>AT3G10730.1 | sad1/unc-84-like 2 family protein
ACGATTCAGATTTTCAAAATTGAATTTTGTAGTGATCTCTCTCCTATATAAACTTCCTCA
CTCTTCTTCCATTTCAAATCTCTCTCTCTGTAGTCAAAATTAGGGTTTATTTATTCATAA
GGAAGAGCATTTCGAATTCTGTAGTTCAAAATTGAAGATCATGTCGGCGTCAACGGTGTC
AATCACCGCTAGTCCTAGGACAATAAGGCGGACGCCGGTTCTCTCCGGTGAGAAGAAATC
TAATTTTGATTTCCCGCCGAGCGAATCTCATGCCAATGCGGCAATTGGAGAGTCGTCTGC
TGGTACGAACAAGGATCTGATTCGCGCCGAGGCTGCCGGTGAGAGATCCAACACCTACGA
CGTAGGTCCGGTGACAAGGAAATCAGGATCCACCGCGACGGGGACTAATACAACCACCAC
GCAGCGTCGGACGCGGAAGTCTCAGGGGAATAAGATAGATAGAGGGAAATGGAAGACAGT
GGTTAGGGTATTCGCGAAGCAATTTGGGGCTCTTTTGTTACTTGTTGGATTGATTCAGTT
GATTAGGAAATTGACTTTGAAGGATTCGTCTCTGTCTTCTTCGAATTTCCCAATTGAAAC
GGAAATGGTGCTTTCGGAATTGGAGAGTCGGATTTCTGCAGTTGATGGTTTGGTGAAGAC
TACGACGAAGATGATGCAGGTTCAAGTTGAGTTTCTTGATAAGAAGATGGATAGTGAATC
AAGAGCATTGAGGCAGACGATAGATTCCACATCTTCTGTGTTACATAGTGAGTTGAAGAA
GGTAGAGTCTAAGACAGAGAGGTTACAGGTTTCTGTAGATGAGTTAAATGCTAAACCTTT
GGTGTCTAGAGAGGAGTTAGAGAGAGTTTACGAGGAGTTGAAGAAGGGTAAGGTCGGTGA
TTCTGATGTTAACATTGATAAACTGAGGGCTTATGCTCGTGACATAGTGGAGAAAGAGAT
AGGGAAACATGTTGCAGATGGCCTTGGTCGAGTAGATTATGCGTTAGCGTCTGGTGGAGC
TTTTGTAATGGGGCATTCGGATCCGTTTCTTGTTGGAAATGGGCGTAATTGGTTTGGGAC
AAGCAGGAGACGGGTTCATAGCAAAGCGGTTAAGATGTTAACTCCGAGTTTCGGGGAGCC
TGGACAGTGTTTTCCTCTGAAAGGAAGCAATGGATATGTTCTAGTCAGGCTAAGAGCACC
AATAATTCCAGAAGCTGTTACTTTGGAACATGTCTCTAAGGTAGTACTAACATCTCAATA
CTAAACTTTCACAAAATGATTGATTTTTATATGTTAATTTGAGCCTTCAAGAAGGGTTCT
CTGTTAAATGTTGTTGGTATTGAGATGCCCTGTACTTCGGATTGGATTGCTGGTGACAAT
AGGTTATCGAATAGAGGGCAAGAAACTAGTTTTGTGAATTTGAGTTCTTATAGTTTGAGG
TTTAGTTTAGGCACTAGCTGTGACAATATGCATTGAGGAGGATTTTACCTATTGTTATTT
TCTGCAAATCACTAGCTTTAGCAGTTCCTTTGTCTAATATCAATGCCACTGTGTTGTTGT
GCTTTGTTTGGGACATCGTTGACAGAGAAAAGAACCGTATGTATGGGAAGAGCTTGTAAG
TTTACAATTAGTGGAACTGTAATATTCACTGTTTACGGATATCCTTAGGAAACAGTAGCT
GAAGGGAAATAGTCTCAAGAGTGTGTAATGTGATGGTCACACATTGCTTTCCATCATTGT
