>AT1G07670.1 | calcium-transporting ATPase
GAAGTAGAAGAAGAGAAGTATCTGGAGAGAGAGAGGCGTGCGATTTCCGCATCGAAGAAA
CAGTACGGAGTTTTATCCGCTCCGATTCTGGTGAGTTTTTTTTTTTGCCGATCTCGTTGT
CCGTGTTCTTCGCTTTCTCGGAATTTGAGTGTTTTTGGATTCTTCGTATATTATATGTTG
CTTTGACACTGATCTCTGATTTGATTTATGCGGCTACTCGATTTTTGAAATTTGATCGTT
GTTTTATTCGAAGATTCGTCGTTTGTTTTCAATCTCTGTTTTCTCATAGTGTAACTTGAA
GCTGACAATTAGATTTGAATGATTTTGATCTCTTTGACAGTGGAAGATAATGGGGAAAGG
AGGTGAAGATTGCGGGAATAAGCAAACTAATAGTTCTGAATTGGTCAAGTCTGATACTTT
TCCTGCTTGGGGTAAAGATGTGTCGGAATGCGAAGAGAAGTTTGGTGTTAGTCGTGAGAA
AGGTTTGAGCACTGATGAGGTGTTGAAACGGCATCAGATCTATGGTTTGAATGAATTAGA
GAAGCCTGAGGGTACTTCTATTTTTAAGCTGATTTTGGAACAGTTTAATGATACATTGGT
TCGTATTCTTTTGGCGGCTGCTGTTATTTCCTTTGTCTTAGCCTTCTTTGATGGCGACGA
AGGTGGTGAGATGGGTATCACCGCATTTGTTGAGCCGCTTGTTATTTTTCTCATCTTGAT
TGTTAATGCCATTGTTGGCATCTGGCAAGAAACTAATGCTGAGAAGGCGTTGGAAGCTTT
GAAAGAGATTCAGTCTCAGCAAGCTACCGTCATGCGTGATGGGACTAAGGTTTCCAGTTT
GCCTGCAAAGGAGCTTGTTCCTGGTGATATTGTGGAACTGAGGGTTGGTGATAAGGTGCC
TGCTGATATGCGTGTGGTTGCTTTGATCAGTTCAACTTTGAGAGTCGAGCAGGGGTCCTT
AACAGGAGAGAGTGAGGCAGTGAGCAAAACCACCAAGCACGTGGATGAGAATGCTGATAT
TCAAGGAAAGAAATGCATGGTGTTTGCAGGAACCACTGTCGTGAATGGGAACTGCATATG
TTTAGTTACAGATACTGGGATGAATACTGAGATTGGAAGGGTTCACTCACAGATCCAGGA
AGCTGCACAACACGAGGAAGATACCCCTCTGAAGAAAAAACTTAACGAGTTTGGGGAAGT
TCTGACTATGATCATTGGGTTAATTTGTGCGTTAGTGTGGCTCATCAATGTCAAATACTT
TCTGTCATGGGAGTATGTTGATGGCTGGCCCAGAAACTTTAAGTTCTCCTTCGAGAAGTG
CACATATTACTTTGAGATTGCTGTTGCACTGGCGGTTGCTGCAATTCCAGAAGGTCTGCC
AGCAGTTATTACCACATGTTTGGCTCTTGGCACTAGGAAGATGGCTCAGAAGAATGCTCT
GGTTAGGAAGCTACCCAGTGTGGAGACTCTTGGATGCACCACCGTGATATGCTCTGACAA
AACTGGAACTCTTACAACCAATCAGATGGCTGTTTCAAAGCTCGTTGCTATGGGTTCGAG
GATCGGAACTCTTCGATCTTTCAATGTTGAGGGGACCTCGTTTGATCCTCGAGATGGAAA
GATTGAAGATTGGCCAACGGGTCGGATGGATGCAAATCTTCAGATGATTGCAAAAATTGC
TGCCATTTGCAACGATGCTAATGTTGAGAAATCTGATCAGCAATTTGTGTCTAGGGGCAT
GCCTACTGAGGCAGCTTTGAAGGTAAAGCGGTCTACTACACTAGCTTGCACATTTCTTTT
CTTAACTAAATTGACTTAGAAAACTCTGTTCGTTGTCCTTGATTGATTTCTTTTTCTATT
GGTGTGTGTGTTTATTTGAACAGGTTTTGGTTGAGAAAATGGGATTTCCCGAAGGATTGA
ATGAAGCTTCATCCGATGGCAATGTCTTACGTTCGTATTCTACACTATATCTGTTACTTA
TGTTTATACAGTTTTACAGATGCTAACCTCCTGCCCTTTTCCTTTTTTAACATTATTGAA
GGTTGTTGTCGGCTATGGAGTGAACTAGAACAACGGATTGCCACCCTTGAGTTTGACCGT
GACCGGAAATCAATGGGAGTTATGGTGGATTCCAGCTCAGGAAAGAAACTGCTACTGGTC
AAGGTCTGTTTTTTTTTATCGTTGATCATATGCTGCCTCCTGAGGTCGAACCTGGGAAAT
CAAGTGACTTCTGCTTTGGTTCTTGCATGTTATTAGTCGAGAAAACCACTGTCCCCTCTT
TTTCAGCACCTAAGAGACCAATTTTGAAATTATGCAGGGTGCCGTAGAAAATGTATTGGA
AAGGAGTACCCATATTCAGCTACTTGATGGTTCCACTCGAGAGCTTGACCAATACTCAAG
GGATCTTATTTTACAAAGCCTACATGATATGTCCTTGAGTGCATTAAGATGTCTCGGATT
TGCATACTCAGATGTTCCATCAGATTTTGCCACTTATGATGGCAGTGAAGACCATCCTGC
TCATCAGCAACTTCTCAACCCATCCAATTATTCATCAATTGAGTCCAATCTAGTATTTGT
TGGATTTGTTGGTTTAAGGGTGAGTCACGGTCACCGTGATATTTTTTTCGTTCTTTCTGG
TTCCTCATTAATAATTATTCATGCTCTACCTTTTCAATGATTGAAGGATCCTCCAAGGAA
AGAGGTGCGTCAAGCCATTGCAGACTGCAGAACAGCAGGTATTCGGGTCATGGTTATCAC
CGGAGACAACAAGAGCACAGCGGAAGCAATCTGCCGTGAAATTGGCGTATTTGAAGCAGA
TGAAGATATCTCCTCGAGAAGCTTGACAGGAAAAGAATTTATGGATGTTAAAGATCAGAA
GAATCATCTAAGACAGACAGGAGGGCTCCTGTTCTCAAGGGCTGAACCAAAACACAAACA
AGAGATTGTCAGGTTACTGAAAGAAGATGGAGAAGTGGTTGCCATGACTGGAGATGGAGT
CAATGATGCTCCTGCCCTGAAGTTGGCTGATATTGGTGTGGCTATGGGCATTTCCGGGAC
AGAGGTAGTTGTTTCTCTTCTCCCTTCTGAAAGGACGGGATGATTATAGCTCTATCAGCT
TTCTAAAGCTCTTGGAATTTTTCAGGTAGCAAAGGAGGCATCTGACTTGGTGTTGGCAGA
TGATAATTTCAGCACCATTGTTGCAGCTGTTGGTGAAGGCAGGTCCATCTATAACAACAT
GAAGGCCTTCATCAGGTGAGTCTTCTTATGTTACATATGTATGCCTCTTCCTATGGGTGG
CTTGAGTTATACATACAAACCTTATATATCTGACTATGATGAATAAAAGGTACATGATCT
CTTCCAACATCGGTGAGGTTGCATCGATATTCTTGACAGCTGCTCTTGGAATCCCAGAAG
GCATGATACCCGTTCAACTTCTGTGGGTGAATCTCGTAACAGATGGTCCTCCAGCTACTG
CTTTGGGATTCAACCCCCCTGACAAGGATATTATGAAAAAGCCTCCTCGTAGGAGCGATG
ACTCTCTTATCACTGCGTGGATCCTCTTCCGCTATATGGTGTGCAAAAATCATTTTGTTT
CTCCTTTTTATCCTTTGGGGCTTTTCTAACTGACTATTATGGGTACCTACCTACAGGTGA
TTGGTTTGTATGTGGGAGTAGCAACGGTGGGAGTATTCATCATATGGTACACACACAACA
GCTTTATGGGCATAGACCTGAGCCAAGACGGTCACAGCCTTGTGAGCTATTCACAGCTCG
CACATTGGGGCCAATGCTCTTCATGGGAAGGCTTCAAAGTGTCTCCTTTCACAGCAGGCT
CTCAGACTTTCTCGTTCGACTCAAACCCTTGCGACTATTTTCAGCAGGGTAAAATCAAGG
CATCCACACTCTCCCTCTCGGTGTTGGTGGCCATTGAAATGTTCAACTCTCTGAATGCAC
TCTCAGAAGATGGCAGCCTGGTGACGATGCCACCCTGGGTTAACCCGTGGCTGCTCCTGG
CAATGGCTGTCTCATTTGGACTCCACTTTGTGATATTGTACGTCCCATTCTTGGCTCAGG
TGTTTGGTATTGTGCCACTGAGCTTGAACGAGTGGCTGCTAGTGCTGGCTGTGTCGCTGC
CGGTAATTTTGATAGACGAAGTGCTCAAGTTTGTAGGAAGGTGCACGAGTGGCTACCGCT
ACTCACCTCGCACTCCCTCAGCTAAGCAAAAGGAGGAGTAAGAAAATAATTCAAAAGGCA
TTATTATTAGACTCTTAGTTTTAGCTGAAATTAACTTTGTTGCTTTACTCATCCTTGCTA
TATTTAATTCTCCAAACGATAATTTTTGGTTTGAAAAAGAAAAGTTTCTAACTTTGGTTC
ATGGACACAGCCCGTGATAGAAAGATGAATGTTTCAACCAAACCTTGATTCTTTATGTAA
ACTTTTATGGTCGACCAAATTGGTTTTTAAGACTGATGGTAATTTATTTTGGGC
>AT2G32240.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN plasma membrane EXPRESSED IN 25 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT1G053203) Has 221693 Blast hits to 95553 proteins in 2574 species Archae - 2848 Bacteria - 44259 Metazoa - 97474 Fungi - 15490 Plants - 8386 Viruses - 1229 Other Eukaryotes - 52007 (source NCBI BLink)
CTCTCACACACACCCAATTTGCATTTCTTTCGTCATCATCATCTACTCTTTCTGCGTTTT
TCCCAGCTGAATAATCTAAACAAGGAAAAGTAAAACAGAGTACCAATCTCAGATTCATCA
GCTCCACTTGGTAAGCACTTTCAAATTCATGGTCTGTTTCTATCATTTGATCTTCTTAAC
TCTTTTTTCGGGATTTCTAACCGACCACAAATTGATTCAGATCCTTTAAGTTCATTTTCA
GAAAAATGGGTTATTAGAAAGTTTTGTTGGGTGCCGCTTCGTCTTCTTCTTAGTTACTGA
ATTCTCTAATTTGTATGATTTTGAAATATTCATCGATCCAAGTTTCACGTCTCTCTGCGT
TTAGATCTCTAGAGATCGAACTTGTTTGTGATAGCTGCAGATTCATCAGATGAATCAAAT
CATTTTGAAGTAGTGTTGACTCTGTAGTGATTAATCTTAGGATCTCTTGTGTTGTGAACG
GATTTAGAAGGGTTTTTTTCTATGGTGATTAAGGTGAAGAAATTTTTGAACTGTGTGATT
ACTAATCTGAACTTCTTACAAACATTTAGTGGTAGGTTTTGGAAAAAAAAGTATTATACT
ACTAATCATCGTCTTGTTCTGATTACTAGATTATAGTATTAATTAAATATTTAAAACATG
GTAATTAGGAACATGATTTGGGTGTTAAGCTTGCAACTTTTGAACAAACAAATAAAAAAA
GGTTGCTTGCAAGTTGCACAGCCTTACCAATATATATGTCTTTATCTATATAGGCAACGA
TTAGACTTAGACCAAATAAGTTGACAAATCAAGATAAACTTCTTAGATTAGAGAAATTCC
TCTTTTGATCGAATATTCTTGGGTTTTATACAGAAAAAGAAATTTGGTTGGATATTGAAT
CAAGCGTTAATGATGTTTGTGATCCATCATCAGCAACCATTTCTTGTATCGTTACTCTTT
AGTCTTTACCTTAAGATTTAACTTTAATGCGTTTTCGTTTGTTCTTTTAGTTTTTTTTAA
CCAGATGTTTTATAAATAGAATAATATTCTGGTCTTTGTTTTCTTGTTACAAAACCACGG
GCTCATGAGTCATCCGCTGCATCTGGTCGGCGTACCTTATGATTCTTTTCATTCTCTATT
ATATAGTCGTCTAATTATATGTATAATAGAAATGATTGCTATTAGTTTAATATAATTTGC
TTTCTAGTACTTATTTGTTTTGGCACAATGAAATTGAAAACCACTTTACTTTATTTTCTT
ATACAAAAAGAAAGAAACTTTGATGATGATGGTTTTGGTGGGCACTTTACACATTACTTA
TCTTTAGTTTGTTTGGTAGGAATTTATTTATATAATAAGTGTGCTTTTATTCATTTGTAT
TCTGGTAGAGATTGTTGGCTATTGAAACAGATTCTTACTCTGGTAACATCACATGCCTGC
ACCCATAATACCTATTGATCTTTGTCTTCTCCTGATTGTTTTTGGATTCTTTAGCTTTCT
GATCTAAACATATGTCATTTTCTAAACTTAAAAAAAAAAAAAAAAACTGAAACGAAAATT
AGAAATCTTTATTGAATTGGTATTTCAAATAGTTGTGTAATGAGAGATGATGTATACCTG
TTGACTGTTCACATTAAATATCTTATCTTGTTTGTTTTGTATCTCTTACTTGCAAGCTAC
TGTTTTCTTTTTTGATGTAAAGAAGGAACTTTAAATCTGATATATTAGTAGAAGTATATC
ATCTTCGAATTTCTTCTCATGCGATATCTTATATTTCTTTTCTCTTCTGCAGAATTTAAA
GTAGCCATAACTGTTCGATCATAGGATGGAAGAAGCAACTCAAGTAACGAGTTCTGAGGT
CCCTGTAGTGAAAGGTGATGTTGATGACCTTAAGACAGCTGATATTTCCGTCAAGGTAAT
GATCATTAGTGTTCGGTTTCGTAGAATTATCTGTTTCCTCTTGACTATAAGGAATCCTTT
CTGTAAATTGATGCGAATCTTGCAAAGATTTTATTTGTTTTATCGAATTGAATCTCCTGT
CTGTCTATCAAGCTTCTTAGTAGCAGCGCCAAAGATGTAAGTATTGTCTTGATCTATTGC
AGGCTGTGAATGGAGAAGTGCCAAAGGAGGAGAAAGAAGAGGAAGATGGGGAATTCATAA
AAGTTGAGAAGGAAGCTTTTGATGCCAAGGATGATGCGGAGAAAGCAGATCATGTTCCTG
TTGAAGAGCAAAAGGAAGTTATTGAAAGAAGCTCGAGTGGTTCACAGAGAGAACTACATG
AATCACAAGAAAAGGCAAAAGAACTAGAGCTCGAATTGGAAAGAGTTGCAGGGGAACTAA
AACGGTATGAATCTGAAAATACCCATTTGAAGGATGAGCTTTTGTCTGCGAAAGAGAAGT
TAGAAGAAACGGAAAAGAAGCATGGAGATCTTGAAGTTGTCCAAAAGAAGCAGCAAGAGA
AAATTGTTGAAGGGGAAGAGAGACACAGCTCACAGTTAAAGTCCTTGGAAGATGCTTTGC
AGTCACATGATGCGAAAGATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGCGTTGG
GCATAGAACTCGAGAGCTCACGAAAGAAGTTGATAGAGTTGGAGGAGGGGCTAAAACGTT
CAGCTGAAGAGGCTCAGAAATTTGAAGAGCTGCATAAGCAAAGTGCTTCTCATGCTGACT
CTGAGTCGCAGAAGGCTTTGGAATTTTCGGAGCTGCTTAAATCGACAAAAGAGAGTGCCA
AGGAAATGGAGGAAAAAATGGCGTCCCTGCAACAAGAAATCAAGGAGCTCAATGAGAAGA
TGTCTGAAAACGAAAAGGTTGAAGCTGCCTTAAAGAGTAGTGCGGGAGAATTAGCTGCAG
TGCAAGAGGAATTGGCACTTTCAAAATCTCGTTTGTTAGAGACGGAACAAAAAGTGTCTT
CCACAGAAGCCCTCATTGATGAACTGACTCAGGAACTTGAGCAGAAGAAAGCTTCCGAAT
CTCGGTTCAAGGAAGAGTTATCCGTTCTCCAAGATTTGGATGCTCAGACCAAAGGTCTTC
