>AT4G38890.1 |  dihydrouridine synthase family protein 
ATGTCAGATGTAATAGCGGAGCACGCGGTGGATACTAGTGTTGAAGGAGATGCAAAGGCT 
GCGTTACCGGTTCAATCGACGAAACAGTTCTCTGTGTATGAAGCGACTTCGGAAGAGCTT 
ATAGAACGATCAATGGCTCCTATTAAGAAGGAGTTCCTTTGTCCTCCTCCTCCAAGCCGT 
TCCGTGAAGCAAAATGATGCCGCCGATGTTAGGGCGCCTCAATCGGGTTTGGTTCAGGAG 
AAGAAATCTAAACGACAACTGAAACGGGAACGCCGCGAGGTATTGATTCGAATCACATCG 
GTGCTTGTATGTATAGCTTCGAATCTATCTATGTTTTAAGAACTAGTTTTTTTGGCAACT 
GAAACCATTGGATATGAGAGAGAGTTTAGAACAGGAGGGATTAATTTATGCTCTTTCTTC 
TTGCAGCAATCTACGATCAATCTCTGTCCGCAGGTTGCGAGAACAGAAGACGTTGATTCA 
TGTCAGTATAAAGACAAGTGCCGGTTTAATCATGATATTGAGGCTTTCAAGGCTCAGGTA 
CTCACTCACTTTTTTGCATTTTACTGTTGCTTATTTGGTTCATGAATTGGGTGTATTGAA 
TATAGTATAATTTTGTGGTATTGATTGGAACTAGTTTGGATGATATTGAGAAAGAAGTTA 
ACTGACAATATTTTTTTTCTGTTGTAAATGCAGAAGGCAGATGATATAGAGGGGCAATGC 
CCATTTGTGGCCTCTGGAATGAAGTGTGCATATGGTTTATCATGTAGATTCTTAGGCAGT 
CACAGAGATATTACTGGTAATTCAGATGACAAGGAAAAATCAGAGATGAACTTTTTTAAC 
AAAGAGACACAGAGGCTTCTGTGGAAAAATAAGATGACTTTTACAAACGCAGATGCGAAA 
CTTAAGTCCCTCGGTCTGTTGGTATGTCTTACAGAGTGTTATTTTGTTTTTGTTTTCATG 
ATTTTTGTTTGTTTCCTAGTTCTCTGGCTTGTCATATACTGCTTCATTCCCATATCTCTT 
ACCATGAGACCTGACTGGTTTTTCTTTTTATTTTCATAAAATTTCTAGGGACATGCCAAA 
AAAAGCAATGCTGCCGAGGAAATTACCGCAGAAAAAACTCAAAATGGTATGAACGGCACT 
CAAGCAACTGAAGTAGCGGTTGACTCAGCTGTCAGTTCTGAGCATACATCAGAAATGATA 
CAAGATGTTGATATTCCTGGACCATTAGAAACTGAGGAAGTTCGTCCCATGAAAAAGGCA 
AAATCTGAGGACCAAAAGAATTCTAAAACTGGAGATGTTGGTGGAGTTTATGATGGTTAG 
ACTTACTTTTCTACATTTCCAAATGCCAATTAACTTTTGCTAGATAATCTCAGATAGTTG 
CATGGTTTGAATACTTATAATTACTGTGTGTAGCTATATCTCTTAGCTATGTATTAAAGA 
GAAAAAGTTGACGTAAGAAGGGTGTGAGGCAAGAAAATATCCTAATGTTCCAGTTAATTG 
TATTGATACAGGCGTGAAATTGGAAGAGGAAACGAAAAAGAATGGGTATCCTACTTCAAA 
AGCTAACGTAGAAGATGAGGATAGCATCAAAATTGTTGAAACTGATAGTAGTCTAAAGTT 
GCACCCTCGAGAAAAGAAAAAGCTAATTGATTTTAGGGATAAGTTGTACCTTGCACCCTT 
AACAACCGTGGGCAATCTTCCCTTCCGAAGACTTTGTAAAGTGTTGGGAGCAGATGTGAC 
TTGTGGTGAGATGGCTATGTGCACAAATCTTTTGCAGGTTAGGCCACTAATTACACTCAC 
AGCTATGCTGCAAGAATGATTAAACCTTTTCTTTGTCATAATGTGAAAACCTGCAAAATG 
ATTTGTTATAGGGCCAAGCTTCTGAATGGGCTCTGCTTAGACGACATTCATCGGAAGATC 
TGTTTGGTGTTCAGATTTGCGGTTCTTATCCTGACACGGTGTCGCGCGTAGTTGAACTTA 
TAGACCGAGAATGCACTGTTGATTTCATAGATATCAACATGGGTTGCCCGATAGATATGG 
TTGTCAACAAAAGTGCTGGTTCAGCTCTTCTCAACAAACCATTACGGATGAAGAACATCG 
TGGAAGTCTCTTCTTCCATTGTTGAAACACCTATCACTATCAAGGTAACTGCCTAAGCAA 
ATCTGTAACTAAATCGCCTTCCATATGAAACTGCATCATAATTGGATGCAAATGTGTTGG 
TATTATAACCAGTCTTTACTTCTCCGGTCCTTTTTGGTGCCAGGTACGAACAGCATTCTT 
TGAGGGTAAGAACCGGATAGATTCTTTAATTGCAGATATCGGAAACTGGGGAGCCACTGC 
AGTGACTATTCATGGGCGGTCAAGACAGCAACGTTATAGCAAGTCTGCAGATTGGGACTA 
TATATACCAGTGTACCAAAAACGCTACTACTAACCTACAGGTTATAGGAAATGGAGATGT 
GTACTCATATTTAGACTGGAACAAACACAAGTCTGACTGTCCTGAGTTGTCTAGCTGCAT 
GATTGCTCGTGGAGCACTGATCAAGGTGTGTGTATGACCAAAAAATATCAGCATTTTCCT 
AGCAAATCATTTTATAGCCTCAATGGACTTTTGACTTGTGCAGCCTTGGATCTTTACTGA 
AATTAAAGAGCAACGGCATTGGGACATTACCTCTGGAGAAAGACTTAACATCATGAAGGA 
CTTCGTACGTTTTGGTCTTCAACATTGGGGATCCGACACGAAAGGTAAAAAACACGCAGC 
ATGAAATTGAATTTATGTTTTTTTGGTTTGCTCTTTCTCTCGTGGCTAAAGTTCTGCCTT 
TTCTTAACCTTTTCAACAGGAGTTGAGACAACTAGGCATTTCTTGCTGGAGTGGCTAAGC 
TACACATTTAGGTACATACCTGTCGGTTTGCTTGATGTGATCCCGCAGCAAATCAACTGG 
CGTCCGCCTTCATACTTTGGTCGTGATGATCTCGAGACACTCATGATGTCTGAATCTGCG 
GGTGACTGGGTGCGTTTGTTATATCCTTCTCCTTCATTCCACCTTACTTTGGACTATATA 
AGCTTAAGTTTGCTATAATGTTACTATTTGCAGGTGCGGATATCGGAAATGCTGCTTGGA 
AAGGTTCCGGAGGGCTTCACATTTGCCCCCAAGCACAAATCCAACGCATATGACAGAGCT 
GAAAACGGCTGATTCAACCACATTTTCTGTAATATCAAATCTCATTTTAAAACATGTCTG 
AAACGTCATTCTGTAATATTTTTTGACTGATTAAATAAAAGACAATGCGATGATTTCTTT 
G
>AT2G33210.1 |  HSP60-2 (HEAT SHOCK PROTEIN 60-2) ATP binding 
GGAGAAAACGTAAAACCCTAAACCCTACTGCTTATAGAATCTTCGACGATCTGCTTCATT 
TCTCCTCATCTACGAGTGAGAGAATTTGTCAATTTAGCTTCTTTAGTTCGGTCTGATCTG 
AATTAATTGCAATCTTCTCGGTTGTGTGAGAGAATCAATCACCATGTATCGGCTTGTCTC 
CAACGTTGCTTCCAAAGCTAGGTAGATCTATTCGACTTTTTGGTTTTCTTTGTGTATATG 
ATTCCAATGCTGCTTTATTTTCTGTGAATTTGTTTCTGATTGGATCCTCGAAATCGGAAA 
GTTGCGAGAAACTGTTGGGAATTGAATCGGATTTTGATCGGATTGAATTGAATATTTCTC 
TGCCATTGGAGAGTTTAGCATCTTCTATTTTCTTTGTATTTCTGGAAGTTGCTTCATTTA 
TTGATGGGATTTATTTTTCTTTGTTTCAACAGGATTGCCAGAAAGTGTACAAGCCAGGTT 
CGTGTTCTTCATTTTGTATCTAATTTGTGGTTTAGCCGTTTGTGGGTATGTATTGATGTG 
AATTTGTGTATTGTTAGATTGGAAGCAGGCTCAATTCTACTAGGAATTATGCAGCAAAAG 
ACATAAGGTTCGGTGTTGAAGCTCGGGCTTTAATGCTTAGGGGTGTTGAGGATCTTGCTG 
ATGCAGTTAAAGTCACTATGGGACCCAAGGTATAAACTTATGTTTCAGATAATTTCTGTG 
TAAGAGACTTGTATTGTAAGTGAATCTAGTTAAAAATAGATAACGTGACGACCTATTGAC 
AAGTATCAACAATCGTCTGTTTTGTTACCCTCACACTCTCTGATACTACATGTCTAAAAC 
CATTTTTGAAGGGTCGTAATGTCATCATCGAACAAAGCTGGGGTGCACCAAAGGTGACAA 
AGGATGGTGTGACTGTTGCCAAGAGCATTGAGTTCAAGGATAGAATTAAGAACGTTGGTG 
CCAGTCTTGTGAAACAGGTTGCTAACGCCACAAATGACGTAGCTGGTGATGGTAAGTGTT 
CCCTTTCAATGGATTAAAACGTTTTTTCTGTTTTTGCTAATTGGGTTGTTAGTCTCCTAT 
CTACTCATATTAATCGGTGTTTTTGTATCTGACAAAATATATGGTATGCGTTACAGGAAC 
AACGTGTGCCACAGTCCTTACTAGAGCTATCTTCACGGAAGGTTGTAAATCAGTTGCCGC 
TGGAATGAATGCAATGGACCTAAGACGTGGTATCAAATTGGCAGTTGATACTGTTGTGAC 
GAACTTGCAGAGCCGAGCACGCATGATTAGCACCTCTGAAGAAATCGCCCAAGTTGGAAC 
AATATCAGCTAATGGAGATAGGGAAATTGGTGAACTGATTGCAAAGGCTATGGAAACTGT 
CGGCAAAGAGGGAGTGATCACAATTCAAGTGAGTTGAATTTTATCCCTAAATGTCAAATT 
ATTTTGCTTATTCCTTAAGGTGACCAATGTTATCATCTCTTGATTCAGGATGGCAAGACC 
TTGTTTAATGAGCTGGAAGTTGTTGAGGGTATGAAGATTGACAGGGGATACATCTCCCCG 
TACTTCATAACTAACCCGAAAACACAAAAATGTGTAAGGATTCCCACCTTGTTACTTTAT 
CAATTTAAGGAATTGCGGATTTAATTTGCTCTGAATGAATATGTGTTGCAGGAACTAGAA 
GATCCTCTCATTCTTATCCACGAGAAGAAAATTTCCAATATAAACGCAATGGTGAAAGTA 
TTAGAACTGGCCCTCAAGGTATAAACAATTTGGCGATTTCTTCACTGTCAATAGTGTCTG 
ATATTCATTAAGTTACTTTGATCTGAAGATCGAAATTTATTTTCACTGCCATTTTTCAGA 
AGCAAAGGCCGCTGCTGATCGTTGCTGAGGATGTGGAGAGCGATGCTCTTGCCACCCTAA 
TTCTGAACAAACTTCGTGCTAATATCAAGGTTTTTCTTTTCAGCCTTTTGTTATTTGCCT 
TTTCCTTACAACGTCTTAGTAAAAAATTAATTTGATTGGATTGATGTACATGGTATTGCT 
TTATAGGTCTGTGCTGTGAAGGCCCCTGGTTTTGGAGAGAACCGAAAGGCCAATTTACAT 
GATCTAGCTGCCCTCACTGGAGCCCAGGCATGCCCATGTTTCTTTTTATAATAACTGCCA 
AGACCATCACACCCACACTAATCGGATGAGCCATAATGTGTCTTTGGTGATTTCACTTTG 
TAGGTAATAACAGAAGAGTTGGGTATGAATCTAGACAACATTGACCTCAGTATGTTTGGA 
AACTGCAAGAAGGTTCGTTTGGTCCAATTCCTTCTGCTTTCTCTCTTTCTCCCTTGTACC 
TTCTGATAACTTGGTTTTCATTTGTTAACAGGTAACGGTATCCAAAGATGATACTGTTGT 
TCTCGATGGGGCTGGTGACAAGCAAGCAATTGGGGAACGATGTGAACAGGTTAGCGTGTT 
TTTCGCTTTTTTATCATTTAGTGGTTCAGTGTCATATACCTTTGCCCTTTTTTCCAACTG 
GTAGTTTTAATATGTTTTGAATTTTTATTAAACCACGCAGATACGATCCATGGTTGAAGC 
AAGCACTTCTGATTATGACAAGGAGAAGTTGCAAGAAAGGTTGGCTAAGCTTTCGGGTGG 
TGTTGCTGTACTAAAGGTAATGTACACCTCTTGTGAACATCAGACTAATAGGCTATTAAT 
GCATTATTAGTTTATTACTAATGTCGAGATTACTCATATGGGTTTTTAGATTGGAGGAGC 
AAGTGAGACAGAAGTTAGTGAAAAGAAAGATAGAGTAACGGATGCTCTAAATGCCACTAA 
AGCAGCCGTAGAGGAGGGTATTGTTCCAGGTATAATCTATCCCAAATCTAAAACAAAATT 
TGGTTGAATCCCTTAAGAAAATTGCGTGAGAAGAGAATTATATTACTTTGTGTGTATTAC 