TCATCCTTGTGATCATTTGTCTGATAAATTTCTTCTTGTCTGACCACTAAAAGGCAATAC
TAATCTTACGGTTATGTTATGCACCATTTAATCGAACAGGCTGTAGCATATGACAGATCG
AGCGCCCCAAAGGATTGCCGTGTATCAGGATGGCTAGGTGACATAGATATGGAGACTGAG
ACAATGCCCCTTCTTACAGAATTCAGTTACGACTTAGACAGGTCCAATGCACAGACATTC
GACATTGCAGACTCTGCTCACTCAGGACTTGTCAACACTGTCAGGCTAGACTTCAATTCC
AACCATGGAAGCTCTTCACACACTTGCATCTACCGCTTCAGGGTTCATGGCCGTGAACTA
GACTCAGTCTCTGTTGCTCATGCTTGATCTGAAAGTCCACGTCAAACTTTTCTTCTCTTT
GTAACATTCCCTCTAATAGATATCTCTCTTCTTTTTTTGTGTTAGTTTATGTGGTGGGAA
AGCTTCTCTTAGTCTGTAATCAGAATCATTTGGTTGTATTCGTGATTATTAGCTTCAAAT
CTGTTTTGGTTCGGTTTATTTGGTCAGGGTATGTATCCTCCGAATTGAATAATATAGATC
TTAGTTTGATGTCCG
>AT1G03080.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN plasma membrane EXPRESSED IN 22 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) KIP1-like (InterProIPR011684) BEST Arabidopsis thaliana protein match is kinase interacting family protein (TAIRAT3G227901) Has 169162 Blast hits to 69460 proteins in 2232 species Archae - 2114 Bacteria - 24914 Metazoa - 82448 Fungi - 11850 Plants - 6375 Viruses - 760 Other Eukaryotes - 40701 (source NCBI BLink)
ATGACTGCTGTTGTGAATGGTAACTCTAAACGCTATTCTTGGTGGTGGGATAGTCACATA
AGCCCCAAGAACTCGAAATGGCTTCAGGAGAATCTTACAGGTATGTGATTTTCTTGTTTT
AACGTCCCTTGTATTTCCCACGGGAAAGGTCATTTCCATCGTGACAAATTTCTTTTACTT
TTAGTTCAGTTTTGTGTCATGCAAGATACTTTGTATGCGATCTGCTTACATGTTTCTATT
TTTGTTGACAGATATGGATAGTAAAGTCAAGCAAATGATCAAGGTTATTGAAGAAGATGC
TGACTCTTTTGCTAGGCGAGCGGAAATGTATTACAAGAAGCGGCCTGAGCTTATGAAACT
GGTTGAGGAGTTTTATCGAGCATATCGTGCTTTGGCTGAAAGATACGATCATGCCACCGG
TGTTATTCGTCATGCTCAGCAGACTATGGCTGAAGCCTTCCCAAACCAAGACCCTATGAT
GTTTGGTGAGGAGTCACCTCTCGGTTCTTCCACCGATGGTTTTGATCCACAAACGCCTGA
CAGTTATCCACCTATCCGAGCTCCTGTTTACCCAGATGATTTACGAAAAGGTGCTTTTGG
GATTTCTTCCTCTCATTTGAGTACCGTTAAGCGCAATATAGCCTTCATGGAAGACCCTCA
GTCTGTGAGTAGCGGGAAAGGTTTTAAAACTGCAAAGGCAAGGAAAGGACTGAATTTCAA