AGGCTAAACTTTCTGAACAGGAAGGTATTAATTCAAAGCTTGCGGAAGAACTCAAGGAGA
AGGAACTTCTGGAATCCTTATCAAAAGACCAAGAAGAGAAGCTGAGAACTGCAAATGAGA
AGTTGGCTGAAGTTTTGAAAGAAAAAGAAGCGCTTGAAGCAAATGTAGCAGAGGTCACAA
GTAATGTAGCAACAGTAACAGAGGTCTGCAATGAACTAGAAGAGAAACTGAAGACCTCAG
ATGAGAATTTCTCCAAAACAGATGCTCTTCTTTCTCAAGCTTTGTCAAACAACTCTGAGC
TTGAACAGAAACTGAAATCGCTGGAGGAGCTTCATTCTGAAGCTGGATCTGCAGCAGCAG
CTGCTACCCAGAAGAACCTTGAGCTAGAGGATGTTGTTCGGTCCTCTAGTCAAGCAGCAG
AAGAAGCCAAATCACAGATAAAAGAGCTGGAGACAAAGTTCACTGCAGCTGAACAAAAGA
ACGCGGAGCTTGAGCAGCAACTGAATTTATTGCAGCTGAAAAGTAGTGATGCAGAACGCG
AGTTGAAGGAACTCTCCGAGAAATCATCTGAACTACAAACTGCTATTGAAGTTGCCGAAG
AAGAGAAAAAACAGGCGACCACTCAGATGCAGGAATACAAACAAAAAGCATCAGAATTGG
AATTGTCTCTGACCCAATCATCGGCCAGAAATTCAGAGCTTGAAGAAGATTTGAGAATCG
CTTTGCAGAAGGGTGCAGAACATGAAGACCGAGCTAATACAACTCACCAGCGCAGTATTG
AACTAGAAGGTCTTTGTCAATCATCACAGTCAAAACATGAAGACGCAGAAGGAAGATTAA
AAGACTTGGAGCTTCTACTCCAGACAGAAAAGTACAGAATTCAGGAACTTGAGGAGCAGG
TTAGCTCGCTAGAAAAGAAGCATGGGGAAACTGAAGCAGATTCTAAAGGTTACTTGGGTC
AGGTGGCTGAGCTTCAATCCACACTAGAGGCATTTCAAGTGAAAAGTTCAAGCCTCGAAG
CTGCTTTAAACATCGCAACTGAAAACGAGAAAGAACTGACAGAAAATCTGAACGCTGTGA
CGAGTGAGAAAAAGAAATTAGAGGCAACAGTGGATGAGTACAGCGTGAAGATCAGTGAGT
CTGAGAATCTGTTAGAAAGTATCAGGAATGAATTGAATGTCACACAAGGAAAGTTGGAGA
GTATTGAAAATGATCTGAAAGCTGCTGGCTTACAGGAAAGTGAAGTAATGGAGAAACTGA
AGTCTGCTGAAGAGAGTCTTGAGCAGAAAGGAAGAGAAATAGATGAAGCTACTACGAAAC
GTATGGAGCTTGAAGCTTTGCATCAGTCTTTAAGTATAGACTCAGAGCATAGACTTCAAA
AGGCAATGGAGGAGTTCACTAGCAGAGATTCAGAGGCCAGTTCTTTGACTGAGAAGTTGA
GAGACTTGGAAGGCAAAATAAAATCATATGAAGAGCAGTTGGCTGAAGCATCTGGCAAAT
CTTCTTCTTTGAAAGAAAAACTTGAACAGACTTTGGGAAGGCTTGCAGCTGCAGAATCTG
TTAATGAAAAACTCAAACAAGAGTTTGATCAGGCACAAGAAAAATCTTTGCAATCATCAT
CAGAGAGTGAACTACTAGCAGAGACAAACAACCAACTCAAGATCAAAATTCAAGAGCTTG
AGGGGTTAATAGGTTCTGGTTCTGTCGAGAAAGAAACTGCATTGAAAAGGTTAGAAGAGG
CAATCGAAAGGTTTAATCAGAAAGAAACAGAATCTAGTGACTTGGTTGAAAAGTTAAAAA
CACATGAAAACCAAATCGAGGAGTACAAAAAGCTGGCTCATGAAGCATCAGGAGTTGCGG
ACACTAGAAAAGTTGAGCTTGAAGACGCGCTATCAAAGTTGAAGAATCTTGAATCTACTA
TTGAAGAGCTCGGGGCCAAATGCCAGGGGCTTGAGAAAGAAAGTGGGGATTTGGCCGAGG
TGAATTTGAAGTTGAATCTGGAACTAGCCAATCATGGATCTGAGGCCAACGAGTTGCAGA
CAAAGCTCTCTGCCTTGGAGGCCGAGAAGGAGCAAACAGCCAATGAGCTTGAGGCTTCAA
AGACAACCATAGAAGATCTAACAAAGCAGCTTACCTCTGAAGGGGAGAAATTACAGTCAC
AGGTAACACCCTGAATCTAAACATGTGTTAATATCTACAGTGTCACAGTTTTGTTGTCTA
TAATACAATATGACACCACTTTGTGCTGCAGATTTCTTCCCACACTGAGGAGAACAACCA
AGTCAATGCGATGTTTCAGAGTACCAAGGAGGAGCTGCAATCAGTTATTGCCAAGCTTGA
AGAACAACTAACCGTAGAGAGCTCTAAAGCTGATACTCTGGTCTCCGAGATTGAGAAGCT
CAGGGCAGTGGCTGCTGAAAAGTCCGTTCTGGAATCACATTTTGAAGAACTTGAAAAAAC
TTTGTCAGAGGTCAAAGCTCAGTTGAAAGAAAATGTAGTGCATTCTTCTCAGACAGAGGA
AATTATCAATATCATAATTAAGAATCCATAGGTAAAAATATTGGTTGCTAATTGATGACG
TTTTTACAGGTGGAAAATGCAGCTACTGCGTCTGTAAAAGTGGCGGAATTGACCTCAAAA
CTGCAGGAACACGAACATATTGCTGGTGAACGAGATGTGCTCAACGAGCAAGTGCTTCAG
CTTCAGAAAGAGCTTCAAGCGGCTCAGAGTTCCATTGATGAACAGGTTAATGTTCTTTCT
TTTGTTTCAGCTTTATTTATCTCAGATATAACCTTTTCGGGTTTCTTTAGAACTCTTTAG
TTTGATGATTAAAACAAAAAAAAAGAAGACAATCTATCTTCCCTCATTATGTTACTAAGA
TCTGAAAACGTTTCCATGGAAATAGAAACAAGCACACTCCCAGAAGCAATCAGAGCTGGA
GTCTGCATTAAAGAAATCACAAGAAGAGATTGAAGCTAAGAAAAAGGCTGTCACTGAATT
TGAATCAATGGTCAAAGATCTTGAACAGAAAGTGCAGCTCGCAGATGCTAAAACTAAGGT
TAGTCATAATATCTCTGCATCAGAACTTTGATTGACTGATAACAGACATGCAATGCATAT
ATTATAACATCTAGAGGGACAAAATGACATAAGATCCATAAAATTAGAGACAGAAACCTT
GCATTATGGTTTGTCAAAATCTCAATCGCATACTTGCTTATAATCAAAAACCAAACTTGC
AGGAAACGGAGGCAATGGATGTAGGTGTCAAATCTCGAGACATTGACTTATCCTTTTCTT
CTCCAACGAAACGTAAGAGCAAGAAGAAGCCAGAAGCATCTCTTTCTTCTTCTTCGTCTT
CGGGCAATGTTACTACTCCTACTCAAACAGCATCAACTTCACATCTCATGACAGTGAAGA
TCGTCACTGGAGTGGCGCTGATCTCTGTTATCATCGGTATAATTCTTGGGAGAAAGTATT
AGTCTCGTCTTCTCAGTGTGGCTTGATGATGTTCATATCTGAAATGAAGATCTCTCCTTC
TTCATTTGTTTTTTTTGGGGGTTTTTGAATTTTGATAGCAGAACTAAGAAGCTTTGCGTG
AATATGCTTCTCTCTCTGCTAATATTTGCTTGTGGTTGGGTTTTGTTTTACCGGGTCTGG
GAGATTTTGTTGTACCAGCCCTTGCTTGTAGGTCAAGCAATTGTCCAGATATTGTATTAA
ATTAAATCAAAGGTGAATTAATTTGATAATTATCCAACTAAACCAGTTGGTTAACAATAA
ACCCGGTTCAATCGACC
>AT2G20850.1 | SRF1 (strubbelig receptor family 1) kinase
ATCGCATTCACACAGTGACGCTCTCTCTCACTCACTTGCAAAAAAACATTCCCTTTTCTC
TTAAGATAACATAAAGTTCTCTTACTCACCTTTTTCCTTCGTCTGTCGAATCATATTCTT
GGCTGCTAAGTTTTGCTTTTGAATTTTCAACGACTCTGTTCACTCACATATCTCTCTTAG
TGTCTACTGGATTCGGAATGAGATCGATGAGATCTGGGAGAGACAACAACATCTGCTTCC
TGGGTTTTCTCTCCTTTGCCCTTATCTCCCTTCCCTCCTTGTCACTTGCTCTTACCAATC
CTGACGATGGTAAGCCCCTAATTCTCTCTGTTTTTCCCTTTTGTGTAATGGTAATGTTAG
TATAGCTAATCGTACCCTGATTGTTTGCTTTAGTTGCGGCTATTAACAGTCTCTTCCTTG
CACTGGAGTCTCCTCTTCTCCCCGGTTGGGTTGCATCTGGAGGTGACCCATGTGGTGAGA
GCTGGCAAGGTGTTCTATGTAATGCTTCCCAAGTAGAAACAATGTAAAAAACGACACCTC
CCATCTTCTTCTTCTTACTTTTCTTTATCATTCTTCTAACAACACTCTCACCCTTTTTCA
GAATTCTCATCAGTGCCAATCTTGGAGGAGAGCTTGGTGTTGGCTTAAACATGTTTACCT
CTCTTAAAGCAATGTACTTTATCCTCTCTTGCGTTTATGACTTTTGCTTCTTTAATCTGC
TTCTCTCCTTATTTTTACCTTTTGATGTTTTGTCTCAGGGATTTTAGCAACAATCACATT
GGAGGAAGTATCCCATCCACGTTGCCTGTTTCATTGCAGAACTTGTATGTTTCCCATTTT
CCAACTCGCAAATCCCCTCTTTTTTCTTATTCAACATCTTGTATTACAATCTTTACATTT
TCACAGGTTTCTTTCAGGTAACAACTTTACAGGAACCATCCCAGAATCTCTTTCCTCCTT
AAAATCTTTGTCTGTCATGTAAGTCTCTGCTCTCTCTGTCATCACATTCATTCTCTACCG
GTGATAAGCGTTTAAGACTTCTTTGGTCTTACAGGTCCTTGAACAATAACCTTTTGTCTG
GCAAGATACCCGATGTCTTTCAAGACCTTGGCCTTATGATCAATATGTAGGTCTGCTTTC
TAAATCAGCTGTGTTAAGATTGTTTTCTGTATATATGTGTAACCGAACATTCGACATATG
CGTAGAGATTTGTCTAGCAACAATCTGAGTGGACCATTACCTCCTTCCATGCAGAATCTT
TCGACTCTTACATCCTTGTGAGTTTCTCCTTTGCATTCCATATACATATCAGTCTGTGTT
GAGTAGGTCTCATTCAGTTCGTTGTTCTGATTTCTCATCCTTTCAGGCTTTTGCAGAACA
ATCATCTTTCAGGAGAGCTTGATGTTCTTCAAGATCTTCCCCTCAAGGACTTGTACAAAT
TCTTTGCCATCCCATCTTCTTTTCCTGTCAACTGTTATATATCTTGCCACTTGCTTACTC
TCATTCTTATTAACTCTACAGGAACGTTGAGAACAACCTCTTCAATGGACCTATACCAGA
AAAGTTGTTGAGTATACCAAATTTCATGTAAGCTGCAACAGTTTTCATTGCTCGTTCCAA
CTTTACATCTACAAATTCTGCTACTTTTTCTTGTCAAAGTATCAGTCCGCTGATGTGACA
AACTATGATGCAGAAAAGGCGGTAATCTGTTTAACGTCACTATTGCTCCATCGCCTTCAC
CTGAAACACCTCCAAGTCCAACATCACCTAAGCGGCCATTTTTTGGACCACCATCTCCCA
ATGCATCAGCTGGTCATGGTCAGGCACACGTGAGATCACCCCCTTCTGATCATCACCCAT
CCCGACCAACTCCTCAAGGGAAAGAAGACTCATTTACCAGTAAAAGAATTATTTGGATAT
CCATTCTTGGGGCTTTTTCATTTGTGGTTTTGGCCTTGGTATGTCTACTTTGTGGGAGAA
AATGTCTCAGAAAAAGAGAAGACAGTGAACAACTATCCAAACCGCACCTAACTAGTGAAT
ACGGGAGGGCAAGGGAGGGTTCTCGCTCAAATGCTTCTATGCTTCCTCCATCCAATACAT
TCAATAAAGGTGAAATCTCATATCTTGATTTCTTCACTTTTAGATTTCAAGAAAGTCACA
TGTTTGTTTTCTCTTCTTCAATGAAATTCAAACAAAAGACAAGGAGGCTAGACCAAAAGA
GAGAGTAGGAGGTGCTTCGAAGCTGCATGGTGGGGCAGAAAGAAGCGTAGGAAGTGAATC
AAAGCAGGAGAGTCATGAGATAGACATGAATGGCAATGCTATGGATTTGATGCATCCCTC
ATCAATTCCACCTATCAAAAGGGTCATCGCAAAGGCGACTGAACCTGCTGAAGCATCTCT
AAAAAGGACAACCAGTAAATCCCATGGTCCCTTGACAGCTGTGAAGCATTTCACGGTCGC
ATCTCTACAACAACACACAAATAGCTTTTCCCACGAAAACCTTATTGGAACAGGCATGCT
TGGGAGTGTCTACAGGGCAGAGCTTCCAGGTGGAAAGGTATATATGCATTACATTCATTC
TTTCTTTATGTGTATTCAATTTCCGCAACTGATAAGTTAGTTTACTTTCTTGGATAGCTC
TTCGCTGTGAGGAAGTTGGATAAGAAGTCTCCCAATCATGAAGAAGAAGGCAAATTTTTG
GAGCTAGTGAATAATATAGATAGAATACGGCATGCCAATATTGTCCAACTCGTGGGTTTC
TGTTCTGAGCACAGTCAAAGGCTTCTGATCCATGAGTATTGTAGGAACGGTACACTGCAC
GATTTGCTGCATATTGATGACAGGTTGAAGATTGAACTATCATGGAATGTCCGTGTTAGG
ATTGCACTAGAAGCTGCAAAAGCTCTGGAGTATCTGCATGAGATCTGTGATCCACCTAGT
ATCCACCGAAATTTCAAGTCTGCAAATATTCTCCTTGATGACGATATAAGGGTGCATGTC
TCAGACTGCGGCTTGGCTCCTCTAATCTCCTCAGGTGCCGTAAGTCAGGTAAGCAAGACT
CCTGAGAAATCTGATTTGCTTGTCTCATAGCATTTGTATATGTTCCACTCCAAGCTAGTT
TGTGCTTGTTTTAGTTATCGGGTCAACTCTTAGCGGCCTACGGATATGGAGCTCCAGAGT
TTGAATATGGGATCTATACAATGAAATGTGATGTCTACAGTTTTGGAGTAGTTATGTTAG
AACTCTTGACAGGTCGCAAGTCATATGACAAGTGAGTGGAAATGAGGTCTTATTCATATG
TATTTGTGGTTTGAACTTTTGTTCTTAAAAAGAAATGGAAACGTTATGCAGGAAACGGGA
TAGAGGAGAGCAATTTCTGGTGAGATGGGCAATCCCACAGCTTCACGACATTGATGCATT
AGCGAAGATGGTCGACCCATCCCTCAAGGGTGACTATCCAGCCAAGTCGCTGTCACACTT
TGCTGATGTGATATCACGTTGTGTTCAGGTAAGCATCACTAGAAAAGAATACAAATTTTC
TTACACCAATGTGAACTACAGTGTGTATTAACATCTATGTGTTGGGACAGTCGGAACCAG
AGTACAGGCCACTAATGTCAGAAGTGGTTCAAGACCTCTCAGACATGATCCAGAGAGAAC
ATCGGAGAAATGACTCAAATGGGGATAATCAGTATACGGGAAGAAGATAGTTTAAGGAGA
TTGTCTCTTATACAAAACAAGTGGTATTATTAGTATTCTTTAGAAAGTCGAAACCATTGT
TCTTTAACGAGCCTTGCTTGTATTATTATATATGTAGAGTGTGTGAGTGTGACACAGGCA
CACAGCTTACTCTGCTTTGGCCTTTTAGTCTATCCACAACACCCCCAATGTATTTCCACC
GGATTAGGATTAGCAATCTCTGAGTTTTTCCAAAAATCCATAGTACTGCTACTTCAAATT
TTGAATCTTTTTTCTTTCTAAATAGTATTTTATCATATTCTTCATAATATGATTCATCTC
TTTAGTTTTGTC
>AT5G40890.1 | ATCLC-A (CHLORIDE CHANNEL A) anion channel/ nitrate transmembrane transporter/ voltage-gated chloride channel