AGGTGGTGGTGTTGCTCTTTTGTATGCTTCGAAAGAACTTGAGAAGCTTTCCACAGCTAA 
CTTTGATCAGAAAATTGGTGTTCAAATCATTCAAAACGCACTCAAGGTGTTTCTCTCATC 
ACATTGTTCATCCTCGCTAGCATAAACAGCTTCTAGAATCTTACACACAAAATCTTTCTT 
TGATGCAGACACCTGTTTACACGATTGCTTCCAATGCTGGAGTCGAGGGTGCAGTTGTCG 
TAGGCAAGCTTTTGGAACAAGATAATCCTGACCTTGGTTATGATGCTGCTAAAGGTTACA 
CTCTTATATGCATTAGATAATTCACTTTCTATAGTTCTTGATCCACCTTGTTATATATTT 
CCCTATATTCCGAAATCTGAACTAGCTTCTTTTGGCATTTACTTTCAGGAGAATATGTGG 
ACATGATAAAGGCTGGTATTATCGATCCTTTGAAAGTGATCAGAACCGCATTAGTTGATG 
CTGCAAGGTACACAAAGATTGAAAATTGGTTGTCCAATTTTGTATTTTATTGCAATGTTT 
TGCTAATTTATTCTATTGGTTAGTGTTTCGTCTTTGTTGACAACGACGGAAGCAGTTGTG 
ACTGAGATTCCAACGAAAGAGGTAGCATCTCCGGGTATGGGCGGTGGTGGCATGGGCGGC 
ATGGGTGGCATGGGCGGTATGGGAGGAATGGGTTTCTGAGGAGAACTATAAACCCTGAGT 
AGGGTTCTTTGGAATCTGTTGTGAGAGATGCTACGGTTGGTTCATCCACAAGACACTAAT 
GTATTCTTTAATCATGATTGGTAGAGAGAGACCTTCAGATTTTCCGTGATTTTCAATTCA 
CAAACGATTTATAAACTATTTTGAAGAAGATCCTTTTCCGATTCA
>AT4G26900.1 |  AT-HF (HIS HF) imidazoleglycerol-phosphate synthase 
AATTAACAATCGAAGCAGTGACTGAGTTTGATATCAATGGAGGCTACGGCGGCGCCATTC 
TCTTCAATTGTCTCTTCCAGACAAAACTTCTCTTCATCTTCTTCGATTCGCGCTTCTTCT 
CCGGCTTCTTTATTCCTCTCCCAGAAGAGTATTGGCAATGTTAATCGCAAATTCAAATCT 
CCCAGAAGCCTCTCCGTCCGCGCATCTTCTACCTCAGATTCTGGTACTTTCTATTGTTTT 
TCTGTTGCCCTGTTGTACTATATTTGATTAGTCTTATTTATTGCTGAATCTTTCTTCTGT 
CTCTTTGGTGAGTAGTTGTGACTTTGCTTGACTACGGAGCTGGAAATGTTCGGAGCATCC 
GCAATGCTCTTCGTCATCTCGGCTTCAGCATCAAAGACGTATGTTTTCGAATCTAAGTTT 
ATTCCTTGTATATGTACTGATCTCTTATTGGCAAAATGAAATTGATTACATTTGGGAACT 
TGAAATGTTAGGTTCAAACGCCGGGAGACATTCTGAATGCTGATCGACTCATATTTCCAG 
GCGTTGGTGCTTTTGCACCCGCCATGGATGTACTTAACAGAACTGGGTACTTACTAATCA 
CCTCTGCTGATTTTCTCATTTAGAATAATGTCTTACTTAGTTCTTAATATACGATTTTTG 
GTTCTTTGATTGTTGCAGGATGGCTGAAGCTTTGTGCAAATATATTGAGAATGACCGTCC 
ATTTCTAGGCATATGTCTTGGTCTACAACTACTTTTCGATTCTAGTGAAGAGAATGGACC 
AGGTTTAGCTCCGTTGCTCCACTTTATATTATGTCTTCTAGAATTTTTCCCTCGATACAT 
TCAACTACATTATGATATCATGTATTTTTGTACTTAACAACTGTATATGTGACAGTCAAA 
GGTCTTGGTGTGATACCGGGAATAGTTGGACGCTTTGATGCTTCAGCTGGTATAAGAGTA 
CCCCACATTGGCTGGAATGCTTTGCAAGTTGGGAAGGATTCTGAAATTTTGGATGATGTT 
GGAAACCGTCATGTCTATTTTGTTCATTCGTACAGGGCCATTCCAGTATGGATCTAAATA 
ATCTCTTCTTTCTTTCTGTCATTTTCGTATCTCTACCATATTGTATTCTCTTCTACATGC 
ATGTGATAATTATAGTTTCATAATTTCTATAGTCAGATGAAAATAAGGACTGGATTTCGT 
CTACCTGTAATTATGGTGAATCATTTATATCTTCCATAAGAAGGGGAAATGTGCATGCAG 
TTCAATTCCATCCTGAAAAGAGCGGGGGTATGATAGTCTAGTCATTTTCTGGTGACATCT 
TTTTTCTCTTATTCAGAGTCTGTTTTCATATTTGGTATCGTACTAATTCTGAATATGGAA 
CATTCAGAGGTGGGGCTTTCTGTTTTAAGAAGGTTCTTGCATCCAAAATTACCTGCAACA 
CAGGTAGATTTCACTCTAGCCATACATGTACAATGTAATTCCTGATTTTTTTGGTGTCTA 
ATGGAAACCACAATTCACTTGAAGACAGAAGCCAATGGAAGGAAAGGCCTCAAAACTTGC 
AAAGAGGGTAAGAAGTTTGTCCTGTTATTATTGAAAGTCTGCCTCCTTTGCAACATTGCT 
ATCTTTGCTCTTAACTATTCTGGTAGGCAGTTTTTCTAATGATATTTTGTTTTCCTTTAG 
GTGATTGCTTGTCTTGATGTGAGGACGAATGATAAAGGAGATCTCGTAGTTACTAAAGGG 
GATCAGTATGATGTGAGAGAGCAATCTAATGAAAACGAGGTTTGTTGAAAATTGTTGCTT 
CAATGTCATATCCTGCGATGTGTTCTTTGTGAAAAATGAAACATTCTTGATATTTGGATG 
TTTTTGTGATACGTCCTTATCTTACCTTTAAGCTGTTGGGTTTAGCTAATTATTAACGTC 
TGTAACAATGCTCTGAATTCATTCCTTTTTCTTGCACAGGTTCGAAACCTTGGCAAACCT 
GTTGATTTGGCTGGGCAGTATTACAAAGATGGTGCAGATGAGGTATACTTTTACTGTATA 
TGATCTCCTTGCAATATTATGTGAATGGCTCCAAGACACCTTTTTTAGATTTGGTTTGGC 
GCTTTACCGTGCTGTTTGTGGGTTTTCAGATTAGCTTTTTAAACATAACTGGATTCCGCG 
ATTTTCCTCTAGGGGATTTGCCGATGATTCAGGTACCTAGATTTTTCATTCTCAGTAGAA 
TATAAGTATTACTTCCACACCTTCCCTGTAATTTCCGATTTAGATCTCTTTTCATACTTT 
ATAGGTGTTGAGGCAGACATCAAAGAATGTCTTTGTACCACTAACTGTTGGAGGTGGTAT 
TAGAGACTTTACAGATGCTAGTGGCAGGTACATGTTAATCTTTTCAGCCTGTTTCTGTGA 
ACATGTCTGTGCAGGCATTATGTTCTTTTATATTTCAGCAAGGACTTTGCAATTTTTATT 
CCCTACAACAATTTAACATCAAGTTAATTTGGCTCAGGTACTATTCTAGCTTGGAAGTTG 
CTGCTGAGTATTTCAGATCCGGTGCTGATAAGATCTCCATAGGAAGTGACGCTGTTTCTG 
CTGCAGAGGAGTTCATAAAATCAGGGGTAAGTTTGTAGTTGCCCGTCTAATTTATCCGAG 
TTGTTTTTCATGCTAGTATCTAAAAACGGAAGGATCATTTTATCCCCATTTTCCGCGTTT 
TTGTAGGTGAAGACAGGAAAGAGTAGTTTAGAACAGATATCCAGAGTTTATGGAAATCAG 
GTAATTGCTTACAGATCAGAACAATTGGCTTTCTTTTTTCTTGCTTGCAGAAAATAAAGG 
GATACTAGTTGCTTTACATTAGGATATTAATATCTTAGTTTTACAGATGGAGTAAACAGT 
GAATTGACTGTGTTTAGATAGCTGTTTCTCATGTTCTCTAGTTTATGTAAGAAATAGGAA 
ACAGCTTTGCACTTATTTGATAGATTTTTTCGCTCCACAGGCAGTGGTTGTAAGTATTGA 
TCCTCGTAGAGTTTATGTGAACCATCCGGATGATGTGCCATACAAAGTCATCAGAGTAAC 
TAATCCAGGTATGCTGGTATTCTCACCTCTCTTATATTTGCTTTCTCATTTGTTCAAAGG 
AAAATTATGTAGGCTGGCTATATATCATGCATTAAATGGATTAATTTGAGCTTTCTAATA 
CATTAAAATTACAAGGCAAATGTTATTAACTTATTATTGCTATGTTAACTCAGAACTCTA 
TTTTCCTAACGGACATTATATAATTCATCTTGCGTCAATCTTAGTTTAGCTTTCGTTGAA 
AAGCCTTGAGCTGCTTGAACTACACAAGCAGCACAGTCACATTGTATAGAGTTTCTCCAT 
AAATTTGCATACATGTAATAACCGGGATGAAATCTTGCTGGTGTTAGGCCCAAATGGAGA 
AGAATATGCCTGGTATCAGTGCACGGTAAAATTTCGGCCACCCTTTTCATTTTAAGATCG 
ATTTGTATCATTTCTTAACTATTGGTTTCTCAACTAAAAGGTCAGTGGAGGACGAGAAGG 
TCGACCTATTGGAGCATTTGAGCTTGCGAAAGCGGTTGAAGAATTAGGTGCCGGTGAAAT 
ACTATTGAACTGCATAGACTGTGATGGTACACTCAAAACTTCAATCTTTGAATTAGTTTC 
ATGTCTGAAAATTTGGACCACCTTTACACACGATGAGAACTAAATATGATCCACGAAAAA 
CAAAAAAGCACACAACCACCTTTTAAACTACACTGCTGCTGGAGTTAAAGATCAATGTAT 
TATAAGTTTTTATCTCCTTATGATGCCTTCCTTCTCTGCGAGTTTCAGGTCAAGGGAAAG 
GATTCGACATAGACTTAGTAAAGCTCATCTCAGATTCAGTAGGCATACCGGTGATCGCAA 
GCAGTGGAGCAGGTACTCCCGACCACTTTTCCGAGGTGTTTGAGAAGACAAACGCATCTG 
CCGCGCTTGCTGCCGGCATTTTCCACCGGAAAGAGGTAACCGTTTTTACTCTTGTTAAAA 
CCTTTTGCGTTTATACCTGGTAACACTATTATTCTACTATTTTGTATAAAGGTACCAATC 
CAATCTGTGAAAGAGCACTTACAAGAGGAGCGCATAGAAGTCAGGATCTGAGAATTTTCT 
GGTCTGCGTGTTACCATAATTCATGACACATTCAACAAGATAGAATCTTTACCTTCAATA 
AATTAAATTAAGTCGGAACCATCGGAGCTCCAATAGGTCTGAGTGAATCCTCTTATAGTT 
GATTTCCTTTTGTTGACAGTAAGACTGATACAATTTATGGATTTCCCTTGAAAGTAAGAA 
AGCAACGTATGTTCACTTTCTCAGCTTTTCTATTTAATACAAAGAAAGCATGTAACTT
>AT3G48750.1 |  CDC2 (CELL DIVISION CONTROL 2) cyclin-dependent protein kinase/ kinase/ protein binding / protein kinase 
CCTTCCCTAGTCCTCCTCTCTTCAAGCTTTTCACAGAAAACCACCACCCTTCTCTCTCTA 
CTGCCTTTTTACCACAGAGAAGAGAGAGGATCCGTCGGTGTGCTAGTCTCACTGACACTA 
CATCCGATCGTCGCCGGTAAGTTGATTTCGTTACTCTCCGATCAATTTCTTTTCCGGAGG 
AGGAACTTGTTTTCCGTGCGAAATTCTGACTTGAACTTTGTTGTCAATTCATCAAACGCT 
TTATCTTTTCTCCATCTTCAATTATCTTACTGCTTCGTCGCTGATCTCTACTTGTTTTCC 
TCCGTTTTGCATTTTCAGTGGCGTTTCTTAGTGTTTCACTAGATTTAGACTGGTTTTGCT 
TGTGTGCATTTTGTCATCAGTGTTTATGATTGTTCGCTTTAGCTCTATGTTTCTATGGAT 
TTGATAATATATGAGTTCGCTGCTCTGGATTCAGCTGGCTTGTTTGATTGTTCATTTTCA 
TAATTCTGTCCAAAGAATCAAATCCACAGTAGCTCGGATCTGAGATTGATTTGTTTCTTT 
GCGTCTTTGTGTAGATTTGACTTTAATTTTGAGATTGTTGTGTGCTGATATACAGCTTAA 
TTAATATAGCCTCTGATGTGTTATTATCGATGTGTCATTATCAATCTACAGGTGACATTT 
TATAAGTGTGGAGTTTACTTCAGCTTTATTATTCAGGAATTGATGGATCAGGTTGGTGTA 
AATAGTTGTTTCAGTTCTTACTCTTTTGACGAGAGTCTCTGTTAATGTGCTCTTATTAAT 
GCAGTACGAGAAAGTTGAGAAGATTGGTGAAGGAACTTACGGTGTGGTTTATAAGGCACG 
TGACAAAGTGACTAATGAGACAATTGCTTTGAAGAAGATCAGGCTAGAGCAGGAGGATGA 
AGGTGTTCCTAGCACAGCAATCAGAGAAATCTCCCTCTTGAAAGAAATGCAGCACAGCAA 