TAATGTTGATGGAAAAGAAATAAATGCTAAGGTTCTTTCAGAATCTGAACGCGCAAGCAA
AGCTGAGGCTGAAATTGTGGCTTTAAAAGATGCTCTTTCTAAAGTGCAGGCTGAAAAGGA
AGCTAGCTTAGCTCAGTTTGATCAGAATTTGGAGAAACTGTCTAATTTGGAGTCTGAGGT
ATCTCGTGCACAAGAGGACTCTAGGGTGCTTATTGAACGAGCCACAAGAGCCGAAGCTGA
GGTCGAAACGCTCAGAGAATCCCTCAGCAAAGTAGAGGTTGAAAAGGAGTCCAGCCTTCT
TCAGTATCAGCAATGTCTGCAAAACATAGCTGATTTGGAGGATCGCATTTCTCTAGCCCA
GAAGGAGGCTGGAGAAGTAGATGAGCGAGCCAACAGAGCCGAAGCTGAAACTCTAGCACT
GAAGCAAAGCCTTGTTAGTTCCGAAACTGACAAGGAAGCTGCTCTTGTTCAATATCAACA
ATGCTTGAAAACCATATCTAACCTGGAAGAGAGGTTGCACAAGGCTGAGGAAGATTCAAG
GTTAACCAATCAGCGGGCAGAAAATGCTGAGGGTGAAGTTGAAAGCTTGAAGCAAAAGGT
TTCCAAATTAATTGAAGAGAATGAAGCTTACGAACTCCAATACCAACAATGTCTGGACAC
AATTGCAGATTTAAAGCTCAAGCTGTTTCATGCTCAAGAAGAAACTCAAAGGCTCAGCCG
TGAAATAGAGGATGGAGTTGCTAAGTTAAAATTTGCAGAGGAAAAATGTGTTGTGCTTGA
GAGATCAAATCAAAATCTTCACTCTGAACTGGATGGTCTACTAGAGAAACTGGGGAATCA
AAGTCATGAGCTCACGGAGAAACAGAAAGAGTTGGGAAGATTGTGGACTTGTGTACAAGA
AGAAAACTTGCGTTTTATGGAAGCTGAGACTGCCTTTCAAACCCTACAACAGTTACACTC
TCAGTCTCAGGAGGAACTAAGCACTTTGGCATTGGAACTGCAAAACAGGTCTCAAATCCT
GAAAGATATGGAAGCCCGTAACAATGGTTTACAGGAGGAAGTTCAGGAAGCCAAAGACCA
GAGCAAAAGCCTCAATGAGCTCAATCTCTCCTCGGCTGCATCAATTAAAAGTTTGCAGGA
GGAGGTCTCAAAATTACGAGAGACAATACAGAAACTTGAGGCAGAAGTTGAACTAAGAGT
GGACCAAAGAAATGCTTTGCAGCAAGAAATATACTGTCTTAAAGAGGAATTAAGTCAGAT
AGGGAAGAAACACCAGTCCATGGTAGAACAGGTGGAATTGGTTGGTTTACATCCAGAAAG
CTTTGGGTCTTCTGTCAAGGAGTTACAGGAGGAGAACTCAAAGCTAAAGGAAATCCGGGA
AAGAGAAAGTATTGAAAAGACGGCCCTGATTGAGAAGTTAGAAATGATGGAAAAGCTTGT
TCAGAAAAACCTTCTTCTGGAGAACTCCATATCAGATTTGAATGCTGAGCTGGAAACAAT
CAGAGGAAAGCTGAAAACATTGGAGGAAGCTTCTATGTCACTTGCTGAAGAGAAATCAGG
CCTTCATTCTGAGAAGGACATGTTGATTTCCCGTCTGCAGAGTGCTACAGAAAACAGCAA
GAAACTCTCTGAGGAAAACATGGTACTGGAGAATTCTCTTTTTAATGCCAATGTAGAACT
TGAAGAACTCAAGTCGAAATTGAAAAGCCTAGAAGAATCATGCCACCTGCTGAATGATGA
CAAGACCACTTTAACTAGTGAAAGAGAAAGCCTACTCTCTCATATTGATACAATGAGAAA