CTGTGACTCCTCCTCACAACAAATAACATTTAAATTAAATGTTATGTTTGTATCACCATA
CATATAATGGTGTATATTGATGCATGCATGTATCATATGTAGAGAGAGATCTATAAAGCT
TCATAAAAGTGTTTCTCTAGAAAAAACGACAAAATTCGCAGAGAAAATCCAAACCAAAAG
TAGTTTTGTAACAGAGAGATAGATAGAAAGCTCTTGAAGATCTAACCAAAATCTACTTTT
GTTCTTCTTCTTCTTCTTTTCATAAATTTTCGGAGTGGTCCTATTTATTGTTTCTTGGAT
CATTAGAGAGACAGCTATCGATGGATGAAGATGGAAACTTGCAGATTAGTAATAGTAATT
ACAATGGAGAAGAAGAAGGAGAAGATCCAGAGAACAACACTTTGAATCAACCACTGCTTA
AGAGACATAGAACTCTTTCTTCAACTCCTCTTGCTTTGGTCGGTGCCAAGGTTTCACACA
TCGAGAGTTTAGATTATGAGTATGTCTTCTTTATCTTCTAGATCTTGATTATTTGATTCT
TATTCTGTTTTCATATCGAATTTTACTTTTCTTGAATTGTTTTTTGGATGAGTCTTAATC
TTGTTCTATAAAGAGTGACAAAAAAAAAACCTTATTCTATAAAGTTTTGAGCTTTACTCT
GTTTCCAGATAAATCTTCACTTTCTGATGGTTTATTGAGTTTGTCATTATCTTTTTTTTT
TGTAAAGTTTCAATCTTACTATTTTTTCAGCTAATTTTCATTTTAGAAAGAAATAAAATT
GAATGGATTATTTGTCTCAATCTCTTTCTATAAATTTTTAAATCTTTATCCTGATTTTCA
GAACATAAATTATGAAAATATTAGAGATAATTTTGACAAGAAGAATGAAAATATTAGTGA
TGGAGACATATGACCTGTTGTGATACTTCAATTATTTCTCACATTTTCAATTTGCCGCAA
GCAATCATAAACCAAATCTTGTACAAGATCCAGATAATTAGGTTACCTTTTGTTTATTAG
TTGTATGATAAGTCTTGGTCTCAAATCTCTTTCTATAACGTTTATTTATCTTTACTCTGT
TTTCAGACAATCTTCATATATTTTTTTTTCTTAAACTTGGTGGAAAATAATCAGTGATGG
AGACATATACTTGTATAGATTTTTGATTTGAGATTTTGGATTTCTGCAGAATAAACGAGA
ATGATCTGTTCAAGCATGACTGGAGAAGCAGATCAAAAGCACAAGTGTTTCAATACATAT
TCTTAAAATGGACATTAGCTTGTCTTGTTGGTCTCTTCACTGGTCTTATCGCTACTCTCA
TCAACCTTGCTGTCGAAAACATCGCCGGTTACAAACTTCTCGCCGTCGGCTACTACATTG
CTCAAGATAGGTATTGACTCATCAGCCAAATCTTGAAAAACAAAACAGTCAAGATCAAGA
AATTGAGATACCTTGTATGACAAGTTTATGTTTTTGAAATAGGTTTTGGACAGGTCTGAT
GGTCTTTACGGGGGCGAATTTGGGTCTGACTTTGGTGGCGACAGTACTTGTTGTTTACTT
TGCTCCTACGGCGGCTGGTCCGGGGATCCCTGAGATTAAAGCTTACCTTAATGGCATTGA
CACTCCCAATATGTTTGGTTTTACCACCATGATGGTTAAGGTTTGTTTCTTAAACCTTCA
CAAAGTTTGAAGCTTCCCACAAAGTTAGTGTGAGATCTTTTGTTTTACTGATGGATTTTG
CGGTTTTTTTCCGATTAGATTGTTGGAAGTATTGGAGCGGTTGCAGCTGGACTTGATCTT
GGTAAAGAAGGGCCATTGGTTCATATTGGAAGTTGCATAGCTTCTTTGCTTGGTCAAGGT
GGTCCAGATAATCACAGAATCAAATGGAGATGGCTTCGTTACTTCAACAACGATAGAGAT
CGAAGAGATCTTATTACATGTGGATCTGCCTCTGGAGTATGTGCTGCTTTCAGGTCACCA
GTAGGAGGAGTACTTTTCGCTCTTGAGGAAGTCGCTACGTGGTGGAGAAGCGCTCTCTTG
TGGAGAACATTCTTCAGTACAGCCGTTGTGGTGGTTGTATTAAGAGCGTTCATTGAGATT
TGTAACTCCGGGAAATGCGGACTTTTCGGCTCAGGAGGACTCATTATGTTCGATGTGAGT
CATGTAGAGGTTAGGTACCACGCAGCAGATATAATCCCAGTCACATTGATTGGAGTCTTT
GGTGGCATTCTTGGAAGCTTGTACAATCATCTTCTGCATAAAGTTCTCCGGCTTTACAAT
CTCATCAACCAGTAAGTGTTTATGAACGTTCAAGAGTCTTAAAGATTTCTTTTTACTTAA
CATTGTTTGGTAAATTTTGGTGTAGGAAGGGAAAGATTCATAAGGTGCTTCTAAGTCTTG
GGGTATCTCTATTCACATCAGTTTGCTTGTTCGGTCTTCCTTTCTTAGCGGAATGCAAGC
CTTGTGATCCTTCTATAGACGAGATATGTCCAACAAACGGAAGATCAGGAAATTTCAAGC
AATTCAACTGTCCAAATGGTTATTACAACGATCTATCCACTCTGCTTCTCACAACCAATG
ATGATGCAGTCAGAAACATTTTCTCTTCAAACACTCCTAATGAGTTTGGCATGGTTTCTC
TCTGGATATTCTTTGGCCTCTACTGCATTTTGGGTCTTATAACATTCGGTATAGCGACAC
CGTCGGGTCTCTTCCTACCGATTATCCTCATGGGTTCTGCATACGGTAGGATGCTAGGCA
CAGCAATGGGGTCTTACACAAACATAGATCAAGGGCTTTACGCGGTTCTTGGTGCAGCTT
CACTCATGGCTGGTTCAATGAGAATGACTGTTTCACTCTGTGTTATATTTCTGGAACTCA
CCAACAACCTTCTTTTGTTGCCCATTACAATGTTTGTGCTTCTGATAGCTAAAACAGTAG
GTGACAGCTTCAATCTAAGTATCTACGAGATCATTCTCCATCTTAAGGGCTTACCTTTCT
TGGAAGCAAATCCAGAGCCGTGGATGAGGAATCTCACTGTAGGTGAGCTTAACGACGCTA
AGCCTCCGGTTGTAACACTTAACGGAGTAGAAAAAGTGGCAAATATAGTCGATGTACTAA
GGAACACAACGCATAACGCATTCCCAGTCTTGGATGGAGCAGATCAAAACACTGGCACAG
AGCTCCATGGTCTGATCCTAAGAGCTCACCTTGTGAAAGTTCTGAAAAAGAGATGGTTCT
TGAATGAGAAAAGGAGAACAGAAGAGTGGGAAGTTAGGGAAAAGTTCACACCGGTTGAAT
TAGCTGAGAGAGAAGATAACTTCGATGATGTTGCAATCACAAGCTCAGAGATGCAATTGT
ATGTTGATCTTCATCCTTTGACCAACACTACACCTTACACAGTGGTGCAAAGTATGTCAG
TGGCTAAAGCTTTGGTTCTGTTCCGGTCAGTGGGTCTCAGACATTTACTGGTGGTTCCCA
AGATTCAAGCTTCAGGGGTAAGTTTGCTTTTTTACTCTCTTGATTCAAGATTCAAGAACA
CTACTAAACGTGTGTCTTGTGTTGTTGCAGATGTCACCTGTGATAGGGATCTTAACAAGG
CAAGATCTCAGGGCTTATAACATTCTACAAGCATTTCCTCACTTGGATAAACACAAAAGT
GGAAAAGCTAGATGAATAAGCCAAAATGCAAAGAGCGTTCACTATTATTTGGTTTGTGTG
ATTCGTGTGTCTTTCCACATTCTTAGTTGATATATATTCTGTCCAGTTTTGCTTGCATTC
TTCCTTCAAGACCAAAAACAAATTATACCATTTGGTAGATTTGTGTTTTCTACTTGTAAA
TCTCCTTTTTTTTCCCCACGTTTTCAGTTTCAAAAGAAGAAGAATAAGAAATTTGAATAC
AGAACAAAACTTTGAAGCTTCCATGGAGTTCACAAATCTTTTAAGGAATTGTGTTAAATA
AACATCTTTCTATG
>AT5G40890.1 | ATCLC-A (CHLORIDE CHANNEL A) anion channel/ nitrate transmembrane transporter/ voltage-gated chloride channel
CTGTGACTCCTCCTCACAACAAATAACATTTAAATTAAATGTTATGTTTGTATCACCATA
CATATAATGGTGTATATTGATGCATGCATGTATCATATGTAGAGAGAGATCTATAAAGCT
TCATAAAAGTGTTTCTCTAGAAAAAACGACAAAATTCGCAGAGAAAATCCAAACCAAAAG
TAGTTTTGTAACAGAGAGATAGATAGAAAGCTCTTGAAGATCTAACCAAAATCTACTTTT
GTTCTTCTTCTTCTTCTTTTCATAAATTTTCGGAGTGGTCCTATTTATTGTTTCTTGGAT
CATTAGAGAGACAGCTATCGATGGATGAAGATGGAAACTTGCAGATTAGTAATAGTAATT
ACAATGGAGAAGAAGAAGGAGAAGATCCAGAGAACAACACTTTGAATCAACCACTGCTTA
AGAGACATAGAACTCTTTCTTCAACTCCTCTTGCTTTGGTCGGTGCCAAGGTTTCACACA
TCGAGAGTTTAGATTATGAGTATGTCTTCTTTATCTTCTAGATCTTGATTATTTGATTCT
TATTCTGTTTTCATATCGAATTTTACTTTTCTTGAATTGTTTTTTGGATGAGTCTTAATC
TTGTTCTATAAAGAGTGACAAAAAAAAAACCTTATTCTATAAAGTTTTGAGCTTTACTCT
GTTTCCAGATAAATCTTCACTTTCTGATGGTTTATTGAGTTTGTCATTATCTTTTTTTTT
TGTAAAGTTTCAATCTTACTATTTTTTCAGCTAATTTTCATTTTAGAAAGAAATAAAATT
GAATGGATTATTTGTCTCAATCTCTTTCTATAAATTTTTAAATCTTTATCCTGATTTTCA
GAACATAAATTATGAAAATATTAGAGATAATTTTGACAAGAAGAATGAAAATATTAGTGA
TGGAGACATATGACCTGTTGTGATACTTCAATTATTTCTCACATTTTCAATTTGCCGCAA
GCAATCATAAACCAAATCTTGTACAAGATCCAGATAATTAGGTTACCTTTTGTTTATTAG
TTGTATGATAAGTCTTGGTCTCAAATCTCTTTCTATAACGTTTATTTATCTTTACTCTGT
TTTCAGACAATCTTCATATATTTTTTTTTCTTAAACTTGGTGGAAAATAATCAGTGATGG
AGACATATACTTGTATAGATTTTTGATTTGAGATTTTGGATTTCTGCAGAATAAACGAGA
ATGATCTGTTCAAGCATGACTGGAGAAGCAGATCAAAAGCACAAGTGTTTCAATACATAT
TCTTAAAATGGACATTAGCTTGTCTTGTTGGTCTCTTCACTGGTCTTATCGCTACTCTCA
TCAACCTTGCTGTCGAAAACATCGCCGGTTACAAACTTCTCGCCGTCGGCTACTACATTG
CTCAAGATAGGTATTGACTCATCAGCCAAATCTTGAAAAACAAAACAGTCAAGATCAAGA
AATTGAGATACCTTGTATGACAAGTTTATGTTTTTGAAATAGGTTTTGGACAGGTCTGAT
GGTCTTTACGGGGGCGAATTTGGGTCTGACTTTGGTGGCGACAGTACTTGTTGTTTACTT
TGCTCCTACGGCGGCTGGTCCGGGGATCCCTGAGATTAAAGCTTACCTTAATGGCATTGA
CACTCCCAATATGTTTGGTTTTACCACCATGATGGTTAAGGTTTGTTTCTTAAACCTTCA
CAAAGTTTGAAGCTTCCCACAAAGTTAGTGTGAGATCTTTTGTTTTACTGATGGATTTTG
CGGTTTTTTTCCGATTAGATTGTTGGAAGTATTGGAGCGGTTGCAGCTGGACTTGATCTT
GGTAAAGAAGGGCCATTGGTTCATATTGGAAGTTGCATAGCTTCTTTGCTTGGTCAAGGT
GGTCCAGATAATCACAGAATCAAATGGAGATGGCTTCGTTACTTCAACAACGATAGAGAT
CGAAGAGATCTTATTACATGTGGATCTGCCTCTGGAGTATGTGCTGCTTTCAGGTCACCA
GTAGGAGGAGTACTTTTCGCTCTTGAGGAAGTCGCTACGTGGTGGAGAAGCGCTCTCTTG
TGGAGAACATTCTTCAGTACAGCCGTTGTGGTGGTTGTATTAAGAGCGTTCATTGAGATT
TGTAACTCCGGGAAATGCGGACTTTTCGGCTCAGGAGGACTCATTATGTTCGATGTGAGT
CATGTAGAGGTTAGGTACCACGCAGCAGATATAATCCCAGTCACATTGATTGGAGTCTTT
GGTGGCATTCTTGGAAGCTTGTACAATCATCTTCTGCATAAAGTTCTCCGGCTTTACAAT
CTCATCAACCAGTAAGTGTTTATGAACGTTCAAGAGTCTTAAAGATTTCTTTTTACTTAA
CATTGTTTGGTAAATTTTGGTGTAGGAAGGGAAAGATTCATAAGGTGCTTCTAAGTCTTG
GGGTATCTCTATTCACATCAGTTTGCTTGTTCGGTCTTCCTTTCTTAGCGGAATGCAAGC
CTTGTGATCCTTCTATAGACGAGATATGTCCAACAAACGGAAGATCAGGAAATTTCAAGC
AATTCAACTGTCCAAATGGTTATTACAACGATCTATCCACTCTGCTTCTCACAACCAATG
ATGATGCAGTCAGAAACATTTTCTCTTCAAACACTCCTAATGAGTTTGGCATGGTTTCTC
TCTGGATATTCTTTGGCCTCTACTGCATTTTGGGTCTTATAACATTCGGTATAGCGACAC
CGTCGGGTCTCTTCCTACCGATTATCCTCATGGGTTCTGCATACGGTAGGATGCTAGGCA
CAGCAATGGGGTCTTACACAAACATAGATCAAGGGCTTTACGCGGTTCTTGGTGCAGCTT
CACTCATGGCTGGTTCAATGAGAATGACTGTTTCACTCTGTGTTATATTTCTGGAACTCA
CCAACAACCTTCTTTTGTTGCCCATTACAATGTTTGTGCTTCTGATAGCTAAAACAGTAG
GTGACAGCTTCAATCTAAGTATCTACGAGATCATTCTCCATCTTAAGGGCTTACCTTTCT
TGGAAGCAAATCCAGAGCCGTGGATGAGGAATCTCACTGTAGGTGAGCTTAACGACGCTA
AGCCTCCGGTTGTAACACTTAACGGAGTAGAAAAAGTGGCAAATATAGTCGATGTACTAA
GGAACACAACGCATAACGCATTCCCAGTCTTGGATGGAGCAGATCAAAACACTGGCACAG
AGCTCCATGGTCTGATCCTAAGAGCTCACCTTGTGAAAGTTCTGAAAAAGAGATGGTTCT
TGAATGAGAAAAGGAGAACAGAAGAGTGGGAAGTTAGGGAAAAGTTCACACCGGTTGAAT
TAGCTGAGAGAGAAGATAACTTCGATGATGTTGCAATCACAAGCTCAGAGATGCAATTGT
ATGTTGATCTTCATCCTTTGACCAACACTACACCTTACACAGTGGTGCAAAGTATGTCAG
TGGCTAAAGCTTTGGTTCTGTTCCGGTCAGTGGGTCTCAGACATTTACTGGTGGTTCCCA
AGATTCAAGCTTCAGGGGTAAGTTTGCTTTTTTACTCTCTTGATTCAAGATTCAAGAACA
CTACTAAACGTGTGTCTTGTGTTGTTGCAGATGTCACCTGTGATAGGGATCTTAACAAGG
CAAGATCTCAGGGCTTATAACATTCTACAAGCATTTCCTCACTTGGATAAACACAAAAGT
GGAAAAGCTAGATGAATAAGCCAAAATGCAAAGAGCGTTCACTATTATTTGGTTTGTGTG
ATTCGTGTGTCTTTCCACATTCTTAGTTGATATATATTCTGTCCAGTTTTGCTTGCATTC
TTCCTTCAAGACCAAAAACAAATTATACCATTTGGTAGATTTGTGTTTTCTACTTGTAAA
TCTCCTTTTTTTTCCCCACGTTTTCAGTTTCAAAAGAAGAAGAATAAGAAATTTGAATAC