CATTGTCAAGTATGATGTTAATACCATTGTTGAAAACTGATTCAGCATGATGACTCTGGT 
AAACAATTTTGATTGATGTTTTTTGCTACACAGATTGCAGGATGTGGTGCACAGCGAGAA 
ACGTTTGTATCTGGTTTTTGAGTATCTTGACTTGGATCTCAAAAAGCACATGGATTCTAC 
TCCTGATTTCTCCAAGGATCTACATATGATCAAAGTGAGTGCTAAGAAACTTTAGGCATT 
GTTTTATATATGTGCTTAAACTCAATACTCAATATAAGCTGATCAGAGCTGTTCATCCAC 
TATTTTCAGACATATCTTTACCAGATTCTCCGTGGAATTGCGTATTGCCACTCTCATAGG 
GTTCTCCATCGTGATCTGAAGCCACAGAATTTGTTGATTGATCGCCGCACAAACTCACTG 
AAGCTTGCTGATTTTGGACTGGCCAGAGCATTCGGTATCCCTGTCAGGACATTTACTCAT 
GAGGTACCAAAGAGCTTTATTCCTTGTTCATATGTTCCCGTTATGAAATCTTTTGGCTGG 
CTGCATTCCTTATGAGTGTAATGTAAATTAAGTATTATACCACTTATGTGTCTGATAAAT 
GTGATGAAAAGGACTAAGCCATTTCACATAGACGGTTGAAGTAAGCTAGTTCAAGATACT 
GTAAAATATTTCAATGCTACATCCAGATTTCAGATCTCTTCCTGGTTATTCACACAATTT 
TTGCATATTGTTCCTTTAGGTTGTTACTCTCTGGTACCGAGCACCAGAGATACTCCTAGG 
ATCTCATCATTACTCTACACCTGTTGATATTTGGTCTGTGGGGTGCATATTTGCTGAGAT 
GATCAGCCAAAAGCCCTTATTTCCTGGAGACTCCGAGATTGATCAACTCTTCAAGATTTT 
CAGGTTTAATTGCTAACTTCCCCAGTCCAATATTCCTCTATATATTACAAGTGCAAAGAC 
TTGTCTGCAATGATATCACAAGGGATTGTGGAAACATTTTCAACTTGATATCACATTTTG 
GAGAAGTAGTAAAGGACACAGAAATTGAATTGTTAACTGATTATAAATCTGTTACTGCCT 
TGTTTTGTTGTCTTCTTCTAGAATCATGGGAACTCCGTACGAGGATACATGGCGTGGGGT 
AACTTCTCTACCGGATTATAAATCTGCTTTCCCTAAATGGAAACCAACGGTACTTCAAAT 
GTCTTTATTCGCTTGTACATCTTGTCTTCAGTAGTCAAGAGTTCACAACATATATTAATT 
CTTGCCCTTGTTTTTTTTTCTTATACCACAGGACCTAGAAACTTTTGTCCCCAATCTAGA 
TCCCGATGGAGTCGATCTCCTTTCTGTAAGTTCACTGAGCTAGATATATACACACACATA 
TATAGACACACTACTTCTGCTATTAGAGACCTGTATGCTTGATTGTGATGGATCTGGTCT 
CATGTTTCTTACTAAAAACCTTTTAACCATTTGAGGTTTTAGATGTCTTATAAAGTCATC 
AAGAGCCGGCGTACTAAAACCAATTCGATTAGGCTTCATAGTTTCAAAACCACATGAAGC 
CAAAACCAAACTTGTTTGAAATATGAACAATCTTCAAAAACCAGGATTCTTGAAATTCCT 
AACCAAACCAGACATCTGGATAGAAATCTAAGATTTTGAGCTCCTGTGAAAGCAAAGATG 
ATAATATATCTCTCTGCTTGATTTGTTTCAGAAAATGCTGTTAATGGATCCGACCAAAAG 
AATCAACGCAAGAGCCGCCCTGGAGCATGAATACTTCAAGGATCTTGGAGGCATGCCTTA 
GAAAGGCATAAAACCAGTAATCTCCTTCATTCTATATATAATTATCAATCCTAAGAAAAT 
GAAGAACAATATTAATGGGTTTTGTTTATTCTTTTTCTGAGTTCGTTTCCTACTTATATT 
CTATTACGAAAAAAAAGAAAGAAGAAGATTTCGAGTGTGTTTTTTTTTACTTCTAAGCTT 
TTGAGATCAGTTTCTTGTATCTTATTTTACCCAGAATATAGTATTTCCCTATATGAAATA 
TGGTTTTTGTTTTGCAAAATGACCATATTATGCAACTTCTCAGCTTCTTGATTGTGCCTT 
GATAGTGATCTTTTGAAATATATCCCAAAAAACATCACTTTTTTCG
>AT5G52640.1 |  ATHSP901 (HEAT SHOCK PROTEIN 901) ATP binding / unfolded protein binding 
TCTATAAAATCACTTTGTTTTTTCCTCTCTTCTTCATAAATCAACAAAACAATCACAAAT 
CTCTCGAAACGCTCTCGAAGTTCCAAATTTTCTCTTAGCATTCTCTTTCGTTTCTCGTTT 
GCGTTGAATCAAAGTTCGTTGCGATGGCGGATGTTCAGATGGCTGATGCAGAGACTTTTG 
CTTTCCAAGCTGAGATTAACCAGCTTCTTAGCTTGATCATCAACACGTTCTACAGCAACA 
AAGAAATCTTCCTCCGTGAGCTCATCAGTAACTCTTCTGATGTAAGTTTCCCTTCAAATC 
TCTCTCTGCTCGGTGTGACTCGTCCGCTTCCTATTTTCTTGCATGTTGTTTGTTCTTTAA 
TTCCTGGATTCGTTGATAGCGTTGGATTCGTAGGTTTAGCGTTGTGATTGCTTATTCAAA 
TAAATCGTGATTTGGCTTGTGCATCACGTTAAGTTTAGAATTCTTAGCTTGTGCTCGATC 
TTCATGTGTTGTAGTTACATATATAGAACGGTTCTTGCTTCGATGTAGTCTTTGATTTAC 
CCTAGAGGATTGAGGAAAGCTTCTGATTATCTTTGTTTATATGAATGGTTTTGTAGGCTC 
TTGACAAGATCCGATTTGAGAGCTTAACGGATAAGAGCAAGCTCGATGGACAGCCTGAAC 
TCTTCATTAGATTGGTTCCTGACAAGTCTAATAAGACGCTCTCAATTATTGACAGTGGTA 
TTGGCATGACCAAAGCAGGTAACGAATCAATGCCTAATAATCTCTCGTTGGTGAGATGTT 
TTAGTGTATGTGCTGTGGTTATGACTCTCTATTATTTTTTCAGATTTGGTGAACAACTTG 
GGAACCATTGCGAGGTCTGGAACAAAAGAGTTTATGGAGGCGCTTCAAGCTGGAGCTGAT 
GTAAGCATGATAGGACAATTTGGTGTTGGTTTCTACTCTGCTTATCTTGTTGCAGAGAAG 
GTTGTTGTCACTACAAAGCACAATGATGATGAACAATACGTTTGGGAGTCTCAAGCTGGT 
GGTTCCTTCACTGTCACTAGGGATGTGGATGGGGAACCACTTGGTAGAGGAACTAAGATC 
ACCCTCTTCCTTAAGGACGATCAGGTAAGGAATCGTAGCTTTGAGTGTTTTGGGGATTGT 
TTCTTTTCTTTTGGTGTTTTCTGTGTTCTTACAAGTGTGTTTATTCATGCAGCTTGAATA 
CTTGGAGGAGAGGAGACTCAAAGACTTGGTGAAGAAGCACTCTGAGTTCATCAGTTACCC 
TATCTACCTTTGGACCGAGAAAACCACCGAGAAGGAGATCAGTGACGATGAGGATGAAGA 
TGAACCAAAGAAAGAAAACGAAGGTGAGGTTGAAGAAGTTGATGAGGAGAAGGAGAAAGA 
TGGTAAAAAGAAGAAGAAAATCAAGGAAGTCTCTCACGAGTGGGAACTCATCAACAAGCA 
GAAACCGATCTGGTTGAGGAAGCCAGAAGAGATCACTAAGGAAGAGTATGCTGCTTTCTA 
CAAGAGCTTGACCAATGACTGGGAAGATCACTTAGCCGTGAAACACTTCTCAGTGGAGGG 
TCAGCTAGAATTCAAGGCCATTCTCTTTGTACCAAAGAGAGCTCCGTTTGATCTCTTTGA 
CACGAGGAAGAAGTTGAACAACATCAAGCTTTATGTCAGGAGGGTGTTCATTATGGACAA 
CTGTGAAGAGCTAATCCCAGAGTACCTCAGCTTTGTGAAAGGTGTTGTTGACTCTGATGA 
CTTGCCACTCAACATCTCTCGTGAGACGCTTCAACAGAACAAGATCCTTAAGGTGATCAG 
GAAGAATCTAGTGAAGAAGTGCATTGAGATGTTCAACGAGATTGCTGAGAACAAAGAGGA 
CTACACCAAATTCTATGAGGCTTTCTCCAAGAATCTCAAATTGGGTATCCATGAAGACAG 
TCAGAACAGGGGAAAGATTGCTGATCTTCTACGGTACCACTCCACAAAGAGTGGTGATGA 
AATGACGAGCTTCAAAGATTACGTCACAAGGATGAAGGAAGGTCAAAAGGACATTTTCTA 
CATCACTGGTGAAAGCAAAAAGGCGGTGGAGAATTCTCCCTTCTTGGAGAGGCTGAAGAA 
GAGAGGATACGAGGTACTTTACATGGTGGATGCGATTGACGAATACGCTGTTGGACAATT 
GAAGGAGTATGACGGTAAGAAACTTGTTTCTGCGACTAAAGAAGGCCTCAAACTTGAAGA 
TGAGACCGAAGAAGAGAAGAAAAAGAGGGAAGAGAAGAAGAAGTCCTTCGAGAATCTGTG 
CAAGACGATTAAGGAAATTCTCGGGGACAAGGTTGAGAAGGTTGTGGTCTCAGACAGGAT 
TGTGGACTCTCCCTGCTGTCTAGTAACTGGTGAATATGGATGGACTGCAAATATGGAGAG 
GATTATGAAGGCACAGGCGTTGAGAGATAGCAGCATGAGTGGTTACATGTCGAGCAAGAA 
AACAATGGAGATCAACCCCGACAACGGTATAATGGAGGAGCTCAGGAAGAGAGCTGAAGC 
AGACAAGAATGACAAGTCTGTTAAAGATCTTGTCATGTTGCTGTATGAGACAGCTTTGTT 
GACGTCTGGATTCAGTCTTGATGAACCGAACACTTTTGCTGCTAGGATTCACAGGATGTT 
GAAGTTGGGTCTGAGTATTGATGAGGATGAGAACGTTGAGGAAGATGGTGATATGCCTGA 
GTTGGAGGAGGACGCTGCTGAAGAGAGCAAGATGGAGGAAGTCGACTAAGAGATGAAGAA 
ATTGCTCTTATGGTTCTGAAAACTTCTAATATGTCGAGTTGTTCTGAGTTTTAAGATTTT 
CCAAAATGTCTTTGTCTTTTTTTTTATATCTTTAGAGTTACTTGAACATTGTGACTACTT 
CTAGGGTTGGGTTTGTGTCAGGTCTGTTATATCGTGTGGTGGGTCTGTCTAATACTGATT 
CAAGTTTTTGTTATTCAGCTAAG
>AT1G11780.1 |  oxidoreductase 2OG-Fe(II) oxygenase family protein 
CGACTGGTGAAGAAGAAGATGTACGAATCGGCGAACGTCTCCGACGACGCAGATCGTACG 
GCTTTCCGGCGAGCAGAGAAAAAATACAAACTTTACTATGAACAGGATTCTAAGTTCTCT 
AGAAAGTAAGCCAATTTTTTATCTTCTCTCCACTTGCGTTTGTTTGAATCCTTCCACTTA 
TAATCAATCACTTGGAACTCGCAGGAAGAAGCTACCAAAACCAATTGATTTGTCTGAGTT 
ACTTGATTTCAATTTGATTTCACAAAATTTCAACAATGACGGTGTTTTGCCAGACGGAAT 
TAGGGTTTCGAAAGTTGATTCTTCTCCTGTGTTCTGCATCGATAATCGCCCTGGTAAGTT 
AAAATCCCCAACTTTCAATCATCTGTGTTAAATTAGAATCCAAGAGCTCAGCTTTTGAAC 
TATTATTATACAGGTTTTTACTTTATACCTGATGCATTGAGTTTAAAGGAGCAATGTAAA 
TGGATTAAAGAGAGCTTGACGAGTTTTCCGCAGCCTCCGAATAGAACAAACCACAATGCA 
ATTTACGGTCCTATTGATGATTTGTTTGATTCAGCTAAAGAAAACAAGGTATTGGTTCAG 
GATGATCTTACCAACAACAAGTGGAAGTTCTATGAAGAAGTAGATATTGAAAAAGCAACA 
CGAAGTAGTTGCAAATCAGTTTCAGCTTCAGTTCTTTTGAGGAAGCTTCGATGGAGCACT 
CTCGGTTTACAGTTCGATTGGTCCAAGGTTGAATCTTTAACATCTTTTGATGAGTTTTAG 
TAACCTATTGCAATGAATCTATAATGAGTGCTGATTCTTTCGGCTTTTTTTCAGCGTAAC 
TATGATGTTTCTCTCCCTCATAACAACATCCCTGACGCACTCTGTCAACTAGCTAAGACA 
CATGCCGCCATTGCAATGCCTGACGGAGAGGAATTTCGTCCAGAGGGGGCTATTGTAAAC 
TATTTTGGCATAGGTAGAGTTTACCTTAAATTTTGTATTTTCTTGCTTTGGAAAGCCTTA 
AGATGTTGAACTCTGAAAGCCTTTTAACTCATTCTATAGGTGATACCCTTGGAGGCCACC 
TTGATGATATGGAAGCTGACTGGAGTAAACCCATAGTAAGCATGAGGTATATCTCGTTGC 