AAGAATTGAAGATCTGGAGAAAGAACATGCAGAATTAAAAGTGAAAGTTTTGGAATTAGC
GACTGAGAGGGAGTCTTCTCTTCAGAAAATTGAAGAGTTGGGAGTGTCTTTAAATGCCAA
GGACTGTGAGTATGCTAGTTTTGTGCAATTTTCAGAGAGTCGGATGAATGGCATGGAATC
AACGATCCATCACCTTCAAGATGAAAATCAATGCCGGGTGAGAGAATATCAAGTGGAACT
GGATCGAGCTCATGATGCTCACATTGAGATTATTGTTCTGCAGAAATGTTTGCAGGACTG
GCTTGAGAAGAGTTCCTCTTTGATTGCTGAGAATCAGGATATTAAAGAGGCTTCTAAACT
GTTAGAGAAGCTAGTTTCTGAACTAGAAGAGGAAAATATTGGGAAACAAGTGCAGATTGA
CTCCTCGATTAACTGCATTAAAATACTGAGAACAGGGATCTACCAGGTATTGATGAAGCT
TGAAATAATTCCAGGTATAGGTTCCGGTGATGAGAACTCGCGAGACCAGAGAAATATGCA
TGATATATTGAATAGACTTGAAGACATGCAAACTATGCTTTTGAGCATTCGGGATGAAAA
CCAGCACTCTGCCATAGAGAACCTCGTCCTTATTGAATTTCTTCGGCAACTTAAATCAGA
AGCTGTAGGTATTGAAACAGAGAAGAAAATCCTTGAGGAAGAACTTGAATCTCAGTGTCA
GCAGCTCTCGTTTTCGCGGGATGAGACCCAGAAACTTATCTTCGTGAACGGAGAATTGAC
CACAAAAGTTAATCAAGGAGTCAACAGAGAAAAGGTTTTGATGGTGGAAATTGAGGATTT
TCACAGGCAGGTGTTGCAGTTACGAGATGACTACACCATTCTACAGGGAGATAATAACAA
AACGTTGGATGAGAAAGCATACTTGACAAAGTCAACATTGCAGTTGGAGGAGGAGAAATG
TAAACTAGAAGATGATATCTCTTTGCTTCTGTCGGAGACTATATATCAAAGCAATCTCAT
CATTCTGTTGGAGGATGTCATCTTGGAAAAGCTTTCAGGAGCAATGAAACTAAACGAGGA
TCTAGACAGACTCAGTATTGTCAAGTGTAAGCTTGAGGAAGAGGTAAGAGAGCTTGGTGA
TAAGTTAAAATCTGCAGACATTGCGAACTTTCAGCTTCAAGTTGTGCTAGAGAAATCGAA
TGCCGAACTACTCTCTGCCAGATCAGCCAATGTTCATTTGGAACATGAAATAGCTAATGT
GAAGGTTCAGAAGGAGAAAGAGCTTTTAGAAGCAATGCTGATGATCTCCATCATGCAAAA
TGAAAAATCTGAATTATCTAAGGCAGTGGAGGGTTTAGAATGTAGATACAAGGAAGCTAA
AGCGATAGAAGAGGATAGGGATAAGCAGGTCTTGAGACTCCGTGGAGATTACGATGAGCA
GGTTAAGAAGAATAGTCATTCGAACGAAGCTAATCTGAAATTGGAAGCTGACTTGATGAA
CTTACTCATGGAACTCGAAGAAATCAAAGTGGAGAAGGAAAATCTGAACCAGGAGCTTTT
TACAGAAAGGAATGAGATTGAACTATGGGAGTCTCAGTCTGCAACATTGTTTGGAGAGTT
GCAGATTTCGGCTGTTCATGAAACATTGCTTGAAGGGTTGACCAATGAGCTGGTCGAAGC
ATGTAAGAACCTTGAAAGCAGAAGCACGTTAAAAGACAGGGAGATTGAGCAGCTTAAAGG
