTTCTTCGTCAACACGAATCCTCTCTTC
GACGAAATCATTGAGCTCACTTCTCGTCGGATCCAAGGAGATTCGTATAATCACAACCGT
GCGATGAATCTGTGGAAGATGGGAGGGTTTTTGACTAACAGCTACAGTCCTAAGAAGTTT
CGATCTAGGCATAAAAAGCTTTGCTTTGGTCCAACTACTATGCCTGATTGTGTCGTTGTG
TTTGATTCTGAGAGGAAGAGCTCTGTGATACTTGAGGCATCGAAGCTTCAGATTCCGGTT
GTTGCAATTGTGGACCCGAATGTGCCATTGGAGTTCTTTGAGAAGATTACGTATCCTGTG
CCAGCTCGTGATTCGGTCAAGTTTGTGTATTTGTTCTGTAATGTGATCACCAAGTGCTTT
GTGGCAGAACAGATGAAGTTGGGGATCAAAGAAGGGAGCAATGAAGATTTGATGAAGGAT
TTAGCTGCTTGATTTTGATATTTGCAACAAAAGTATGAAACTTTACAGTTGTTTTTCTGA
GTCTGGAATAATTGTTCTTCAGAATTGTGGTTACTTCAACTTTGAAATTCTGGGAGTTTT
TTACACATGGATGATTTTGTTTCTCTGATGGATATTTCTGTATAAGATTGTTGAGTTCTA
GTGTTCTACATCTTGATAA
>AT4G26090.1 | RPS2 (RESISTANT TO P SYRINGAE 2) protein binding
GGCATTAAAAGGCTCTTAGAGGGCCAATTTTGTTATCGGGCCTTCACTTGGCCAGTAGAA
ATTACAAGCATGCAAACAACAGTTCGAGACTTCGAGGAAGATTCCTATCTCTCTCTACTC
GTTTCTTGAACCAAGTCATACAAGCAAGCAAGACAGCTTTATTAAAGTTGACTTTACTTT
AATCTTTATGAGTCAACACCTCATCTTTATTAGTTAGTTAGCTCAGACAAGTAAAAGAAA
GAGCGAGAAATCATCGAAATGGATTTCATCTCATCTCTTATCGTTGGCTGTGCTCAGGTG
TTGTGTGAATCTATGAATATGGCGGAGAGAAGAGGACATAAGACTGATCTTAGACAAGCC
ATCACTGATCTTGAAACAGCCATCGGTGACTTGAAGGCCATACGTGATGACCTGACTTTA
CGGATCCAACAAGACGGTCTAGAGGGACGAAGCTGCTCAAATCGTGCCAGAGAGTGGCTT
AGTGCGGTGCAAGTAACGGAGACTAAAACAGCCCTACTTTTAGTGAGGTTTAGGCGTCGG
GAACAGAGGACGCGAATGAGGAGGAGATACCTCAGTTGTTTCGGTTGTGCCGACTACAAA
CTGTGCAAGAAGGTTTCTGCCATATTGAAGAGCATTGGTGAGCTGAGAGAACGCTCTGAA
GCTATCAAAACAGATGGCGGGTCAATTCAAGTAACTTGTAGAGAGATACCCATCAAGTCC
GTTGTCGGAAATACCACGATGATGGAACAGGTTTTGGAATTTCTCAGTGAAGAAGAAGAA
AGAGGAATCATTGGTGTTTATGGACCTGGTGGGGTTGGGAAGACAACGTTAATGCAGAGC
ATTAACAACGAGCTGATCACAAAAGGACATCAGTATGATGTACTGATTTGGGTTCAAATG
TCCAGAGAATTCGGCGAGTGTACAATTCAGCAAGCCGTTGGAGCACGGTTGGGTTTATCT
TGGGACGAGAAGGAGACCGGCGAAAACAGAGCTTTGAAGATATACAGAGCTTTGAGACAG
AAACGTTTCTTGTTGTTGCTAGATGATGTCTGGGAAGAGATAGACTTGGAGAAAACTGGA
GTTCCTCGACCTGACAGGGAAAACAAATGCAAGGTGATGTTCACGACACGGTCTATAGCA
TTATGCAACAATATGGGTGCGGAATACAAGTTGAGAGTGGAGTTTCTGGAGAAGAAACAC
GCGTGGGAGCTGTTCTGTAGTAAGGTATGGAGAAAAGATCTTTTAGAGTCATCATCAATT
CGCCGGCTCGCGGAGATTATAGTGAGTAAATGTGGAGGATTGCCACTAGCGTTGATCACT
TTAGGAGGAGCCATGGCTCATAGAGAGACAGAAGAAGAGTGGATCCATGCTAGTGAAGTT
CTGACTAGATTTCCAGCAGAGATGAAGGGTATGAACTATGTATTTGCCCTTTTGAAATTC