AGAACAAAACTTTGAAGCTTCCATGGAGTTCACAAATCTTTTAAGGAATTGTGTTAAATA
AACATCTTTCTATG
>AT5G40890.2 | ATCLC-A (CHLORIDE CHANNEL A) anion channel/ nitrate transmembrane transporter/ voltage-gated chloride channel
GGTTACCTTTTGTTTATTAGTTGTATGATAAGTCTTGGTCTCAAATCTCTTTCTATAACG
TTTATTTATCTTTACTCTGTTTTCAGACAATCTTCATATATTTTTTTTTCTTAAACTTGG
TGGAAAATAATCAGTGATGGAGACATATACTTGTATAGATTTTTGATTTGAGATTTTGGA
TTTCTGCAGAATAAACGAGAATGATCTGTTCAAGCATGACTGGAGAAGCAGATCAAAAGC
ACAAGTGTTTCAATACATATTCTTAAAATGGACATTAGCTTGTCTTGTTGGTCTCTTCAC
TGGTCTTATCGCTACTCTCATCAACCTTGCTGTCGAAAACATCGCCGGTTACAAACTTCT
CGCCGTCGGCTACTACATTGCTCAAGATAGGTATTGACTCATCAGCCAAATCTTGAAAAA
CAAAACAGTCAAGATCAAGAAATTGAGATACCTTGTATGACAAGTTTATGTTTTTGAAAT
AGGTTTTGGACAGGTCTGATGGTCTTTACGGGGGCGAATTTGGGTCTGACTTTGGTGGCG
ACAGTACTTGTTGTTTACTTTGCTCCTACGGCGGCTGGTCCGGGGATCCCTGAGATTAAA
GCTTACCTTAATGGCATTGACACTCCCAATATGTTTGGTTTTACCACCATGATGGTTAAG
GTTTGTTTCTTAAACCTTCACAAAGTTTGAAGCTTCCCACAAAGTTAGTGTGAGATCTTT
TGTTTTACTGATGGATTTTGCGGTTTTTTTCCGATTAGATTGTTGGAAGTATTGGAGCGG
TTGCAGCTGGACTTGATCTTGGTAAAGAAGGGCCATTGGTTCATATTGGAAGTTGCATAG
CTTCTTTGCTTGGTCAAGGTGGTCCAGATAATCACAGAATCAAATGGAGATGGCTTCGTT
ACTTCAACAACGATAGAGATCGAAGAGATCTTATTACATGTGGATCTGCCTCTGGAGTAT
GTGCTGCTTTCAGGTCACCAGTAGGAGGAGTACTTTTCGCTCTTGAGGAAGTCGCTACGT
GGTGGAGAAGCGCTCTCTTGTGGAGAACATTCTTCAGTACAGCCGTTGTGGTGGTTGTAT
TAAGAGCGTTCATTGAGATTTGTAACTCCGGGAAATGCGGACTTTTCGGCTCAGGAGGAC
TCATTATGTTCGATGTGAGTCATGTAGAGGTTAGGTACCACGCAGCAGATATAATCCCAG
TCACATTGATTGGAGTCTTTGGTGGCATTCTTGGAAGCTTGTACAATCATCTTCTGCATA
AAGTTCTCCGGCTTTACAATCTCATCAACCAGTAAGTGTTTATGAACGTTCAAGAGTCTT
AAAGATTTCTTTTTACTTAACATTGTTTGGTAAATTTTGGTGTAGGAAGGGAAAGATTCA
TAAGGTGCTTCTAAGTCTTGGGGTATCTCTATTCACATCAGTTTGCTTGTTCGGTCTTCC
TTTCTTAGCGGAATGCAAGCCTTGTGATCCTTCTATAGACGAGATATGTCCAACAAACGG
AAGATCAGGAAATTTCAAGCAATTCAACTGTCCAAATGGTTATTACAACGATCTATCCAC
TCTGCTTCTCACAACCAATGATGATGCAGTCAGAAACATTTTCTCTTCAAACACTCCTAA
TGAGTTTGGCATGGTTTCTCTCTGGATATTCTTTGGCCTCTACTGCATTTTGGGTCTTAT
AACATTCGGTATAGCGACACCGTCGGGTCTCTTCCTACCGATTATCCTCATGGGTTCTGC
ATACGGTAGGATGCTAGGCACAGCAATGGGGTCTTACACAAACATAGATCAAGGGCTTTA
CGCGGTTCTTGGTGCAGCTTCACTCATGGCTGGTTCAATGAGAATGACTGTTTCACTCTG
TGTTATATTTCTGGAACTCACCAACAACCTTCTTTTGTTGCCCATTACAATGTTTGTGCT
TCTGATAGCTAAAACAGTAGGTGACAGCTTCAATCTAAGTATCTACGAGATCATTCTCCA
TCTTAAGGGCTTACCTTTCTTGGAAGCAAATCCAGAGCCGTGGATGAGGAATCTCACTGT
AGGTGAGCTTAACGACGCTAAGCCTCCGGTTGTAACACTTAACGGAGTAGAAAAAGTGGC
AAATATAGTCGATGTACTAAGGAACACAACGCATAACGCATTCCCAGTCTTGGATGGAGC
AGATCAAAACACTGGCACAGAGCTCCATGGTCTGATCCTAAGAGCTCACCTTGTGAAAGT
TCTGAAAAAGAGATGGTTCTTGAATGAGAAAAGGAGAACAGAAGAGTGGGAAGTTAGGGA
AAAGTTCACACCGGTTGAATTAGCTGAGAGAGAAGATAACTTCGATGATGTTGCAATCAC
AAGCTCAGAGATGCAATTGTATGTTGATCTTCATCCTTTGACCAACACTACACCTTACAC
AGTGGTGCAAAGTATGTCAGTGGCTAAAGCTTTGGTTCTGTTCCGGTCAGTGGGTCTCAG
ACATTTACTGGTGGTTCCCAAGATTCAAGCTTCAGGGGTAAGTTTGCTTTTTTACTCTCT
TGATTCAAGATTCAAGAACACTACTAAACGTGTGTCTTGTGTTGTTGCAGATGTCACCTG
TGATAGGGATCTTAACAAGGCAAGATCTCAGGGCTTATAACATTCTACAAGCATTTCCTC
ACTTGGATAAACACAAAAGTGGAAAAGCTAGATGAATAAGCCAAAATGCAAAGAGCGTTC
ACTATTATTTGGTTTGTGTGATTCGTGTGTCTTTCCACATTCTTAGTTGATATATATTCT
GTCCAGTTTTGCTTGCATTCTTCCTTCAAGACCAAAAACAAATTATACCATTTGGTAGAT
TTGTGTTTTCTACTTGTAAATCTCCTTTTTTTTCCCCACGTTTTCAGTTTCAAAAGAAGA
AGAATAAGAAATTTGAATACAGAACAAAACTTTGAAGCTTCCATGGAGTTCACAAATCTT
TTAAGGAATTGTGTTAAATAAACATCTTTCTATGAGAGAACGGATATGAAAATATTACTT
TCTTTT
>AT5G40890.2 | ATCLC-A (CHLORIDE CHANNEL A) anion channel/ nitrate transmembrane transporter/ voltage-gated chloride channel
GGTTACCTTTTGTTTATTAGTTGTATGATAAGTCTTGGTCTCAAATCTCTTTCTATAACG
TTTATTTATCTTTACTCTGTTTTCAGACAATCTTCATATATTTTTTTTTCTTAAACTTGG
TGGAAAATAATCAGTGATGGAGACATATACTTGTATAGATTTTTGATTTGAGATTTTGGA
TTTCTGCAGAATAAACGAGAATGATCTGTTCAAGCATGACTGGAGAAGCAGATCAAAAGC
ACAAGTGTTTCAATACATATTCTTAAAATGGACATTAGCTTGTCTTGTTGGTCTCTTCAC
TGGTCTTATCGCTACTCTCATCAACCTTGCTGTCGAAAACATCGCCGGTTACAAACTTCT
CGCCGTCGGCTACTACATTGCTCAAGATAGGTATTGACTCATCAGCCAAATCTTGAAAAA
CAAAACAGTCAAGATCAAGAAATTGAGATACCTTGTATGACAAGTTTATGTTTTTGAAAT
AGGTTTTGGACAGGTCTGATGGTCTTTACGGGGGCGAATTTGGGTCTGACTTTGGTGGCG
ACAGTACTTGTTGTTTACTTTGCTCCTACGGCGGCTGGTCCGGGGATCCCTGAGATTAAA
GCTTACCTTAATGGCATTGACACTCCCAATATGTTTGGTTTTACCACCATGATGGTTAAG
GTTTGTTTCTTAAACCTTCACAAAGTTTGAAGCTTCCCACAAAGTTAGTGTGAGATCTTT
TGTTTTACTGATGGATTTTGCGGTTTTTTTCCGATTAGATTGTTGGAAGTATTGGAGCGG
TTGCAGCTGGACTTGATCTTGGTAAAGAAGGGCCATTGGTTCATATTGGAAGTTGCATAG
CTTCTTTGCTTGGTCAAGGTGGTCCAGATAATCACAGAATCAAATGGAGATGGCTTCGTT
ACTTCAACAACGATAGAGATCGAAGAGATCTTATTACATGTGGATCTGCCTCTGGAGTAT
GTGCTGCTTTCAGGTCACCAGTAGGAGGAGTACTTTTCGCTCTTGAGGAAGTCGCTACGT
GGTGGAGAAGCGCTCTCTTGTGGAGAACATTCTTCAGTACAGCCGTTGTGGTGGTTGTAT
TAAGAGCGTTCATTGAGATTTGTAACTCCGGGAAATGCGGACTTTTCGGCTCAGGAGGAC
TCATTATGTTCGATGTGAGTCATGTAGAGGTTAGGTACCACGCAGCAGATATAATCCCAG
TCACATTGATTGGAGTCTTTGGTGGCATTCTTGGAAGCTTGTACAATCATCTTCTGCATA
AAGTTCTCCGGCTTTACAATCTCATCAACCAGTAAGTGTTTATGAACGTTCAAGAGTCTT
AAAGATTTCTTTTTACTTAACATTGTTTGGTAAATTTTGGTGTAGGAAGGGAAAGATTCA
TAAGGTGCTTCTAAGTCTTGGGGTATCTCTATTCACATCAGTTTGCTTGTTCGGTCTTCC
TTTCTTAGCGGAATGCAAGCCTTGTGATCCTTCTATAGACGAGATATGTCCAACAAACGG
AAGATCAGGAAATTTCAAGCAATTCAACTGTCCAAATGGTTATTACAACGATCTATCCAC
TCTGCTTCTCACAACCAATGATGATGCAGTCAGAAACATTTTCTCTTCAAACACTCCTAA
TGAGTTTGGCATGGTTTCTCTCTGGATATTCTTTGGCCTCTACTGCATTTTGGGTCTTAT
AACATTCGGTATAGCGACACCGTCGGGTCTCTTCCTACCGATTATCCTCATGGGTTCTGC
ATACGGTAGGATGCTAGGCACAGCAATGGGGTCTTACACAAACATAGATCAAGGGCTTTA
CGCGGTTCTTGGTGCAGCTTCACTCATGGCTGGTTCAATGAGAATGACTGTTTCACTCTG
TGTTATATTTCTGGAACTCACCAACAACCTTCTTTTGTTGCCCATTACAATGTTTGTGCT
TCTGATAGCTAAAACAGTAGGTGACAGCTTCAATCTAAGTATCTACGAGATCATTCTCCA
TCTTAAGGGCTTACCTTTCTTGGAAGCAAATCCAGAGCCGTGGATGAGGAATCTCACTGT
AGGTGAGCTTAACGACGCTAAGCCTCCGGTTGTAACACTTAACGGAGTAGAAAAAGTGGC
AAATATAGTCGATGTACTAAGGAACACAACGCATAACGCATTCCCAGTCTTGGATGGAGC
AGATCAAAACACTGGCACAGAGCTCCATGGTCTGATCCTAAGAGCTCACCTTGTGAAAGT
TCTGAAAAAGAGATGGTTCTTGAATGAGAAAAGGAGAACAGAAGAGTGGGAAGTTAGGGA
AAAGTTCACACCGGTTGAATTAGCTGAGAGAGAAGATAACTTCGATGATGTTGCAATCAC
AAGCTCAGAGATGCAATTGTATGTTGATCTTCATCCTTTGACCAACACTACACCTTACAC
AGTGGTGCAAAGTATGTCAGTGGCTAAAGCTTTGGTTCTGTTCCGGTCAGTGGGTCTCAG
ACATTTACTGGTGGTTCCCAAGATTCAAGCTTCAGGGGTAAGTTTGCTTTTTTACTCTCT
TGATTCAAGATTCAAGAACACTACTAAACGTGTGTCTTGTGTTGTTGCAGATGTCACCTG
TGATAGGGATCTTAACAAGGCAAGATCTCAGGGCTTATAACATTCTACAAGCATTTCCTC
ACTTGGATAAACACAAAAGTGGAAAAGCTAGATGAATAAGCCAAAATGCAAAGAGCGTTC
ACTATTATTTGGTTTGTGTGATTCGTGTGTCTTTCCACATTCTTAGTTGATATATATTCT
GTCCAGTTTTGCTTGCATTCTTCCTTCAAGACCAAAAACAAATTATACCATTTGGTAGAT
TTGTGTTTTCTACTTGTAAATCTCCTTTTTTTTCCCCACGTTTTCAGTTTCAAAAGAAGA
AGAATAAGAAATTTGAATACAGAACAAAACTTTGAAGCTTCCATGGAGTTCACAAATCTT
TTAAGGAATTGTGTTAAATAAACATCTTTCTATGAGAGAACGGATATGAAAATATTACTT
TCTTTT
>AT1G05320.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.2 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAATAAAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTT
TGTGACTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAA
AAGAAACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCT
GGTCTTTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGA
TCCAAGTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGAC
AATTCCGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACG
TCTCTTTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGA
TTGTACTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATT
TAGGTGCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCT
TAGTCGAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTA
ATATAGTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTT
AGAATTCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTT
TTTTTTATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAAT
TTAGATGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCT
TTATTTGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAAT
GTTGTTGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATA
TATATGCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCT
CTGGGGAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTG
TTGCGGTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAA
CGTGTGACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTT
AAATTCTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAG
AAGCAACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCT
TGTAACTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATT
TGTTACAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATAT
TTGATGGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATG
ATGATGAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATG
TTAAACATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTG
AGAACTCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGG
CAGAGAAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGA
TTTCAGATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACT
CTGTTCTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAA
AATCTGCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAAT
ACCAAGAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAG
AGCTTGAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAA
ATGTGAGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAAC
TAGAGAAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCC
TTGAAGCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATG
CTGTGATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAG
ACGAAGCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAG
TTCAAAAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGA
AATCAAAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTG
GTCAATCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAG
CAGATACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTG
AGAAGGAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTA
CAAAGTTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCAT
CTGGAGTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTC
TTGAGTCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAA
AGCTGAACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCT
CTGTTTTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATC
TAACAAAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTT
AGGTACTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTC
TTCCCTTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCT
CGTAAAGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCA
AATCGAGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACA
AGTAGAAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACT
TGGTCACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAA
TTGACCTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAG
AAAGCAATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTT
AATAAATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTT
GAGTTATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCA
GAGTTGGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATC
GTTCATCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAA
TCTAAGGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAA
TGTCGAAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGA
AAAGAGGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAG
CAAACTAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAG
AAAGCTGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCT
GTCATTCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAA
GATTTGTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.2 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAATAAAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTT
TGTGACTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAA
AAGAAACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCT
GGTCTTTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGA
TCCAAGTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGAC
AATTCCGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACG
TCTCTTTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGA
TTGTACTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATT
TAGGTGCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCT
TAGTCGAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTA
ATATAGTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTT
AGAATTCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTT
TTTTTTATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAAT
TTAGATGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCT
TTATTTGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAAT
GTTGTTGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATA
TATATGCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCT
CTGGGGAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTG
TTGCGGTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAA
CGTGTGACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTT
AAATTCTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAG
AAGCAACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCT
TGTAACTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATT
TGTTACAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATAT
TTGATGGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATG
ATGATGAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATG
TTAAACATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTG
AGAACTCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGG
CAGAGAAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGA
TTTCAGATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACT
CTGTTCTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAA
AATCTGCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAAT
ACCAAGAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAG
AGCTTGAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAA
ATGTGAGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAAC
TAGAGAAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCC
TTGAAGCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATG
CTGTGATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAG
ACGAAGCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAG
TTCAAAAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGA
AATCAAAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTG
GTCAATCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAG
CAGATACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTG
AGAAGGAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTA
CAAAGTTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCAT
CTGGAGTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTC
TTGAGTCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAA
AGCTGAACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCT
CTGTTTTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATC
TAACAAAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTT
AGGTACTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTC
TTCCCTTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCT
CGTAAAGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCA
AATCGAGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACA
AGTAGAAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACT
TGGTCACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAA
TTGACCTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAG
AAAGCAATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTT
AATAAATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTT
GAGTTATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCA
GAGTTGGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATC
GTTCATCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAA
TCTAAGGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAA
TGTCGAAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGA
AAAGAGGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAG
CAAACTAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAG
AAAGCTGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCT
GTCATTCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAA
GATTTGTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.2 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAATAAAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTT
TGTGACTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAA
AAGAAACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCT
GGTCTTTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGA
TCCAAGTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGAC
AATTCCGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACG
TCTCTTTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGA
TTGTACTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATT
TAGGTGCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCT
TAGTCGAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTA
ATATAGTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTT
AGAATTCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTT
TTTTTTATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAAT
TTAGATGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCT
TTATTTGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAAT
GTTGTTGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATA
TATATGCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCT
CTGGGGAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTG
TTGCGGTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAA
CGTGTGACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTT
AAATTCTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAG
AAGCAACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCT
TGTAACTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATT
TGTTACAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATAT
TTGATGGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATG
ATGATGAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATG
TTAAACATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTG
AGAACTCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGG
CAGAGAAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGA
TTTCAGATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACT
CTGTTCTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAA
AATCTGCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAAT
ACCAAGAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAG
AGCTTGAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAA
ATGTGAGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAAC
TAGAGAAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCC
TTGAAGCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATG
CTGTGATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAG
ACGAAGCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAG
TTCAAAAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGA
AATCAAAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTG
GTCAATCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAG
CAGATACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTG
AGAAGGAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTA
CAAAGTTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCAT
CTGGAGTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTC
TTGAGTCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAA
AGCTGAACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCT
CTGTTTTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATC
TAACAAAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTT
AGGTACTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTC
TTCCCTTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCT
CGTAAAGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCA
AATCGAGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACA
AGTAGAAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACT
TGGTCACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAA
TTGACCTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAG
AAAGCAATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTT
AATAAATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTT
GAGTTATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCA
GAGTTGGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATC
GTTCATCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAA
TCTAAGGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAA
TGTCGAAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGA
AAAGAGGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAG
CAAACTAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAG
AAAGCTGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCT
GTCATTCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAA
GATTTGTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.3 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.3 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT1G05320.3 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN cellular_component unknown EXPRESSED IN fruit CONTAINS InterPro DOMAIN/s Prefoldin (InterProIPR009053) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT2G322401) Has 205658 Blast hits to 89336 proteins in 2499 species Archae - 2336 Bacteria - 33619 Metazoa - 92986 Fungi - 14305 Plants - 7441 Viruses - 1151 Other Eukaryotes - 53820 (source NCBI BLink)
AAAAGACTCTCTCTCTCCCATTTACATCTCTTCATCTTCTTCTCTTTCTGCATTTTGTGA
CTAAATTTGTTCCGATCTCCGAAAAATATGAAATCTTATTAGAAAAATACCGGAAAAGAA
ACAGATTAGTACATTCGATTCAGCACCTTCAAGTAAGCATATCCACACCTCTTCTGGTCT
TTTATGATATTTTTTCTTATCTTTTTTTAAAAAAACTTATATAATTGATCTTTGATCCAA
GTTGTCTCTGTTTTTCAATTTCGGGATTTGGAACTATATATTGTAGGATCGTGACAATTC
CGAATTTCAGATTTCGATCGATCATCTTTTCAAGTATTAGTGGTAAAACTCAACGTCTCT
TTGAGAAACTCAAATTCTTTGTTTATATTAATCGCCGTTAGTTTTCCATATTGGATTGTA
CTATTAAAAATTTAATGGTATGTGGTAAATCTTTGATTTGATTTCTTTCAAGATTTAGGT
GCAACTTTCAAGAGATGTCTTTATTGATGTAACTGGTTTTGTGAGTCTTTTAGCTTAGTC
GAATTTATTTTTATTTTTGAATTTTATTCGCCTGCAAGATCATTCAAGTGCTTTAATATA
GTGTTCATTTTTTTTAATTTATGATAATGTTTTTTTTTTAATCAAATTTTTGGTTAGAAT
TCCACATGTTCTTATAAGAGAGCTACTAGTTTGGTGAGCATTTAATATGTGTTTTTTTTT
TATTTGTTGGGTAGTTTTTATTTATTGACATCATAAAGTTTGATCACATTGTAATTTAGA
TGATCATAAACCTATTAGCCAGATTAAAAACTTGTGAAAATACAGACGTTGACCTTTATT
TGGAGATCTTCCAAACCTTCTCAATTCTGTTTTCTCTTATTATATTTGAAAGAATGTTGT
TGGCAATAATAAATCCACCATTGAATATCGTATTATTGAATATAAACAATGTATATATAT
GCTCTCTGTCGTCACAAGGAGATTATCTTATCTTGTTAGTTATTTTATATAATCTCTGGG
GAAATGGTTTTCTTGCAAGTTAGGGCTTTATTTTTCGCTTTAAACAATGAAATTGTTGCG
GTTGGATTGTTCAACTGAACTTGATCATATTTCTTGTTGATTATTGAGACTTTAACGTGT
GACATTTCATTCATATATACAAAAAGTATACTCTTTAACACCAATTTAAAGCCTTAAATT
CTCAGCGGTTGCAGAACACAAAATAAGAGGAATTGCTTGATTATAGCTATGGAAGAAGCA
ACAAAAGTGAGTTCAGACGTCCCTCAAGCTAAGGTAATGAATGATCTTTGTTTCTTGTAA
CTCAGATGAAAATTTTGCTTAAAGTTCTTGGAGAAGATTAAGTATTGTGACGATTTGTTA
CAGGAAGTGACAAAGGAAGATACTGTCATGGAGAAAGAAGAGGAGGATACAATATTTGAT
GGTGGATTTGTAAAAGTTGAGAAAGAAGGGATCAACAAAAAGTATGATGATGATGATGAT
GAGAAAGCAGAGAAGCAGTTGAAGTCTTTAGAAGATGCTTTGCAGTTACATGATGTTAAA
CATAAGGAACTAACTGAAGTTAAGGAAGCTTTTGATGGGTTAGGTCTCGAGCTTGAGAAC
TCGAGAAAGAAGATGATAGAGTTGGAGGACAGGATAAGAATTTCTGCTTTAGAGGCAGAG
AAACTTGAAGAGCTTCAAAAGCAAAGTGCATCAGAACTTGAAGAGAAACTAAAGATTTCA
GATGAAAGATACTCCAAAACAGATGCTCTTTTATCTCAAGCTTTGTCCCAAAACTCTGTT
CTTGAGCAGAAACTGAAATCTTTGGAGGAATTATCCGAGAAAGTATCTGAATTAAAATCT
GCTTTGATAGTGGCTGAAGAGGAAGGAAAGAAGTCGAGCATTCAGATGCAGGAATACCAA
GAAAAGGTAAGTAAATTGGAGTCATCTTTGAACCAATCATCGGCGAGAAACTCAGAGCTT
GAAGAAGATTTGAGAATTGCTTTGCAGAAAGGTGCAGAGCATGAAGATATTGGAAATGTG
AGTACTAAGCGCAGCGTTGAACTACAAGGTCTATTCCAAACATCTCAGTTAAAACTAGAG
AAAGCAGAGGAAAAATTGAAAGACTTGGAAGCAATACAAGTGAAAAACTCGAGCCTTGAA
GCTACTTTAAGCGTTGCAATGGAGAAAGAGAGGGACTTGTCAGAAAATCTTAATGCTGTG
ATGGAGAAGCTGAAATCCTCTGAAGAGAGACTTGAGAAGCAAGCAAGAGAAATAGACGAA
GCTACCACAAGAAGCATAGAGCTTGAAGCTTTGCATAAACACTCAGAGCTTAAAGTTCAA
AAGACAATGGAGGATTTTAGTAGCAGAGATACAGAGGCCAAGTCTTTGACTGAGAAATCA
AAAGATCTCGAGGAGAAAATAAGAGTATATGAAGGGAAATTGGCTGAAGCATGTGGTCAA
TCACTGTCTTTGCAAGAAGAACTTGATCAGTCGTCTGCGGAGAATGAGTTACTAGCAGAT
ACAAACAACCAGCTCAAGATCAAGATTCAAGAACTTGAAGGATATCTGGATTCTGAGAAG
GAAACCGCAATCGAAAAGTTAAACCAGAAAGACACAGAAGCTAAAGACTTGATTACAAAG
TTGAAATCCCATGAAAACGTAATCGAGGAGCACAAAAGGCAGGTTCTTGAAGCATCTGGA
GTTGCTGATACTAGAAAAGTGGAGGTAGAAGAGGCTTTGTTGAAACTTAACACTCTTGAG
TCTACAATCGAAGAGCTTGAGAAAGAGAATGGAGATTTGGCTGAAGTGAATATAAAGCTG
AACCAGAAACTAGCAAATCAAGGGTCAGAGACCGACGATTTTCAGGCTAAGCTCTCTGTT
TTAGAGGCTGAGAAATATCAACAAGCTAAAGAACTTCAGATAACCATAGAAGATCTAACA
AAACAGCTTACTTCTGAAAGAGAAAGACTACGATCACAGGTAAACAATACATTTTAGGTA
CTAATAAACCATCTGATATCATGAAAGAATGACACTTTGTTCTGTTGTAGATCTCTTCCC
TTGAAGAAGAGAAAAACCAAGTCAATGAGATATATCAGAGCACAAAGAATGAGCTCGTAA
AGCTTCAAGCACAACTCCAAGTAGACAAGTCTAAATCCGATGATATGGTATCCCAAATCG
AGAAGCTCAGTGCCTTGGTTGCTGAAAAGTCGGTGTTGGAGTCAAAATTTGAACAAGTAG
AAATACATTTGAAAGAAGAGGTAATACTTTTTGGACAACATTTTGAATACTTACTTGGTC
ACTAATTGATGATGTTTTCTGTCTTTTTTTATCTCAGGTGGAAAAAGTAGCAGAATTGAC
CTCAAAATTGCAGGAACATAAACATAAGGCGAGTGACCGAGATGTGCTTGAAGAGAAAGC
AATTCAGCTTCATAAAGAGCTTCAAGCTTCTCACACAGCCATTTCTGAACAGGTTAATAA
ATATTTCTTTAGCTTCTTCTAACTTTATATCTAATTGTGCTTAGTATATATTCTTGAGTT
ATGATACTTTCTTCTGTGGGGGAAACAGAAAGAAGCCTTGTCTCATAAGCATTCAGAGTT
GGAAGCTACTTTAAAGAAATCACAAGAAGAGCTTGATGCTAAAAAATCTGTGATCGTTCA
TCTCGAATCGAAGTTGAATGAGCTTGAACAGAAAGTGAAGCTTGCAGATGCTAAATCTAA
GGTTAGCCATATAAAACATAACCACATCTTCGTTAAATTTCTTTTCTATACAAAATGTCG
AAAGAATGCTCTGTTGATGTAGAAACCAAATTTGCAGGAAACTGAGTCTACGGGAAAAGA
GGAAGAAGTAGAAGTGAAATCTCGAGACAGTGACTTATCTTTTTCAAATCCAAAGCAAAC
TAAGATCAAGAAGAACTTGGATGCTGCTTCGTCTTCAGGGCACGTTATGATTCAGAAAGC