AAGAGTGAACAACTTAGAAGATGCGAACAAAGGACAAAACGATCTTATGTGCAAATACGC
CCAAGCTATTTTCCTGTTGAAGGAAAGCATACAATCTCTGGAAAAACATGCAATGCTTCA
CGAATTCGAGAATGGACCAGCCACAGTAAGTTATTTTAGAAAAATCTGCTCCTAATAATC
AAATTCTTTTTAGTAGGTCGTAATGAAGTTGTAGAGAGCTTTACCCTTGATCTGACATTT
TCCCGTTGAACCAATGTTGCATCTGTTGCTTGTTAATTTCAAGTTTTTCTTGTTGTAGAC
TAACCAATCTTTTGTGGGTATCTCTTATCAGGAAACTGCTTCATTGGTGGATAACAGCGA
TGGCTTCTTAGAGATACAAGAATTGCATTTGAGAATTAAAGCTATTGAGGAGGCAATAAC
CAAAAAGCTTGCAATGGAAGAACTAAAAACTTCCTCTGCCCGAAGAAGCAGAAGGAGAAA
TGGAAGCCTCCGGAAACAGAACCATGAAATCTACTCCGAGGAAACCGAGATGATCACAAA
AGATATCGTACTCGATCAGGTTTCTGATTGCTCATCATATGGGATAAGTACGAGAGACAT
TTTGAAGATAGAAGATGATCACAGTTTAGAGGCAAAGTCACAAAATCCTCCGAAAGGTAA
ATCCTTGTCTGAAGAGTCATTGGTTGTGGACAAACTAGAGATCTCCGATAGATTCACGGA
TCCAAACAAAGATGCAAACAAGAGGAAAGTTCTCGAGAGACTTAATTCAGATTTACAGAA
GCTCTCAAATCTTCATGTCGCCGTTGAAGATTTGAAAATCAAAGTGGAGACAGAGGAGAA
AGACGAGAAAGGAAAAGAAAACGAGTACGAGACGATCAAGGGACAGATCAACGAAGCTGA
AGAAGCATTAGAGAAACTGTTAAGCATCAACAGGAAACTGGTGACGAAAGTTCAAAATGG
ATTTGAAAGATCAGATGGAAGCAAATCATCAATGGATCTTGATGAGAATGAGAGTAGCAG
AAGGAGGAGGATATCAGAACAGGCGAGAAGAGGATCAGAGAAGATTGGTAGGTTACAGTT
GGAGATACAGAGATTACAGTTTCTGTTACTGAAACTGGAAGGAGATAGAGAGGATCGAGC
AAAAGCAAAGATATCGGATAGCAAAACGAGGATTCTTCTTCGGGATTATATCTATAGCGG
AGTGAGAGGTGAGCGACGAAAGAGGATTAAAAAGCGGTTTGCGTTTTGTGGGTGCGTGCA
ACCGCCTCCATCTCCTTGATAGTTAGAACTGTTGTTGCAAGTAAGCTAAATAATGTTCAT
GTGAATGGAAACGTATTGAAGTTTGATATGAAAGAGAAACACTTTTGCT
>AT4G14760.1 | LOCATED IN nucleus EXPRESSED IN 22 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) KIP1-like (InterProIPR011684) BEST Arabidopsis thaliana protein match is kinase interacting family protein (TAIRAT3G227901) Has 167525 Blast hits to 63593 proteins in 2151 species Archae - 1921 Bacteria - 21978 Metazoa - 82150 Fungi - 11567 Plants - 6203 Viruses - 845 Other Eukaryotes - 42861 (source NCBI BLink)
