>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