TGAAACATGGCATCTCATGACATTGAAGATCGCACTTGGAGTGGCTCTTGTCTCTGTCAT
TCTAGGTATCATTGTTGGGAAAAATTATTGATTTCTTTTTGTTATATTTATGAAAGATTT
GTTTGTTTGATTGTTTCGTGGTTCTAAGAATTTTTGCTTCTACCAT
>AT3G09780.1 | CCR1 (ARABIDOPSIS THALIANA CRINKLY4 RELATED 1) ATP binding / kinase/ protein kinase/ protein serine/threonine kinase/ receptor
GAACTTCACCTCCAATGGAAACCCGTTGCTCTCTCCTCTTTCTCTCTCTCATTCTCCTGT
ATTTGCCCAAACCCGGATCCGGATTTGGATCCTCCGGTCCGATTGCGGCGTCGTTCGGCG
GCTCTGCTTTCTTCTGCGCCATTGACGCTAGTGGTCGTCAAGATGTTATCTGCTGGGGAA
AGAACTATTCATCTCCTTCTTCTCCCTCTTCTTCTTCTTCTTCGTCGTCTATTGCTTCTT
CCACTTCCGCAAGCTACAACATTCCGTCAATGGCGGTTCTTTCAGGCGGAGACGGGTTTC
TCTGCGGCATTTTGTCGAACACTTCTCAAGCATTCTGTTTTAGTTCACTTGGGTCTTCTT
CAGGTATGGATCTTGTCCCTCTAGCTTACAGGACTACTGCTTACTCTCAGATAGCTGCTG
GAAACAGCCATGTCTGTGCTGTTAGAGGAGCTTACTATTCCGATCACGATTCTGGGACTA
TCGATTGTTGGGAGATAACTAGAGCTACGAACAACAACAGCTTAATCGCCAAGGAGAATC
CTAACTTCTATGATCAGATTGTTAGTAATCTCGTCTTCAACAATATTGTTTCTGGTGATG
GGTTTAGCTGTGGTGGAATCAGAGATGGTGGGATGCTCTGTTTTGGTCCCAATTCTTCTA
ATTTAGGGTTTAACACAACTTCTGATAACTTCCAAGTCTTAGCCGCCGGTAAAAACTCCG
TTTGTGCTATTCTTAATTTATCTCGAGAGGTTAAATGTTGGGGAGAAGATGAATCTTTTG
TCAATTCTCCGATGAATGATTCTCGATTCGTCTCGCTAACCGCGGGTCCTCGCCATTTCT
GCGGAATCCGTGAGGATAATCATGAGGTTGAGTGTTGGGGAAACTCTAATTTCTCTTTGA
TTCCAAAAGGTTCTGGATTTAAAGCAATAGCTTCGTCTGATTTCATTGTTTGTGGTATTA
GAGAAGAGGATCTTGTTCTTGATTGTTGGATGGTTAATGGTTCGTCCACATTAGCTTACG
ATCCTCCGTTAGAGCTCTGCAGTCCAGGGATGTGTAGAGCTGGTCCTTGTAATGAAAAAG
AGTTTGCTTTCAACGCAAGTATACTCAATGAACCTGACCTAACGAGTTTGTGTGTAAGGA
AAGAGTTAATGGTCTGTTCACCTTGCGGCTCGGATTGCTCTCACGGATTCTTCTTGTCAA
GTTCGTGCACCGCGAACTCTGATCGGATATGTACGCCTTGCTCGCTCTGTCAAAACAGTT
CTTGTTCGGATATATGTAAGCTTCATAACAGCAATTTTCCAGATAAGCATTGGCATCAAC
TACAGAGACTTGTTCTTATCATCGGGTCTTGCGCATCCGCTCTATTGATCATTATAATTG
GTTGCTGTGTTGTGCCACGGATTGTCACTAGTCCTAATAAAGAAGACGGAGCAGCGAATC
AATTCAAATCTTGCATAGGAAAGCCCGATTTAGACACTGATCAGCCACTTGAAAATGTAT
CCCCTGCTCCATCGGTAACGCCTTTTGCTCAAGTGTTTAGACTCTCTGAGCTTAAAGACG
CGACCAACGGGTTTAAAGAGTTCAATGAGTTAGGCAGAGGAAGCTATGGGTTTGTCTACA
AAGCCGTGTTGGCGGACGGGAGGCAAGTAGCGGTTAAGAGAGCAAACGCAGCAACCATAA
TCCACACAAACACTAGAGAATTCGAGACAGAATTGGAGATTCTCTGCAACATTAGGCATT
GCAACATTGTGAATCTCCTTGGTTACTCTACCGAAATGGGAGAGAGGCTTCTTGTTTACG
AGTACATGCCTCACGGTACGCTTCACGATCATCTGCACAGTGGGTTTTCGCCATTGAGTT
GGAGCTTAAGGATCAAAATCGCTATGCAAACCGCAAAGGGTCTTGAGTATCTTCACAATG
AAGCTGAGCCGAGAATCATTCATGGCGATGTGAAGTCTTCGAATGTACTATTGGACTCGG
AATGGGTGGCGAGAGTTGCGGATTTCGGGCTCGTGACATCGTCGAACGAGAAGAATTTGG
ACATCAAAAGAGATGTTTATGACTTTGGAGTTGTGCTGTTAGAGATTTTAACCGGTAGGA
AACGTTATGATAGGGACTGTGATCCGCCGGAGATTGTTGAATGGACGGTTCCGGTGATCA
GAGAAGGCAAAGCGGCGGCGATTGTGGATACGTATATTGCGTTGCCGAGAAACGTGGAGC
CGTTGTTGAAACTTGCTGACGTGGCAGAGTTGTGTGTACGGGAGGATCCGAATCAACAAC
CAACTATGTCGGAACTTGCGAATTGGTTGGAACATGTCGCAAGAGATGCATTGATCTTCT
AGCTTCTTTTTTTTAATGAGTGTTATTATTCTTTTATTTATGAATTCTGGTGAAATTGTA
TAATCAAAAATATACATTCAA
>AT1G10870.1 | AGD4 (ARF-GAP domain 4) ARF GTPase activator/ protein binding / zinc ion binding
TATCATATTCATCACCAACCGAAAACGCCTCTGGATCTCGCCAGATCCAATTCGGACCAA
ATCAGAACCCAAAATTCGACTCACTTGTCTCACTCGACTCGAATCTCCATTCTTTGTCTG
AAAGTTTCTTCCTTTTTGTTTAACCAATGGCGACCTTTATCAATCTGGAGGATTCCCCAA
TGTTTCAGAAACAGGTAAAATTGAAAAGCTATGGTGTGTAATTACCTTCTGCGGATTTCA
GATTCAGGGTTTTTGTTATAAATTGTGAGACTTTATCACCAAAATTGTTGTCTTGTGCCT
GTTCTAATTGGTTTGATCAGGTTTGTTCCTTGGAGGGGACAGCTGACGAGCTTAAAGATC
GTTGTCAGAAGCTATACAAAGGTGTTAAGAAGTTTATGTATGTCTACATCTGCCTTTTTC
TTTCTACTGTTTTACTCTGATCTTTCTGTTGACTGAAGATTCTTAGAGTATCAATTGTGG
AATGTTTTCTGAGAGTGACATATATTCTGAAAGTGGAAGTTGGAATTACCAATTTGTATC
TTCTTTTACTTAATTAGCAAATGTGGATTGACCATTAAAGCTTTCTCGATTGTTTTACCA
TTCTCATGTAAATCTTAGATTATGTGATAAGTTAACATCGTAACATTGTTTTGTTGCTAC
TGCACTTTTGTCATTGTATCTATGTGGCCAGACATGTTATTGGTTGCTGATACGAATGAA
ATTTACTTTGCTTTCTAGGGGGACTTTGGGAGAGGCATCTAAAGGAGAAAGTGCTTTTGC
AGCTTGTCTGGAAGAATTTGGGGGTGGACCTGATGATCCTATCAGTCTTTCAATTGGAGG
TCTGTGGTCTTGCTCATTTGTTGAATTATGACTCTATTTGCTATGATTTAACTTATTTGA
TTCTTATTATTTTGAGTGACACCAGGGCCCGTTATATCCAAATTCATAAATGCACTTCGA
GAGCTTGCCTCTTATAAGGAGTTTCTTTGCTCACAGGTATGCTCATAGTATCTTGTGAGC
TATTATAAATGCCAGTAAAGATTCAAAGATCCCTATCATCATTAAGAGCATAGTTTTGTT
TGGTAATTTAAATGAAGATCTGATTCAGAGTGTCCCGTTTTGATTATTTTCTGGAAATGT
CCGTTTGAGCTTCTAATCAACTCTGTGAGCAATGAAAGAAATATAAGATAGTTTTGAGTA
TAAAATGCCAAATATGCAATTTATTAAAGTGCATATGCCTTAACAATGTCTCACTTTATA
TAACAATTGTGGTATTTTATGTGAAATTTTTTCTAGGTGGAGCATGTGCTACTTGAGAGG
TTGATGAACTTTATTAGTGTTGATCTACAAGAAGCTAAGGTATTCATTTTCTCTGCTAAA
TTTGATCAATTTGTTTTTTTTTCCCAGTGTACTGAGTTTCTCAACTTTTATAGATTCGAC
TTTGATCAATAAACTGGAGATTTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCATTCCA
GACTGTCGAAATACTTTACTCTTTATTATTGTGTGAAAATTCTACAGTCATTTGGAATTT
GGATATGAATTTCAAAAGGATACGGCTTTCAAGGTCTTTAGACTGACCATATTTAAAAAA
AAAATGTTTCATATGTCATGCACTGCAATTATATGATCGACAACTCATGCTTATCATTCC
AACCAACCCTATGCTGTTTCTACTTTTGCAGGAGTCTCGCCATCGATTTGATAAAGCTGC
TCATTCGTATGATCAGGTACTTGCTTATGGAGTGTATAACACCTTTAATATCTTGTATAT
GCAGTTGTACACCCTTATTCTTCGCCTAAAATAAGTATGTTTTATAGGCTGGTGTTACCA
CCACAAGAATGCACAGCACTGAAAACTTTGTCTGATATTCTTCATCTGAACTGGTTTAAT
GAGTTTTCTTATCTGCTTGTAGTCGCGCGAAAAGTTTGTGTCTTTAAAGAAGAATACAAG
AGGAGAAATTGTGGCAGAGTTGGAAGAGGTAGAACATTTATTCTTATGTATATCTTTTTG
TTTGCTTTCTCTTCGTGGCTACAAAGGAAAGTGAAGCAAAATTACAGCGAAGGAATGTGC
CAGCCCGTATGCGCATATGAATATACACATATTTCTAGACTGTCTAGTTCAATAGATGTC
CGTACGTCCTATAGGTGTATGTGTACATGATGCATATAAGAATGTTTGCGCATATGTAGT
CTAGGAAACTGTCCAGTAGGAAAAGTAGTAAAGCAAAGCTACTCTTTAATTTGACAAGCC
AAGATGTAGATGTTGTCGTTACTTAATACTATTTGACATGCTCTGTGCTTGTTTTTCCCA
GCATGGTAACTAACTTGTGCTGTCATATTTTAATGACAGGATCTGGAGAATTCAAAGTCA
ACATTTGAGAAGAGCCGTTTCAATCTAGTATGCACACTCTACTAACATAAGCCTTTGCTA
TTTACTTTCAATATACCTACTTTTAAGTAAATTTTTGCATTGGTTGAAGAGTGCAGGTGA
ATTCACTGATGACTATTGAAGCGAAAAAGAAGTATGAGTTTTTAGAATCTATTAGCGCAA
TTATGGATGCCCATCTGAGATATTTCAAACTTGTAAGGGCTCTAATTTCACATTTGAAGT
ACTTACCATGTAAGACCAACTAAGTTTGAGATTTGTGTCATGTTGTGATCCTTAATTTGG
CCTCTTTATGTTTCAGGGATATGACTTGTTGAATCAACTGGAACCATTTATCCATCAGGT
ACAAACTTGTAGTCAACTTGATGTCTCAATATTTTAGATGTGCAAAACAAATATGAGCTT
CTATAGTTCCCACAGGGACTTTAAACGTGCAAATGGGGAAGTAATAATTAGGTTAGAAGG
ACTGAGGTCTTGAAGAGACTTTTTAGGCTTTTGGAAGCCCAAAGTCATCTAATTCATCGA
TTTAAGTTTTAATGTTTACATTTCCTTACATAAAATTTGAAAGATAACTTTTTGTTTAAA
ATCAAAGAAGACTTTCCCAATCTTTTAGTTCCAAAAACTTGGTTTATCTGGATTTAAAAA
GAACACCCATAGGTAAAAGCCTCTCCTGTCCAAGATTTAGTTTTTGCTCTAGTAAAATGT
GATGTGAAATAGCCAAAGTTTCATGATCTCTAATGAAATCCACTGATGCTGACTTGTGAT
TGTTCTTCTTATAGATATTAACATATGCTCAGCAATCAAAAGAACAGTCTAAGATTGAAC
AAGATCGACTAGCAAGACGCATTCAAGAATTCAGGACCCAGTCTGAATTAGACAGCCAAC
AGCTGGTCGCTAATGCAGAGTCGTCTGGTGCTAACGGGAACCGTGTTGGTGGGAATATCC
CTTACAAAAATACCGAAACAAGTTTAACAGCAGACAAGGAAGTAAGCGTTTCTGATTTCA
TTCTTGCAAGAATTGCGAGCAATTCACGTTTTACCTTTTGGTTCCGTAGCTCTTAAATCT
GGCTTATTACTGTTTTTTACTACCTGCAACACAATTATTTTAAGCCACTCATTGTTGTAC
ATCTGTTGATACATTTTAGATTATGTCAATTTCCTGATAGCCCCTACAAAATTACTCCTA
GCATCTTGTGCGCCAATGCGATTATGCAACATATAGAGACTCGTTTTGTAATCATTTTAC
ACTTAGTTTTCAGAACAGGCTGAATTCTTATTGTTTTACAGAGTTCCTTTGTACTGATGC
AGGTAATTAAACAGGGGTATCTATTAAAGCGTTCGTCAAGTTTGAGAACTGATTGGAAAA
GAAAGTTTTTTGTCCTTGATAGTCATGGCTCCATGTACTATTACAGAACTAATGGTAATA
AATCAATGGTACGCGTGCAAACCTCTTTTTCCTGCCTCATTTCCATGAGAGACCTCCATT
AGTTCTTTCAAATTTGCGTTATAGTTCAACATGCCAATTGGTACAATTTCTTAAATCTCA
TTAATCGTTTCATAAGTCCTTCTTTTCCCCTGAAATGAATAATAGATTTGTTATGAAATA
ACGGGAAAATATATGTGAAGAAATAGATAAGTAAATGATGAGATTGCTGTATCAGCTTTC
AGATTTAACTCTGTGATATCTTGTGATAGGAAATTTCTAAAATTATAGTGGATTTTGATA
TAAGCCTATCAGGTCCAGGAATATTAAGCCTTTAATGAGTAGTTGCACGTAAAATTTACC
TGGCACTTCCTCATGCTGTTGTTTTTATCTATAGAAGTATAGATTCTGGAACTAACCATC
TATTTAGCAGTTTAGCAGATCCTTTATCTTTCTTTATATTTATAGTTTATGTTTGTTTAT
AATGGTTGACTTTATCTGCTATTCGTGTTCTCAGGGATCTCATCATCACTATAGTGGATC
ATCTGACCATAATACTGGAGTTTTTGGTCGATTTCGGGCAAGACATAATCGATCAGGTTC
GCTCACTGAGGGCAGCTTAGGCTATAATACTATTGATCTTCGCACTTCTTTGATAAAACT
AGACGCAGAAGACATGGATCTTCGTCTCTGTTTCAGAATTATTTCTCCTCAAAAAACTTA
CACACTTCAGGTACCCAGTTTACTCGCTATAGACTAGGTTGCAAGTCACCGGGCTTACTT
AGTCTGAATTTTTCCTGTTGGGTTTTTCCAAATTCATTATATGAAAAAGAGAGCTGTGCC
TTGTAGACAACCTGCATGGACCCTCTTAGCAATTGATACTTAAGTATCTCTATACTAATT
CCTTCTTCCCCTGATCCAAGTACTTCAGAATGCTGACAACAATTATGCTACCTTACCAGG
CTGAAAATGGAGCAGATAGGATGGACTGGGTAAATAAGATCACAAAAGCTATAGGGACGC
TTCTCAATTCTCATTTTCTGCAACAGGTTGGTTGACACAATAAGCCTCTGGCTTTCAGTT
ACAAACTAAATTGATAGCAAAGCCTTATTAGTAATACATATCGTTTCTGCAGTCACCTGT
GCGATACTTGGATAAAGACAACTCCAGTTCTGCTCCTGCTAATGCTGTCGTCTCCGGGGA
TCAAATTCGACATAATGATTCAAGACAAAATATCGGGGATGATGTCTCAACAATACTCAG
AGGACTTCCGGGAAATAATGCATGTGCAGAGTGCAATGCTCCTGAGCCCGATTGGGCATC