ATGGCCAGTCTGTCGCAGTCAGAATCTGGGAGGTTGTACTCGTGGTGGTGGGATAGTCAC
ATTCCTAAAAACTCAAAATGGATTCAGGATAACCTTGCAGGTATTCTATAATCTTTCTTG
ACTTCTCCTTGGTGTTTTTTATGAGTCTTGAAAATTGTGGCATTATAATGCTTTTGATTT
GTATGTTTAAAGATATTTTGTTTCTTTTGGAAGTCAATTTAAAGGAAATATTTGTTTGTG
TTGAAACAGACATGGATTCCAAAGTCAAGACAATGATAAAGCTCATCGAAGCTGATGCAG
ATTCGTTTGCAAGAAGGGCAGACATGTACTTCAAGAAACGTCCAGAGCTAATGAAACTGG
TGGAAGAGCTATACAGAGCTTATCGTGCTTTAGCTGAGAGGTATGATCATACAACTGTGG
AGCTTCGGCGTGCGCATAAAGTCATGGTTGAGGCGTTTCCTAACCAGATGTCTTTTGACA
TGATTGAGGATTCTGCATCATCTTCTTCTGAGCCTCGTACAGAAGCAGATACAGAAGCTC
TACAAAAGGATGGTACTAAAAGTAAAAGGAGTTTTAGTCAGATGAATAAATTAGATGGAA
CTTCTGATTCTCACGAAGCAGATTCTGAAGTTGAAACCTTAAAGAGAACATTGCTTGAGC
TTCAGACTGAAAAGGAAGCTTTGAATCTCCAATATCAGTTAATCTTGAGCAAAGTATCCA
GATTTGAAAAGGAACTCAACGATGCTCAAAAGGATGTTAAAGGATTTGATGAACGTGCTT
GCAAAGCTGACATTGAGATTAAAATACTCAAGGAATCTCTTGCAAAGCTAGAGGTGGAGA
GGGATACTGGGCTTCTTCAGTATAGTCAAGCCATTGAGAGAATAGCGGATTTGGAAGCAT
CGATTTCTCATGGGCAAGAATATGCGAAGGGGCTCACTAACCGAGTGTCTGAAGCAGAAA
GAGAAGCCATGAGTCTCAAGAAAGAGCTTTCTAGATTGCAGTCTGAGAAGGAGGCTGGCT
TGCTACGATACAATAAAAGCCTTGAGTTGATATCTTCCTTAGAGAAGACAATTAGAGATG
CGGAGGAGAGTGTTAGAGTATTCAGGGACCAATCGGAACAAGCAGAAACTGAAATCAAAG
CTTTGAAACAAGAACTTCTGAAGTTGAACGAAGTCAATGAGGACTTGAATGTTCGATATC
AGCAGTGTTTGGAGACAATATCAAAGTTAGAGAGAGAAGTTTCTCATGCTCAAGATAATG
CCAAAAGACTGAGCAGTGAAGTTCTTGCTGGCGCTGCAAAAATAAAGACTGTGGAGGAAC
AATGCGCTCTTTTGGAGAGCTTCAATCAAACAATGAAGGTAGAAGCAGAAAATCTAGCGC
ACAAAATGTCAGCTAAGGATCAAGAACTTTCCCAGAAGCAAAACGAGATTGAAAAGCTTC
AAGCTGTAATGCAAGAAGAACAATTGCGGTTTTCAGAACTTGGAGCTAGCCTTCGAAATT
TGGAGAGTTTGCATTCTCAATCCCAAGAGGAGCAGAAGGTTCTCACCTCAGAACTTCATA
GCCGGATTCAAATGTTGAGAGAACTGGAGATGCGAAATAGTAAGTTGGAAGGTGACATCA
GCTCTAAAGAAGAAAACCGAAACTTAAGCGAAATAAATGACACTTCTATCTCCTTGGAGA
TTCAGAAAAATGAGATCTCTTGCTTGAAGAAAATGAAAGAAAAGCTCGAGGAAGAAGTTG
CGAAACAGATGAACCAGAGCAGTGCCCTTCAAGTAGAGATCCACTGTGTGAAGGGTAATA