CTTCTGTTTTTGCTAAACGTAAGACCGTATGATGATGTACAATAGAGTAACTGTATGTCC 
TCTTACGTAGCTTGGGATGTAAAGCTATTTTCCTCTTAGGCGGAAAATCAAAAGACGATC 
CTCCTCATGCTATGTATCTCAGAAGTGGAGATGTTGTACTAATGGCTGGAGAAGCCAGAG 
AATGCTTTCACGGTAATCTGCTTCACTTTCAATTGGATGGTTACTCTTTCGAAGTCTCTA 
ATTGACTAATTGAGACAGCTAATTAACAGATTGGTTTGCTATAATATCTGTTGTTGTTGC 
AGGTATACCCCGTATCTTTACGGGTGAAGAAAATGCGGATATTGGTGCACTTGAATCAGA 
ATTGTCCCATGAGAGTGGACATTTTTTCGCAGAGTATATCAAAACTTCGAGGATCAACAT 
AAACATCAGGCAAGTTTTCTGAATTGCCTGAATTCTCCTGCTTTCGAGCAAAAAAATTTG 
TATTACTAGTCGCATCGAGCCAGAAGATTTGAGAAGCAGCAACTACTTCTTTCGCACTTT 
CTTGGTTTCTTATGTTCTTATTGTCATAGAATCTCTTTATCATGTAAGATATGACCGGAA 
CTCGAGTACAATAGCAGATCAATTTCTGCTGAAATTTTGAGGTTTTAGGCCATTTTTAAA 
AAGAATTGTATAATTACAAAAAGGAAATATCATTTTTCAGATAGCATACATATTTTACAT 
TGTGGTTAAGGAAATCAAAGGGAACCAAGTAAGGTGACTACACAAACTAACGCCTAGCTG 
GCTTGCCAGGCAAGGTAGGTATACTCTGTTCGTCTCTGAAGAAATTTTGCGGATCCACAG 
CAGTTTTCACTTTCACCAACCGATCAAAATTTTCACCGAAATACATCCTCCCGAAAACCT 
CTGCTACTCTGTAACTGTTTGGGCCAGGGGTATTAACTCCAATATCCAGATCCCTGTAAT 
TGATATAAGTGTGTCTAGGGTTCTTGGTCACAAAAGGAGCCATGTAGCTATAAAAGCTTT 
TCGCCTTCTGCAAGAAACTGGTTTCCGCTTCGGTTCCCGGATCTTTCCAGTTCATCGAAT 
GCTGGATTTTGTAAAGCTTCTTCCTATGTGGGAATGGTGTCTTCGTTGTAGCCACCGTAC 
TCATTATCCCTCCGTAAGGATTAAACACTAACCCTATCTTCCCAACTTCAATCATTTTCT 
TGAACAAGAAATCTAAA
>AT4G19880.1 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal (InterProIPR004046) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1635 Blast hits to 1635 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 158 Plants - 57 Viruses - 0 Other Eukaryotes - 480 (source NCBI BLink) 
GCAAAGGTTTGTACTTTTTTTGAATTGAATATTCCTCCGAAAGCAACCAAATTATCACAG 
GTTGGGCATGACAGAAGCAGTGACATATTAATACGTCGCCGAAATTGACTCTGAAGCCTT 
GTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTG 
ATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACT 
ACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAAT 
TCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTG 
ATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTT 
GAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGT 
TCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATG 
GCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACA 
TTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATAC 
CATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATC 
AAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTT 
ATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGAT 
TTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGA 
TGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGT 
GCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACT 
GTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTT 
ACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAAC 
TGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATAT 
TGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAAC 
TAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAA 
ACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGC 
TAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTG 
TATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAAC 
ACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGT 
TCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAA 
ACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTAT 
CCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTT 
AACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGG 
ATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCC 
AAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCA 
GAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGAT 
GTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATT 
GCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAG 
GTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTT 
TTCCTC
>AT4G19880.1 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1621 Blast hits to 1621 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 155 Plants - 57 Viruses - 0 Other Eukaryotes - 469 (source NCBI BLink) 
GCAAAGGTTTGTACTTTTTTTGAATTGAATATTCCTCCGAAAGCAACCAAATTATCACAG 
GTTGGGCATGACAGAAGCAGTGACATATTAATACGTCGCCGAAATTGACTCTGAAGCCTT 
GTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTG 
ATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACT 
ACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAAT 
TCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTG 
ATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTT 
GAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGT 
TCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATG 
GCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACA 
TTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATAC 
CATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATC 
AAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTT 
ATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGAT 
TTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGA 
TGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGT 
GCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACT 
GTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTT 
ACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAAC 
TGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATAT 
TGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAAC 
TAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAA 
ACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGC 
TAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTG 
TATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAAC 
ACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGT 
TCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAA 
ACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTAT 
CCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTT 
AACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGG 
ATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCC 
AAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCA 
GAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGAT 
GTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATT 
GCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAG 
GTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTT 
TTCCTC
>AT4G19880.2 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal (InterProIPR004046) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1635 Blast hits to 1635 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 158 Plants - 57 Viruses - 0 Other Eukaryotes - 480 (source NCBI BLink) 
ATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTGATGTCTTATTCCA 
CGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACTACTCGTGGATCTC 
GTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAATTCCATTTCTCTTT 
GTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTGATTTGGGTATGGT 
CTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTTGAGCTAAAAGTTA 
TTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGTTCATGAAATTGAA 
AGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATGGCTCGATCTGCGG 
TTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACATTCCGTAACTTCG 
TTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATACCATCTTTACATAT 
CGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATCAAAGGACTTGACG 
ATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTTATTGTTATGTAGA 
ATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGATTTCCATCAGTCTG 
TAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGATGGGTCTTTCCAG 
GTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGTGCTAAGAGTGTAA 
GAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACTGTTCCTGTAAGTC 
TTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTTACTAGTTAGTCAT 
GAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAACTGTTGTTAACAAC 
GAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATATTGCGGGAAATCCT 
GATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAACTAATGAATGGATT 
TACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAAACAAGGACCTTAT 
GAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGCTAATTGATCCCAT 
GAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTGTATGAAGCATTAG 
ATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAACACTTTGACTGAAA 
CAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGTTCATACTTTCAAA 
GCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAAACGTTGATCCAGG 
TTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTATCCGAATTTGTTCA 
ACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTTAACATGAATCACA 
TCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGGATCATCCCTCATG 
GACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCCAAATGAAAAACAT 
CTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCAGAAAGTTAGGACC 
ATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGATGTTGAGTTTTATG 
TTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATTGCAATCTCCACGG 
TTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAGGTCATGTGGCGGA 
TTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTTTTCCTC
>AT4G19880.2 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1621 Blast hits to 1621 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 155 Plants - 57 Viruses - 0 Other Eukaryotes - 469 (source NCBI BLink) 
ATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTGATGTCTTATTCCA 
CGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACTACTCGTGGATCTC 
GTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAATTCCATTTCTCTTT 
GTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTGATTTGGGTATGGT 
CTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTTGAGCTAAAAGTTA 
TTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGTTCATGAAATTGAA 
AGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATGGCTCGATCTGCGG 
TTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACATTCCGTAACTTCG 
TTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATACCATCTTTACATAT 
CGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATCAAAGGACTTGACG 
ATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTTATTGTTATGTAGA 
ATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGATTTCCATCAGTCTG 
TAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGATGGGTCTTTCCAG 
GTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGTGCTAAGAGTGTAA 
GAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACTGTTCCTGTAAGTC 
TTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTTACTAGTTAGTCAT 
GAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAACTGTTGTTAACAAC 
GAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATATTGCGGGAAATCCT 
GATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAACTAATGAATGGATT 
TACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAAACAAGGACCTTAT 
GAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGCTAATTGATCCCAT 
GAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTGTATGAAGCATTAG 
ATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAACACTTTGACTGAAA 
CAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGTTCATACTTTCAAA 
GCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAAACGTTGATCCAGG 
TTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTATCCGAATTTGTTCA 
ACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTTAACATGAATCACA 
TCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGGATCATCCCTCATG 
GACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCCAAATGAAAAACAT 
CTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCAGAAAGTTAGGACC 
ATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGATGTTGAGTTTTATG 
TTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATTGCAATCTCCACGG 
TTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAGGTCATGTGGCGGA 
TTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTTTTCCTC
>AT4G19880.3 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal (InterProIPR004046) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1635 Blast hits to 1635 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 158 Plants - 57 Viruses - 0 Other Eukaryotes - 480 (source NCBI BLink) 
CTTGTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGG 
TTGATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTC 
ACTACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCA 
AATTCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGT 
TTGATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGAT 
TTTGAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTT 
TGTTCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCA 
ATGGCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCG 
ACATTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGA 
TACCATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAG 
ATCAAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTG 
CTTATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTT 
GATTTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATG 
GGATGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAAT 
GGTGCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTAT 
ACTGTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTA 
GTTACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAA 
AACTGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCA 
TATTGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGA 
AACTAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAA 
GAAACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATA 
TGCTAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAA 
GTGTATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGT 
AACACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTA 
AGTTCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTT 
GAAACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAG 
TATCCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACG 
GTTAACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTT 
GGGATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTC 
TCCAAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCT 
TCAGAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGT 
GATGTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTT 
ATTGCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCG 
AAGGTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTA 
CTTTTCCTC
>AT4G19880.3 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Glutathione S-transferase/chloride channel C-terminal (InterProIPR017933) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1621 Blast hits to 1621 proteins in 489 species Archae - 12 Bacteria - 905 Metazoa - 23 Fungi - 155 Plants - 57 Viruses - 0 Other Eukaryotes - 469 (source NCBI BLink) 
CTTGTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGG 
TTGATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTC 
ACTACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCA 
AATTCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGT 
TTGATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGAT 
TTTGAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTT 
TGTTCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCA 
ATGGCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCG 
ACATTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGA 
TACCATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAG 
ATCAAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTG 
CTTATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTT 
GATTTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATG 
GGATGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAAT 
GGTGCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTAT 
ACTGTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTA 
GTTACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAA 
AACTGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCA 
TATTGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGA 
AACTAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAA 
GAAACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATA 
TGCTAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAA 
GTGTATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGT 
AACACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTA 
AGTTCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTT 
GAAACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAG 
TATCCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACG 
GTTAACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTT 
GGGATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTC 
TCCAAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCT 
TCAGAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGT 
GATGTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTT 
ATTGCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCG 
AAGGTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTA 
CTTTTCCTC
>AT4G19880.1 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1567 Blast hits to 1567 proteins in 487 species Archae - 12 Bacteria - 899 Metazoa - 23 Fungi - 155 Plants - 55 Viruses - 0 Other Eukaryotes - 423 (source NCBI BLink) 
GCAAAGGTTTGTACTTTTTTTGAATTGAATATTCCTCCGAAAGCAACCAAATTATCACAG 
GTTGGGCATGACAGAAGCAGTGACATATTAATACGTCGCCGAAATTGACTCTGAAGCCTT 
GTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTG 
ATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACT 
ACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAAT 
TCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTG 
ATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTT 
GAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGT 
TCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATG 
GCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACA 
TTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATAC 
CATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATC 
AAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTT 
ATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGAT 
TTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGA 
TGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGT 
GCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACT 
GTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTT 
ACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAAC 
TGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATAT 
TGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAAC 
TAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAA 
ACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGC 
TAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTG 
TATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAAC 
ACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGT 
TCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAA 
ACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTAT 
CCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTT 
AACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGG 
ATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCC 
AAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCA 
GAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGAT 
GTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATT 
GCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAG 
GTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTT 
TTCCTC
>AT4G19880.2 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1567 Blast hits to 1567 proteins in 487 species Archae - 12 Bacteria - 899 Metazoa - 23 Fungi - 155 Plants - 55 Viruses - 0 Other Eukaryotes - 423 (source NCBI BLink) 
ATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGGTTGATGTCTTATTCCA 
CGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTCACTACTCGTGGATCTC 
GTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCAAATTCCATTTCTCTTT 
GTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGTTTGATTTGGGTATGGT 
CTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGATTTTGAGCTAAAAGTTA 
TTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTTTGTTCATGAAATTGAA 
AGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCAATGGCTCGATCTGCGG 
TTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCGACATTCCGTAACTTCG 
TTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGATACCATCTTTACATAT 
CGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAGATCAAAGGACTTGACG 
ATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTGCTTATTGTTATGTAGA 
ATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTTGATTTCCATCAGTCTG 
TAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATGGGATGGGTCTTTCCAG 
GTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAATGGTGCTAAGAGTGTAA 
GAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTATACTGTTCCTGTAAGTC 
TTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTAGTTACTAGTTAGTCAT 
GAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAAAACTGTTGTTAACAAC 
GAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCATATTGCGGGAAATCCT 
GATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGAAACTAATGAATGGATT 
TACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAAGAAACAAGGACCTTAT 
GAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATATGCTAATTGATCCCAT 
GAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAAGTGTATGAAGCATTAG 
ATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGTAACACTTTGACTGAAA 
CAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTAAGTTCATACTTTCAAA 
GCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTTGAAACGTTGATCCAGG 
TTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAGTATCCGAATTTGTTCA 
ACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACGGTTAACATGAATCACA 
TCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTTGGGATCATCCCTCATG 
GACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTCTCCAAATGAAAAACAT 
CTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCTTCAGAAAGTTAGGACC 
ATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGTGATGTTGAGTTTTATG 
TTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTTATTGCAATCTCCACGG 
TTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCGAAGGTCATGTGGCGGA 
TTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTACTTTTCCTC
>AT4G19880.3 |  FUNCTIONS IN molecular_function unknown INVOLVED IN response to cadmium ion LOCATED IN chloroplast EXPRESSED IN 23 plant structures EXPRESSED DURING 13 growth stages CONTAINS InterPro DOMAIN/s Glutathione S-transferase predicted (InterProIPR016639) Glutathione S-transferase C-terminal-like (InterProIPR010987) Thioredoxin-like fold (InterProIPR012336) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT5G450201) Has 1567 Blast hits to 1567 proteins in 487 species Archae - 12 Bacteria - 899 Metazoa - 23 Fungi - 155 Plants - 55 Viruses - 0 Other Eukaryotes - 423 (source NCBI BLink) 
CTTGTGGACTATGTATATAGATAATGGATCAGGTGAATCTTCAACTTATATAGCTCCTGG 
TTGATGTCTTATTCCACGATCATTAGCAACACCAGCTTCCTCTCTCTCGCTTCAAAGTTC 
ACTACTCGTGGATCTCGTCTTCAGGTACACATCATCACGATTGATTTTCCTTGATTTCCA 
AATTCCATTTCTCTTTGTGCATACTTGCATTAGATTCTTACAGGTTTTCTGGGTTTGTGT 
TTGATTTGGGTATGGTCTCCATGATGCATCAAATTCTGAGAATTCCCAAAAGAAACTGAT 
TTTGAGCTAAAAGTTATTAACGTTTGATCCGTTTAGGTCCATACTATGATGTTCTGTTTT 
TGTTCATGAAATTGAAAGTTGGTCCCTATGCTTTTGATTTGTCATCAGTGTACAGTATCA 
ATGGCTCGATCTGCGGTTGATGAGACATCAGATTCAGGAGCTTTTCAAAGAACTGCATCG 
ACATTCCGTAACTTCGTTTCAAAAGATTCCAATTCTCAGTTTCCAGCTGAATCTGGTAGA 
TACCATCTTTACATATCGTATGCTTGTCCATGGGCTTCTAGATGCCTTTCATACTTAAAG 
ATCAAAGGACTTGACGATGCAATAAGCTTCTCGGTGCGTAGACTCAACCCTTTAACACTG 
CTTATTGTTATGTAGAATCATACCATTTCCTGATGGTATTGATCGAATTGTTCTTTGTTT 
GATTTCCATCAGTCTGTAAAACCCATTTGGGGAAGAACCAAAGAAACCGATGAACATATG 
GGATGGGTCTTTCCAGGTTCAGATACCGAAGTTCCAGGAGCTGATCCTGACCATCTTAAT 
GGTGCTAAGAGTGTAAGAGAACTCTATGAGATTGCTAGCCCAAACTACACCGGGAAGTAT 
ACTGTTCCTGTAAGTCTTTTGGCTTCTCAATGTCTTTTAAGTCTCTTTCAGTCGGAAGTA 
GTTACTAGTTAGTCATGAGTTTTGGTTTTTATGTTAGGTTCTGTGGGATAAGAAGCTCAA 
AACTGTTGTTAACAACGAGAGTGCAGAAATAATCCGGATGTTCAACACTGAGTTCAATCA 
TATTGCGGGAAATCCTGATCTTGATCTTTACCCTTCCCATCTCCAAGCTAAAATCGATGA 
AACTAATGAATGGATTTACAATGGGATAAATAATGGTGTCTATAGATGCGGGTTTGCAAA 
GAAACAAGGACCTTATGAGGAGGTAAGTGTGGAAGCCATGAATAAAGCTATTACTGTATA 
TGCTAATTGATCCCATGAGAATGTAAAGTTTATGGTTCTTATATGTAGGCAGTGGAGCAA 
GTGTATGAAGCATTAGATAGATGTGAGGAGATTCTTGGAAAACATCGGTACATCTGTGGT 
AACACTTTGACTGAAACAGATATCAGATTGTTTGTCACCCTTATAAGATTTGACGAGGTA 
AGTTCATACTTTCAAAGCAAGAAAAAGAAGTACACCATATGTGAACGAATCTCTAATGTT 
GAAACGTTGATCCAGGTTTATGCAGTCCACTTCAAATGCAACAAGAAACTCATAAGGGAG 
TATCCGAATTTGTTCAACTACACGAAAGACATTTTCCAGATCCCCGGTATGAGTAGCACG 
GTTAACATGAATCACATCAAGCAGCATTACTATGGAAGCCACCCGTCGATCAACCCTTTT 
GGGATCATCCCTCATGGACCAAACATCGATTACACTTCGCCTCATGATCGACACAGATTC 
TCCAAATGAAAAACATCTCATCAAAGATCAAATCTTTGACACATGAGTTGAGTTCTGTCT 
TCAGAAAGTTAGGACCATCTTTACCAAATAAGCTTAAGTCGTGTCTTTAACATTGCAAGT 
GATGTTGAGTTTTATGTTATGAGAAAAATAAAAAGCTTTCTGTTTGATATGTTACAGTTT 
ATTGCAATCTCCACGGTTGAAAACACTGTTTGTTTTTACTGCAATCACATTGAAACTTCG 
AAGGTCATGTGGCGGATTAGGGTCTTTTATGTAACCTTTGAACCTTGGAGTTCGATTCTA 
CTTTTCCTC
>AT1G03110.1 |  transducin family protein / WD-40 repeat family protein 
AAATACATAAAATCGATTTTGTTGTTTGTGCTTTTGTGGCGGCTTTTTTTCACGAACTGC 
TTTAAACCCTAAAAACTCCAACCTTTGTTCTCTGTGTAACAACAACAACAACAATGCAGG 
AAGAATCTCACATCGAAGAAGTTGAAATCCAAAACAAACTCGAAGTTGCTCCTGCATTGA 
TTTCCGTTCATCCATCTCAGAAATCTGTCGCTGTCGCTGTCGGCTCGGATCTTCGTATTT 
TCGATCTTATGTAAGTTCATTGCCTCCTTCATAATCAAATTCGAACATGTCTCTTCATAG 
ATTGGTTTGTTTTGAAAGGATAATTAGACTTGCTATTGACTTGGGTTCAGACATCGGAAC 
CTTGAAACTTCTCTTCGTGTGGCTTTGTGAAATTTAACAAGTTTTTGACGAATTTTGTTA 
TGGTGCTTTAAAGCTGATTCAATTGAATTTTAATCACCAATACAAATGTGTTAAACTTGG 
AATAGAGGAATGTTTAGTTTATCTAGTTAACCGATTGCTTTAAATGTTTAAATTGACAGA 
GAGAATTGCCCAGTTAGTTTGGTGGATGAATCTGATGGGCCTATCCGTAAGGAATCCATT 
AGAGCTATTCGGTACAGTACAAGTGGCAAGCTCTTTGTGTCCGCAGGCGATGACAAGCTT 
GTCAAGATTTGGTCCGCAGATTCTTGGCGCTGTCTTAACACAGTGTAAGTTAGTTACTAC 
ATATCGTAATAATTACTATGATTAATTGGTGGTCCATTTTTAGTTTTAGTTTTCACGCAT 
TGTGTTTCTAGCATTGCAATTCCCTCTTTATCCAAAACAGACTCTATGCTTATCTCATGT 
TTCTTAAGCTTATAATATCATATTAATGGCAGATGTTCTGAGAAAAGAGTTAGCGCAGTT 
GCTATAAGTAGTGATGACTCACATGTTTGCTATGCGGACAAGTTTGGTGTTGTATGGGTG 
ATTGAGCTGGATGGGATCAATGACGGTAAAACTTTACCTAGTAAGAAGGGTGCGCTGCTG 
CTTTCCCATTATTGTAGTATTATTACTAGCCTGGTAAGATAAAGTTTTGTCAATAGGCCT 
TTCTTATATGTTGTCTCGTTTTTTTTGCATGATGAAAAGCTGAAGTTTTAACTTACTATG 
TCACTCATTCTGATCTGTTCTTGTTCATAGGAGTTTTCCCCAGATGGTAGATATATTCTT 
AGTGCAGACCGGGACTTTAAGATAAGGGTAAGCTAGTCTAATCCACTAATGCACAATGTC 
ATACCTTTCTTGCTCAGATTGGTCTTATAGTGATTCTGTTTGCCATCACAGGTGACTGTT 
TTTCCCAAGAAGCCTCTAGAAGGGGCTCATGAAATACAGAGTTTTTGTCTTGGACATTCA 
GAGTAAGTTAGAGTTTAAAGCAACATCTAATCTGATCCCAAATATTCTGTTTGCATTCTT 
AATGTTTGGTTTCTACGATATTTATCAGAGTGTTGTTTACAAAATGGAAGATTGTAAACA 
AAGCTGAGAGTATTGAACAGTTCCATTAACATTATCTTAAACCTTAATAGGTTCATTACC 
TGCACAGCATTTGTCAGCACTCCAGAGCTTACTCAGGGATACCTCATGTCTGGAAGTGGA 
GATTCAACTGTAAGTGATCTTAAAGTCTATATCTCCAGTTCTTACGACCAGTGAGTGATG 
CTTGACTCCTTGCTAATGTTGTTAATTTCAGGTTCGACTGTGGGACATTACATCTGGGTC 
TCTTCTCGACACATGTGAAGTTAGTACAGTGGTAGAAATTTCGATCCTTATTACATTCAT 
CTGCAAATTTATCTTTATATATCTGGTTGTGTATCTTTTTAGCGTTAGTGATTTCTGTTT 
GTGCGTATTTGAAGGCAGGACATGCAGAGTCTAATGAAAATGAGTCGCCGACCCAAGTCA 