GTTAAATCTTGGAGTTTTGTTGTGCATTCAATGCTCTGGTGTTCACAGGAATCTCGGGGT
TCATATATCCAAGGTATGAAGTATGAAATATTCTTGGAACAATTTTTTTAAACATCTTCC
CTTGAGATTTCTTGCTGTATGAGCTGGCTTGTCTTATACCACGTCGGTAAATTCTCTCTT
CGTCATCCAGAATTTGTAGAACTCAATGTGGTATTCTGAAGTTTCTTTGTAAAACTAACT
CCACCAACGTTTAAATTTTTTGCAAAAAAGTCAACATCACTGTAGTTATAACCTTTGGAG
GGTTCAAGTATCCGGATTAAGTTGGTTAATGGAATTTTCTTTGGTGTCAGTCCTATATCT
CTAAGCTGATTTCATAAATGTTGTACCCCACAAACTGCAGGTGAGGTCCCTCTCATTAGA
TGTGAAAGTGTGGGAGCCAACGATCTTGGACTTATTTAGAAATTTGGGTAATGTATACTG
TAATTCACTGTGGGAGGGACTACTTCACCTTGACGATGACTGGTATGATCTCTAAGGATA
AAACATTTGTTTTGTATTTTGAAGTATAGACCAATTATCATACACTCTATCTTCCAACAT
TCTCCTGTTTCATATATCATGCATGTAGCTGATGAGGTACATCGTGATAAACAGTGTGGC
TTTTTGCAGCGAAGACGGATCAGCATTGTCGCATGCTTCAGTTTCAAAACCATGTCCAGA
AGATTCCTTTAGTGTGAAGGAGAAATACATTCTAGGAAAGGTATGACATTAGTTGTTACT
TTCTAATGTCCAAGTTGTGAAATGTATCTTCACGGGGATGATTGATCATTTTACTCATTT
ATTGAACTAGATTATGCTTTGTGAAAAGGCAAAGATGTAAAAAGCAACTAATACTAAACC
TTGATTGATGTTTTGTGTTTGGGCCAGTACCTGGAGAAAGCATTAGTCATCAAGGATGAA
AGTGAAGCAAACCTTTCTGCTGCGAGTAGAATATGGGAAGCTGTTCAAAGCAGAAACATA
CGAGAAATCTATCGACTTATAGTTACTACTGGGGATGTAAATATCATCAATACCAAGTTT
GATGATATAACTGATATCGATGCATATCACCATATTGATGCAGCAGAGAAAGCAGTAAAG
AAAAGACATGATCCAACTGTATGTCAGAGAATTAAAGAATCCAACGAACCAAGAAGCTGT
CTTCAAGGATGCTCCTTGCTCCATGTGGCTTGTCACATTGGTGACTCTGTCTTGCTTGAA
TTGTTGTTGCAGTTTGGTGCTGACCTAAACATAAGAGATTATCACGGAAGGACTCCGTTG
CACCATTGCATATCATCAGGGAACCACAAATTTGCAAAGATTCTACTGCGAAGGTATATT
TTAACTCTTAAGAAACGCACTCTTAATGAATGTTAGGACTCAAACTAAAACCTCCTAGCT
CCACTTCCCCTTGATTCCATGACTCTGTTTCTTTGGTAGCTTGGCTCTTCCATTGCATTT
TTCTTGAATTAGTCGTTGGTAGTTTTGGCTCATAATGCGGTTGTATTTATATTTTCTTAA
ATTGTTTTTGAAAACGCAGAGGAGCACGTCCGTCGATAGAGGACGATGGAGGGCTAAGCG
TTCTAGAAAGAGCGATGGAAATGGGAGCGATAACTGATGAAGAGCTCTTTCTTCTCTTAG
CCGAGTGCGCATAAACCTTCACTGCACACCGACATGCACAGCTTCTTTAGAAACACCTTT
GGAAGACCCTAAAACGCAAAACAAGGAGGTGGTACAAGCTACTAGATTCCGTAAAGGCAT
GATGAAACAGCCTTTTGAGTCGTTGTTTGTCAATGTACAAGGGATATGATTTTACTGACC
TACAGTTTATCTCTACTCACTTTTCAAGTTTCGGAAGTTTTGATTTTTTTTTTTAAACTT
CACTTTTGCATTTACATTTGAGTTTTACATATGAAAAACAATTTCAATAAACATCATTCT
TAAATATAC
>AT2G31010.1 | protein kinase family protein
GTGACCTTCCTCTCTCTCTGTCCCTCGTCCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTC
CTCCTCCTTCCTCGATAGAGCCTTCTCCGATTATGCTCTGTGTCCTCATTGTTATCTCCG
GTACAATCATTTCTCTTCCCCGATCCTTTTCTATTCCACGAATTTCACATCTTTCGCATT
TGATCGTCTTTATATTTTATCTTGTTGATTCAATCATACGGATCTGCCGGAGTAAATGCC
GTTGCTCTCGGTCATTGAATTTGATATCTGTAATGTGGGTTTTTATTGGTTTTGGTGATT
ATGAGGTTTCATTAGTGCTCTCTTGTTAAAGTTTGCATTTTGGAGATTTGAGTTTGGCTC
TTTGATGTGAGAATGTACATTGAACTTTTTGTGTTGTTGAATGATGAATTGTACCTTTTG
TGCGGATTTTTTGAGGTTACTCTCTTGATATTAAATTCTGTGGGCCAATAACGAATTGAT
GACATAAAGTTGTTTTTACTACAGAGAACAGAACAGAGTCTTCTTATTTTGCTCATTTTA
ACCAATGTCAAACAAAAACCTCGTTTTAATCCATGTTACACTTTCAGCTAACTTCTCTGT
CTAACAAAGGTTAACATGTCTTTCTCTCATTTAGTGCAGAAACAAGAGCAGATGGGTCTA
ATTCTACACCAATCAAAGCTTTGTTCTCGATTTAGAAAGCCTCTTTTGGGGTAAAGAGAT
GGTGAGAAAATAAGTTATACAAATTATCTGGAAGATGGAAGAGAGACGAGATGATGAATC
AAGCCCTACACACCAGGGATCAGAACTTGCGGAAAGGGTGAAGTTGCTTTCTTTTGAATC
TCAAGGTGAAGCTTTGAGTAAGGACTCCCCTAGAAGTGTTGAACAGGATTGCTCTCCAGG
TCAAAGAGCATCACAGCATCTTTGGGATACTGGAATACTCTCTGAACCTATTCCTAATGG
TTTCTACTCAGTTGTTCCGGTGAGCTTTTCAGATTTTTTTTATTTCTTTGTCATTTGGTT
AGTAGGAAGATGCAGTTTCTGAAATTTGAAATCTTGCTCCAGGATAAGAGAGTAAAGGAG
CTATATAATAGACTACCTACTCCGAGTGAGCTTCATGCTTTGGGAGAGGAAGGTGTCAGA
ATTGAAGTTATTCTTGTTGATTTTCAAAAAGATAAGAAGCTCGCAATGCTTAAACAGTTG
ATCACTACACTTGTCAGCGGCAGCGGCACAAATCCTGCTTTGGTGATTAAGAAAATAGCA
GGAACGGTAGGATTTCTGTAATGACTCTTCCCTCTTTGTCACAGTTCCGCATTGCATATT
CTCCTAGCTCGACATTTATTTCTTTAACCGCGTCCATTGTTATGTTCTATTGCACTCTCT
GCCAGTGACTTACTCTATTACCTCAATTTCGGTTCTTAAAAAAAAGAAACGGGAGTTGAT
GTCCTCATGCAATCTTTTCAGCACTGACTTGTCCTATACTCACAAAATTCATTCTCCTCA
AACAGGTCTCTGACTTTTACAAACGTCCAACACTAGAAAGCCCTTCAAAACTTGCTCTAG
AGGAAAATGCGTTCTTGTTTGAAAACCATGGTGCTCAGTTGCTTGGCCAGATTAAGCGTG
GTTGCTGTCGAGCTCGGGCAATTTTGTTCAAAGTTCTAGCTGATACTGTAGGACTTGAAA
GTCGGCTGGTGGTGGTAAGCCTCAGTTTCTCATATTTCAATTTTTTTCTTTACCTACATT
TATGATCTAGATGATTGGATCTTATGCTATTTGTCTCTTACAAATCAACTTGGTTTCCCT
TTTGATTCACATGTGCAGGGTTTGCCTAGTGATGGGACTGTGAATTGCATGGACTCTAAC
AAACACATGTCTGTTATAGTTGTGCTGAATTCCGTTGAACTACTAGTCGATCTTATTCGG
TTTCCTGGTCAGTTGGTACCGCGATCAGCCAAGGCAATTTTCATGTCACACATCTCGCCT
GCTGGAGAGAGTGATTCTGCAGAAAACGACTCTTGTGACTCACCTTTGGAGCCAAATAGT
CCTTTATATGAGAGAAGAGATCCTGAGAGGTCGGCTTCCGTTGTGTGATTTTTCTTTCTA
AAGCATATTACAGTAAGATCATTCTAAAACAACTCTTGTGATAAGCGTCCCCTAGAGTGA
TATCGTTTCCTCTGCTACAGTACAGAAAAAGATGAAAATCTTCAATTTTATCGGAAGTTA
GAAGGATATCCAAATGCATCTGGTTCATCACTGCGTAGTTTGATGCTCAGACCTTCTACA
GCTATTGAAAGGAAATTGAGGTAAATATTACATATATATTTCTGACAAGTTGTATAATGG
AATCAGTACAATGATTGGTATAATAGAAATGTGCTTTTCTTCCTTCAGCAACACCTCGCA
TAGTGAACCAAATGTTGCTACTGTATTCTGGAGGCGTAGCCGCAGAAAAGTAATTGCTGA
ACAGAGAACAGCTAGCTCAAGGTTTTTCCGTACCCTTTCTGGCTTGTATTATAGTTAATG
AAAAAGAAAATAATACATTGGCACGACCTCTTGTTGTCTTTAGATACAGTAATGAGATGG
AACATATAAAATTATGTTTCTCTTCTTTTTGCTGATTCTATATTTAAATCTCTTGATTAG
CGATTCTGTTATCTGAAGTGTGCCTTTCAAGAGCTACCCTTTTTTTCTCTATACCTAACT
GATGATAGTTGGCCATTTGTTACATTTGCAGCCCAGAACACCCATCTATGCGACGTGGAC
GATCAATGTTGAGCACTGGTAGGAATTCTTTTAGGGATTACACTGGTGAAGCATCATCTC
CTTCAAGGTAACTCATTTTTACATTAGTGCATGCGAAAATTTTCAGTATGCCGCTCCTAT
CATATACATTCCAGTATTAGTTAAGTTGCTTATACAAGTCTGCATGTATATATTTGATTG
GCTGTGCAAGCAATTTTTTAATATTCTCTAGCTTTCAAACAGTTCATCCACATCAGAAAT
TCGTAAAACTAGACGGCGAAGTTTTAGGATCACACCAGAAATTGGCGATGACATTGCAAG
GTTGGTATTCTCATCCATGTGCATTGTTTCTACTTTCATCGTTTAGCAGTTTTTTTCTAT
CATTTTCACCTTGCATTTAAAGAGCTCTATATTGGAGTTTATTCTGTAAATCTAGTTGGT
AAGGTATTTTTAAAATCTACAATCATCTGAGCAGCTGCTAGATCACATGAAAGTATGGCA
TGAGTCATCTCGAATGCAAAACTGCTATCTCCAAACTTCTAGATGCTTAGGTTAGGTGTC
TGTAAGATGGTTATATGATAAACATGGAACTATATATTTACTTTGATAGTCATAGAAGCT
GTAAGCCATTTGATGGTACTCCTTTTAATTTTGTAATAATGATACTGAGATTCGTGAGAA
CTAATTAAGAACAGTGATTTTGTGATTTGCTTGTGTATTGACTCTGATGTTACAAATTAT
TGAAGCGCTGTACGAGAAATGTATGAGAAATCAAAGCAAAACCGTCTCTTGCAGGGTCGA
GAGGATGAAAACAGCTCAGTTATCGATAACAACGTAAGTTTTGGCTCTGTTAGTAAGAGT
GATTGTTTTGTTGTGTTAGTTCCTTTCTCATTGTATAACCAGTCTAAAAGTTCTGAGTTT
CTTCTGAAGTTCACTGCTCTATTAGCTCTTACCTCTAAATTTCTTGTGATTTTTGTTTGT
GCTTTCTCAGGTGTCTGGTCTCCATCTTGATGATGAGTTAAATTCTAAGAAGACAATGTC
ATTGCCCTCATCTCCCCATGCTTACAGGTGTCAAACATTTGGACGAAGAGGGCCTTCAGA
ATTTGCCGTGAAGGATACATGGAATAAAGTGGTTGAGTCTTCCACATTGCAGAATCAGCC
TTTATTACCCTATCAAGAATGGGACATTGACTTCTCAGAGCTGACTGTTGGAACTCGGGT
GGGGATTGGTAAGCTGCTCTAAATTTACTACTCGGTGCAAATCTTCTTTTAATCACGGAC
GCATGATCCTTCTGAGACCTTACTATAGATAAATGAGCTATGAGGCTTATTTAGTATGCC
ATATCGAACGTCTTTTGCAAATTCAAGAACGTCTCTGTTATGTTGATATTCTGTTTTTCC
ATGTTGACTAAACTCAAAACTTTTATGTAAAGATACATTGGCTTATATTTTGTATCTAGG
TTTTTTTGGTGAAGTTTTTCGTGGAGTATGGAATGGGACAGATGTTGCAATCAAATTGTT
TCTGGAGCAAGATCTTACTGCCGAAAACATGGAAGATTTCTGCAATGAGATATCAATTCT
CAGGTATCTTGTTACCAAATTCTTGGTCATTCTTAGATCATACCTGTGTACCTCTACTAA
TGGTTTTGCATGTTTCCTCGGGCATCTGCGGTTCTCTCTTCAGCCGTGTTCGCCACCCAA
ATGGTAATTTTCTTTTTTTTCTCTCGCCTTTTCTCTTGTCATTTTTATCAAGTAATTTGC
GGAGACATGTCTGATATTGTTATCTTTATTTACTTTTGTCAGATAATTCGTGACTTGTAA
TCTATGTATTTGCAGTTGTACTATTTTTGGGTGCATGCACAAAACCTCCACGCTTATCCA
TGATCACGGAGTACATGGAGCTGGGATCGTTGTATTATTTGATCCACATGAGTGGTCAGA
AGAAGAAACTTAGCTGGCACAGAAGGCTCAGGATGCTTAGAGACATCTGCAGGTATTTAA
GCTACCCTGCATAGCTCCCTTGATTATATGTTTTAAGCTACATATGCTTATCTCATGCTG
TTTTGTATTTCTTATGGGATGCATAAGGGGTTTGATGTGCATACACCGGATGAAGATAGT
CCACCGCGACCTAAAGAGTGCCAACTGTCTAGTGGACAAACATTGGACAGTCAAGATCTG
TGATTTTGGGCTGTCAAGAATAATGACTGATGAAAACATGAAGGACACTTCATCTGCTGG
GACACCAGAGTGGATGGCTCCAGAGCTCATTCGCAACAGGCCTTTTACAGAGAAATGTGA
TATCTTTAGTCTTGGGGTCATAATGTGGGAACTTTCAACTTTACGTAAACCATGGGAAGG
AGTTCCACCTGAGAAGGTATAATATGCTGTGCCATGATTTCTCTAGAGATGTGATATCTT
TAGTCTTGTGATTACACTTAATGAAATTTGCTTCTTAGGTTGTCTTTGCTGTTGCACATG
AAGGGTCACGTTTGGAGATTCCTGATGGTCCACTCAGCAAACTAATTGCAGGTTTAGTGT
TGTTGAATACCATGTTTCTTGAACTTTTTTGTTTATTCTCTTATATTTCTCAACTGCTTC
AGTCTGAGTTAAAGTTAACCACAATTTCTGTGCAGATTGTTGGGCAGAGCCTGAAGAACG
CCCAAATTGTGAAGAGATACTTAGAGGCTTACTCGATTGTGAGTACACACTGTGCTAACA
ACACTTCTCTTTCGGGGGGATATGAGCCGGAAGATGTTTTAGCTCAGAAAACATCCCAGC
TTCTTTTAAATCTCGGCTCTTAAATTATCAACCTGAGTGGCATAATTTTTTAAGATCATG
AGAACTTAGAGGCTATAATGAGACAAGTTCATAGTTCAGTTTTGATAGCTGTGGAACAGG
CAGAGACACCAAATGTAGGATACAAACAAGCATGTCTATTAAGCTGCCACTGGTGTGATT
CATGTTCTCACAGGCAATACTTCTTTTGTTGGCTATTGAAGAGCATTTTGGTCTATCTTA
AGAAAATATATAATACACACTATTCTTTGTTGGGAGAATAAATAGCTCTTCGATTTCTCT
TGTCTTCATGACTTCATCCATTATTCTCTTGTGTCTAGCCACTTTCTTTCTTCTTTTCTT
TCGTGTCAAGCATTCGATAATCCGACTTTATTTATAGACTCATATCATATCCCAATTAAA
TTTT