TTGACAGCATGAATAGGAGATACCAAAAACTAATTGACCAAGTAAGCCTCACAGGTTTCG
ATCCCGAATCTCTTTCCTACTCCGTGAAGAAACTACAAGACGAGAACTCGAAGCTAGTCG
AGTTATGCACCAATCAGAGAGACGAAAATAATGCTGTTACAGGGAAGCTATGTGAAATGG
ACAGCATTCTAAAGAGGAATGCTGATTTGGAGAAATTGCTTCTGGAATCAAACACCAAAC
TAGACGGTTCCAGGGAGAAAGCGAAGGATCTGATAGAAAGATGTGAGTCTTTACGAGGAG
AGAAATCTGAGCTTGCTGCCGAGAGAGCTAACTTGGTTTCCCAGTTGCAAATCATGACTG
CGAATATGCAGACACTCTTGGAAAAGAACTCTGTATTAGAGAAATCCCTGTCTTGTGCAA
ACATTGAGCTTGAAAGTTTGAGGGATAAGTCAAAGTGCTTTGATGATTTCTTCCAGTTTC
TCAAAAATGATAAGTCTGAGCTTATGAAGGAAAGAGAATCTCTTGTCTCTCAGTTGTGTA
AGGTTGAGGAGAAGCTAGGAGTCTTGGAGAAGAAGTATACAGAACTGGAAGTAAGGTATA
CTGATTTACAGAGAGATAATAAGCTCAAAAGCCATCAAGTAGAAGAGTTACAGGTCTCAC
TTGCCGCTGAGAAGCAGGAGAGTGCTAATTACAAACGATCTACTGAAAGCAGATTAGCAG
ATCTTCAGAAGAATGTGAGCTTTCTTCGAGAAGAGTGTCGTTCCAGGAAAAGAGAGTACG
AGGATGAGCTTGACAGAGTTGTAAACAAACAAGTCGAGATCTTCATCTTGCAAAAGCTTA
TAGAAGATCTAGAGCAGAAGAATTTTTCTCTCCTGATTGAGTGTCAGAAGCATGTTGAAG
CATCAGAATTTTCCGAGAAACTCATTGCTGAGCTGGAAAGTGAGAATCTCGAGCAGCAGA
TGGAAGCAGAAATATTTTTGGATGAGATTGATAGCTTGAGAGGTGCAATCTATCAGGTGA
TAAAGGCACTTCAAGTTGAAGCAGATTGCAAGACTGAACAGAAGATTACAAAAGACCAAA
TTTCAGTTTCACGTGCTTTGGGAGAGATTGATAGCCTAAAAGGTTCACTCTCCAGTGCTG
AATATGAGATGCATCGACTTGTAGTTGAGAACTCGGTGCTTTTATCTCTACTTGGACAAT
TCCAGTCAGATGGTTTGGTGCTCGAATCGGAGAAGAACATACTCGAAAAAGATCTAAAGA
CTAAAATACATCAGTGTGGAATGCTTGAAAAGGACAAGCAAGATCTACAGGAAGCGAACC
GGTTGTTGAAATCAAAACTGATCAAAAGAGAGCAACAAGAGCAAAAGCTGAGAGCTGAAC
TGAAATTTGAGAATTTGAAGTTTGAGAGTTTGCATGACTCATACATGGTTTTGCAACAAG
ATTATTCCTATACACTCAATGATAACAAAACTTTGCTTCTGAAATTTTCAGAATTTAAAG
ATGGAATGCATGTAGTTGAGGAAGAAAATGATGCAATTCTTCAGGAGGCTGTTGCTTTGA
GTAACACGTGTGTTGTTTACAGGTCCTTTGGGTCTGAAATGGCTGAGGAGGTCGAAGATT
TTGTTGAAACTGTAAGCAGTTTACGAGAAATTAGTACGGGACTGAAGCGCAAGGTTGAGA
CACTGGAGAAGAAGTTAGAAGGTAAAGAGAAAGAAAGTCAAGGTCTTAACAAGATGCTGG
AAAATTTACAGGAAGGCCTTGAAGAAGACAACTTCTTAACTGGACTCTTGGAACATCAGG