AGCTACGACAACCTCGAGAGTGATCTGCTTCGGTCTTGTTTCTTGTACTGCGCTTTATTC
CCAGAAGAACATTCTATAGAGATCGAGCAGCTTGTTGAGTACTGGGTCGGCGAAGGGTTT
CTCACCAGCTCCCATGGCGTTAACACCATTTACAAGGGATATTTTCTCATTGGGGATCTG
AAAGCGGCATGTTTGTTGGAAACCGGAGATGAGAAAACACAGGTGAAGATGCATAATGTG
GTCAGAAGCTTTGCATTGTGGATGGCATCTGAACAGGGGACTTATAAGGAGCTGATCCTA
GTTGAGCCTAGCATGGGACATACTGAAGCTCCTAAAGCAGAAAACTGGCGACAAGCGTTG
GTGATCTCATTGTTAGATAACAGAATCCAGACCTTGCCTGAAAAACTCATATGCCCGAAA
CTGACAACACTGATGCTCCAACAGAACAGCTCTTTGAAGAAGATTCCAACAGGGTTTTTC
ATGCATATGCCTGTTCTCAGAGTCTTGGACTTGTCGTTCACAAGTATCACTGAGATTCCG
TTGTCTATCAAGTATTTGGTGGAGTTGTATCATCTGTCTATGTCAGGAACAAAGATAAGT
GTATTGCCACAGGAGCTTGGGAATCTTAGAAAACTGAAGCATCTGGACCTACAAAGAACT
CAGTTTCTTCAGACGATCCCACGAGATGCCATATGTTGGCTGAGCAAGCTCGAGGTTCTG
AACTTGTACTACAGTTACGCCGGTTGGGAACTGCAGAGCTTTGGAGAAGATGAAGCAGAA
GAACTCGGATTCGCTGACTTGGAATACTTGGAAAACCTAACCACACTCGGTATCACTGTT
CTCTCATTGGAGACCCTAAAAACTCTCTTCGAGTTCGGTGCTTTGCATAAACATATACAG
CATCTCCACGTTGAAGAGTGCAATGAACTCCTCTACTTCAATCTCCCATCACTCACTAAC
CATGGCAGGAACCTGAGAAGACTTAGCATTAAAAGTTGCCATGACTTGGAGTACCTGGTC
ACACCCGCAGATTTTGAAAATGATTGGCTTCCGAGTCTAGAGGTTCTGACGTTACACAGC
CTTCACAACTTAACCAGAGTGTGGGGAAATTCTGTAAGCCAAGATTGTCTGCGGAATATC
CGTTGCATAAACATTTCACACTGCAACAAGCTGAAGAATGTCTCATGGGTTCAGAAACTC
CCAAAGCTAGAGGTGATTGAACTGTTCGACTGCAGAGAGATAGAGGAATTGATAAGCGAA
CACGAGAGTCCATCCGTCGAAGATCCAACATTGTTCCCAAGCCTGAAGACCTTGAGAACT
AGGGATCTGCCAGAACTAAACAGCATCCTCCCATCTCGATTTTCATTCCAAAAAGTTGAA
ACATTAGTCATCACAAATTGCCCCAGAGTTAAGAAACTGCCGTTTCAGGAGAGGAGGACC
CAGATGAACTTGCCAACAGTTTATTGTGAGGAGAAATGGTGGAAAGCACTGGAAAAAGAT
CAACCAAACGAAGAGCTTTGTTATTTACCGCGCTTTGTTCCAAATTGATATAAGAGCTAA
GAGCACTCTGTACAAATATGTCCATTCATAAGTAGCAGGAAGCCAGGAAGGTTGTTCCAG
TGAAGTCATCAACTTTCCACTAGACCACAAAACTAGAGATTATGTAATCATAAAAACCAA
ACTATCCGCGATCAAATAGATCTCACGACTATGAGGACGAAGACTCACCGAGTATCGTCG
ATATAGAAACTCCAAGCTCCAGTTCCGATCAGTGAAGACGAACAAGTTTATCAGATCTCT
GCAACAATTCTGGGAATCGTCACCTCAGATTAGACCTCCAGTAAGAAGTGAGAAAGCATG
GACGACGACTGTGAAGAATTGAGCTAATGAGCTGAACCGGATCCGGTGAAATTGCAGAAC
CGGATCGGAGAAGAAGAATTTTGCATTTGTGCATCTTTATTTTTAATTGTTACGTTTGAG
CCCCAATAATCATAGATATTGTAGTGAAGACCAAATTTCATGGTGGATCAATCAAATTGT
ATTTTCAAATTTTCGTAGTGTAATAACGGAAAAAGGAATAAAAAGGTCACTGAGT