TTTCTAATGTAGACGAAATCTTGGAACATAGGGAAATGGAGATCCTAGAAGCAGAGCATA
TGCTCAAGGCCACAAACAATGAAAACGAAGAGCTGCACAAAGAAGTTGAGGAGCTGAGGA
AAGACTATGAAGACTCAAGACGGATGAGGGCAAATTTAGAGTGGCAGATTTCTGAACTGT
CAGATGTTGCTGGAAGACAGGAGGAAGAGATTAGAAAACTTAACGCTTTGAATGAGAATT
TGGAGTCAGAGGTACAGTTTTTAAACAAAGAAATTCAACGACAACAGGTTCGAGAGGAGT
ACCTGAGTTTGGAGCTGCAAGAGAAAAGCAATGAGATTGGACTTTGGGATTCTGCGGCAA
CATCTTTCTACTTTGATCTTCAGGTCTCAGCTATCCGTGAACTCATTCTTGAGAACAAAG
TTAACGAACTCTCAGGAGTTTGTGAAAACCTCAATGATGAAGTTGTTACGAAAACGACTA
AGATTAAACAGATGAAAGAAACAGTTGGATTTTTGGAGTCTCAAGTGACTGAGCTGAAGA
GTCAGTTGTCAGCTTATGATCCTGTGATAGCATCTTTGGCAGGGGATGTAAAAGCCCTTG
AGAAAAGTACACATGCTTTAACGAAATTTCCTGCAACAGCCTATCAACAAAGAGTGGTAA
ACTTTTGCACTCGTTCTTCTATTTCAAATGTCAACTCATCTTTCTCGCTGTACCGATCTT
AAATAATTCTAAACATTTCCATTTTTTTCAGGGAAACAATCTGGAAGAAAGCGGCAGTAC
CACCAGCCCATGCAATGGAATTGTGATTCTGAAGGAAATTAATCCAAGTATTAAGACCAT
CGAACAAGCATTTGTTAAAGAAAAAGGCAGGCTATCAAGGCAAATAACACGAAGCACCTC
CCAAAAACGCAGAGACCGCAGGAAGATTGAAAATATACAACCTGATGACCAGGTCACTGG
TGAATCTAGACAGCCAAGATTGAGGCCTGAGATGACAGAGGTGAAAAATGAATTATTAAT
GAAAGACAATCCTCGTGATCAAGTCACAGACTCCCTGACCTATGGCAGAAGCCAGGGAAC
TAGTCATGGTTCCAATGACATGTTTGAGTTTTGGGATGAATCTGCTGAATCAGAGACCAG
TGTAAACTTTCTCATCAACAGTAACAAACCGCAGAGGTCATTGAACTCCAATCTCCGTCA
TCAAAGCCGGAATCCCTCTATAGAATCTGATAAAGCGGTTGGAGTTGTTGACAAACTAGA
GTTATCTAGAAACATCGAAGACAAGGCAAAGATTCTGGAGAGACTTTTGTCTGATTCAAG
GAGACTGTCAAGTCTCCGGATTAGCCTAACAGATCTGAAAAGAAAGCTGGAGATGAATGA
GAAACAAAGAAGATTCAGCAACGCTGATTTGGTTATAGTGAAGAGACAGTTGAAAGAAAT
GGAAGAAGCTGTCTCGCAGCTGGAAAACACAAACGAGATTCTTTCAAAGGAAATTGAAGA
GACTGGAGATGCCAGAGATATATACAGAAAGGTGGTCGTGGAGAAGTCAAGAAGCGGGTC
TGAGAAGATAGAGCAGCTGCAAAACAAAATGCAGAACATTGAGCAAACAGTTCTGAAGCT
TGAAGATGGCACCAAAAGCAAAGGAAGGAAAATGTTTTCAGAGACTAGGACAGTGATTCT
CTTGAGAGACATTATTCATAAGGGCGGAAAAAGAAGTGCGAGAAAGAAGAAAAACCGGTT
CTGCGGGTGTATAAGGTCTTCGACTAAAGAAGAGTAG