CAGTTACTGACATATGCGCTATCCCGAATTCGTCTCTTGCAGCAGTGGCAATTCAAAGGC 
AAGTCTAATATTTTAGCCCACATACGTTTCGTTTAAATCAGATGTTTGATCCTCTATTAA 
TGTAAATGCAGCTTTCAAGGAATATTCTTGTTAAGCTGTGATTTGACAGCACATACTCTC 
TCTATCACAAAGGTATGAATCCTGTTAGCAAATCCAGTAAAATCAACAAAACAATTATAT 
AACCGGGTAAATAATCTTGTAGGTGATAAAAATCCCTGGAGAAAGTTTCATTCCTACAAG 
TATAGCTGTAAGTGCATCTTCAAGATTACTATGGATGGTATCAGGAGCCTCAAACCTGCC 
TGGTTCGAACCATCCTGGTTTTTCAAGGGTTCGGGTCATCTCTTGCCTTGAGACCGAATC 
ATCTTCAATACTTGAAGACGAGCAGATTCCAGGAGGGACCAAACTATTGGAGCAATTACA 
AGGTAAAGTTACAATAGAAGAGAGTGTAATGAGTGCTGCGGCAGAAGCTGTGAGAGCGGC 
AATGTCCAGCCTTTTGATGAAGAAGCAATACTCTGAAGAGAAGAGAGAGTTCAGAAAAAG 
AACCAGAAATGATAAGAAAACCACACGATGATTGCATTTTGCCAAATTGTTTTTTTTTTA 
GGCTTATTATCTTCTGTTTTTCTGTGACTCTCTCGTTGTATCTTGATCATTATGTTACCG 
TTATAATTTCTCTGTTACTATTTCAAAATTTTTATTTATTCAAGCATGTACTAGTACAAT 
TTGATGACTTTTGTGTTT
>AT4G25120.1 |  ATP binding / ATP-dependent DNA helicase/ DNA binding / hydrolase 
ATGGAGAATCTCCCACCGAACAGAGGAATGTGGAACCAAGAGTACAGTCATGGTCGGATT 
TCTCAAAGCTTCAGGTCGGCCAAGCCGCTCCTTGACCGGAAAAGACCAATTGAAAATGCA 
CCTAATTCCTCCAATCCTTTACCTCAGAGGTCCAATACTTTCTTCCTTGCAATTTATTCG 
AATATTGGTTTATTCTTAGCTTCTTTGAGCCATTGAACTCAGTTTTACAGGGGTTCTAGT 
GGGTAATTCTTGTCCAATTTCTGATATCATCGTATAGTGACCTCTTGCTCCTACATTTTG 
CCATACCTTAGGATTTGGTATTTTGCTATTAGTATAATATGTTTGGTTATATTAAGCTCT 
CCCTTAAATTCAAGTTACTGTTTCATCCTTTATCTGATCATCGGCATTGCTTCATCAGAT 
TTGATGTGAAATCTGATAAATTTCGCTACCTGGATGTTGCAGAATGAAGGAATCAATGGA 
TACTGAATCCGTTTCTCACAATATAAACTTCAACAGCACTCCTCTTATGGAGTTATCTGC 
TAATACACCATACAAACGCCTCAAACCAGAGATTGAGTCATATGCTGATGGTCATCCTTG 
TGGCTTGAGAACCCCTCCTCCTAGGTTTGATCTGGATAAGGAGATCATTAATGGATTTCA 
GACCGATATTTATGCGGACGTTGGATCTTTATCAGAAGCTTTTGTTACTCCCCTGAAAGA 
ACCAGAAAGAGTTACACTAAGCAATGGTTGCTCTACTTCTTCAATTCTTGATGATGACTT 
TGATGATTCCATTTTAGAAGAGATTGACTTAATATGTGAACAGTCAGCGAGAAAAGCAGC 
TTGTCAAACTCCAACTACCAGCATATATCAGACTCCGTCTAAAGATAATAAGAGTAGTGA 
TCCCAAGGCCAGCTTAGATTTTAGGGATGTTGAAAAGTTTGAACCAGACTCTAATGTTAA 
ATTGAAGCTTGATGAAGAGACTCCTACCATTGCTGCTGATCCTGCACTTCTCAATTCCAT 
GCCTGATGAGTGTTCCAAATATATGTTGTCTTTAAACGATAGACAGCGTGATGCAGCTTG 
TAGTAATATTTCAACTCCTTTGATGGTTATTGCTGGTCCAGGAAGTGGAAAGGTTGGTAT 
CTGATAGACTTCTTTTAGTATGAGGCAAGAATTTTTGTGGGTTTTCATGTTATACACTCA 
GTACTGATTATTTCTTTTCCCATGTTAGACTTCCACCATGGTTGGCCGCGTCTTAGTGCT 
GCTAAATGAGGTACTATTATCGTCGCTGAATGATTTAGAACATCTTCCGTACTTGAGATC 
TTACATATGAAATCAGAGTTGAAGTTACCTCTATATTTTAAATTTTGTGTTCTTTCTAAC 
TTGATAGGGTCTGCTTCCATCGAATATCCTTGCTATGACTTTCACTAAAGCAGCAACTTC 
TGAGATGAGAGAACGCATAGGAAAATCTGCTGGAAAGAAAGCAGCGAAAGACATAACAAT 
CAGTACATTCCATTCATTTTCCTTGCAACTTTGTCGGATGCATGCAGACAAGTGAGAATA 
TGATTTGTGAATTTCTTGGTATTTTGGTAGTTAATCTCAAGTCTAAATGTAGGTAGAAGA 
CATTAAATGATTTTTCCTCACCACTGGAAAATGTCACTTAGGGGGTGTTATTCGTTAATG 
GATTTTAATAGAATTGAAATCCAACACTAATCCACTGTTATTTAACTAATGATTCTAAAT 
CCAGCTTTAAAATCTAGTGTTATTGGAACTCATATTTGTAAATCATGCTTAATAGATTCT 
AAAGTTTGGTGTTATTCAATTAAGATTTTAAATATTTCATTAAAATCCAATGTTATTCAA 
AACTAAAAGACTTGTAAAATCTTTGTATATTAATTGATTTGAAATGAAAGCTCTTTGGAG 
TTTCATGAGTAAATCATTGGAATCAAAATCCAAGACATATTGCAGAGATTTTGAAATTCA 
TACAAACATATTCTTAAAAGCAATATCAGAAAACAAATCTAAAGCTTAAATAATTGACTT 
TAACTCCATAATTGAATAACACCACCTTATATTTTGTTAAATTGGAGTTACAGTGCCAAA 
CTGACAAGAAATGGAAGTAATTCTTGAAAACAAGATTAGTTTCTAAATTCTATTCTTGAT 
AGTATAACTCTTAGGTGATTTTACTTTTTTTTTTTTTTTTTCTTGTTTACATGTGTTCGT 
TTGAAGTTGTTAGTTGCATATCACTTGTTAACATCTTTAAAGTTATAGATTTATGGGATT 
CATTTACCCTATACCTTTCCTACTGTCACAGGTTACAACGTACATCTGAGTTCTCAGTGT 
ATGGGCATGGGCAACAAAGAAGAGCGATAATAGAAGCAGTGCGTTTATATGAGGAGGAAA 
AGAAGAATGGAAGCAAAACTTCTGTTCCATGCGAGTCTGGAGAAGGTCTAAATGGTGCAG 
GAGCAGGAGCAGTATGTCCTGAATATGCCAAGGATCTATCAAAAAAATGGCAGAAATTTG 
TGACCCAGGTTGCCAGTAATGATATAGTTTTACTTTATGTTCTATTAATAGCGAGTATAT 
CCTGTCTTTCACATATAATCTGGCTCTTAAAAGTAGTTGTTTTTAACTTGTTTCCCCATT 
TTAGGGAAAAGCTTCCGGTAAGAGTCCAGAGCAGTGTCGTAAGATGGGCAATGAGATAGG 
AGTAAGTTAGCTAATTTGTTTTTTCAGGCATCTCTACTATGAATTAATTCATATGATATG 
ATTCTGTACTGGTGCTGATACAGGCTAAAATTCTTGGAAACTACAACGATATCCTAAAAG 
CTTGCGATGCTCTGGACTATCATGATTTGATCAGTTGTTCGGTCACACTCCTCTCTGACT 
TTCCTGAAGGTGAAGCCACATAGATAAATTTTCTGTAAGTTAGATTTATGACACTGAGAT 
TTCCTTGTGTTCACATGTATTTGCTGCATTTGATAAAAGTATTCAAGGAATGCCAAGATA 
CCTGGAAAGCCATCATAGTTGATGAATTTCAAGACACTAGCACAATGCAGTACAAGCTTT 
TACGAATGCTAGGCTCTCATAATCACATAACTATTGTTGGTGATGATGATCAGGTGCGTT 
TTTTTCCACACAAAAATTACCTAATTTCAGTTGAATATTCGAAGTAAGTATGATGTATAT 
TTTCTTGCAGTCCATCTTCGGTTTTAACGGGGCAGACAGTTCAGGATTTGATTCATTTCG 
CCGAGATTTCCCAAACTACAAAGAGGTTTGGCTTTTTGAGGCTAACTCAATGATTATACC 
ACATATGATTAATTAGCTTGAGGAACCAAAAGCTCCCATTGAATTGTGAATGCATAACAT 
TTATCTTACTGCTTCTGATTCAGGTCAGGCTTATAAAAAACTATCGCTCCTCCCGCCATA 
TTGTGGAAGCCGCCTCTTCTATCATAAAAAACAATACGAAGCGGTGCCAATCAAAAAGCA 
TTTCGTCTGAAAACTCCCAAGGATCGAAGGCAAGTTGAATTTTTCACTATGAGAAATCGC 
ATCATTTAATCACTAAAGCACTAACTTTTTCGTGTTTTGTCCAGTTTAGATTACAGTCAA 
GGAATGCCATAATGAGGAAGCACAGTGTGCATATGTCATTGACAAAATAATTGAAATCAC 
TAATGATGGCTCAACACCTTGTTGTTCCCATGGAGATATTGCTATTCTTTATAGGAGGCA 
GGTCAGTCCTTTTCTTTTCCTTGATGACATGCTGTTAGAATGTTTAAAATTTTAACATAT 
TTACTTATGTGTTGGTAAACCATGAATGTACTGATATTCAGGTGTCAGGTAAAGTGTTTC 
AAAATGCATTCCGCCAGAGAAAAATACCATTTAACGTTCATGGTGTTGCTTTCTACAGGA 
AAAAGGTAGATTGCCTCAGAAATATCTCATTTGTTAAACTGTTGCATGATCACTAAGTAT 
CTCAATGTTTTGACATTGACAATTCATCCGCATGGTTATTGTAGCTTTATTTGTTTCGGA 
CAATAAGCTCCATCTACTAAACATAACAGCTATCAACTTTTTCCACGTTAGGTTGTCCAA 
GTCATTTTGGCCATGCTGAAGACAACATTTTCCGAATGTGATGATGCTTCTTATAGGCGA 
GTGTTTAAGGCATTACTTCCTTTTGAGAAAGAGGAAAAGAAAAGGGTGTGTACCTCATTT 
GGTCTCGTTTTATTTCATTTGCATGACTATCTACGATTTACTGCTTATTTCTCAGCTGAA 
GCTATCAGGACATAAGCTGTTTGTAATTAATTTATTACCACCGTTTGCAGATTATAGAAC 
ATATTGAAAAAATCTCCACTAGTAGGAAATGCAGCTTCATTTCAGCGGCAAGTGATATCT 
TCAATGCCAAGATTTCTGGTACCTTCAAGAGGTATTGCTTGATGAAATTCATTAAGAAAG 
CAATATAATACTGCTTTAGTTTTAATTCTGAATTGGGAATATCATTTGCTTTTAGGTTTT 
CTAACCAGGACATAGATACAAGATTTCTCATATAAGTGTGTCTGCTTTTATACATGATCC 
ATACTATAGCGATACATATGGGTCGTTTTGTAATCCAGATGTAAGTAGTATTGTGTGTAT 
ATGTGTATATACAGATTCTAAGAATAGGATGCTGCACATTATATTCCCTCAGTATTGTTA 
TTTTTATTCATGTTTGTCTCCTGTTAAGCTTCTTAAGTTAGTTTGAATTTGAATTAACCA 
CAGGAGCCAGCTTACCCAGGGACGCAAAGTTTTGCAAACTCTTGACATGGTAGCAAAGCT 
GGTTGATAGGGTAAGATATTTGTTTTCCGGTCCTTGAGATACTATGAACGCACTATCACT 
AGTTGAAGTGATCATGCTTATTTCAACTTAGCAGTACGAATCCCTTACTTCTCATCTATT 
TACAGGAACAATCACTTTCAGCTGTAGTAACATGTGTGGCAAATATGATACCGCAGGTAA 
TTAATTTTTCTGTCTTAAGTGATGACATGCTTATAACTATTAACCAACATTGTCATCTCC 
GGAGTCATATATAGAAAATTATGCCGGGAACTTTTAGAATGTTTTGTTTGCTAATCAAGA 
CATATATACAAAAATTGGACATTATGCTTGACAATTCAATCTCATTTTTGAAAGTTTGTA 
GAAATCGTGATTATAGGCTTAAGTTATAACTTTCACTGAAAATAGTTTTTGAACACGTGA 
CTTTGCTTTGAAGATTTACTGTGTCTTTCCTTACAACTTTTAGAAATACCTTCTTGAGCA 
ACGAGCAGTTGTGGATAATGATGGAGGAAAACTGCTTAATGAAGACAACGATCTTAGATC 
TGTAAGTGGGGAATCGTTTTTTTTCCAGTACTTATGTATGTATTAAAACTATTTTGGGGA 
ATAATTTCCTGTTTTGCAGGTACTCCAGTACTTAATGGATGATGTAGCTGAGTTTATTTC 
CACTCATTGCACTACAACAGAAGAAGAGGATGCAATCAAAGAAAAAAAAGGCTGCAATCA 
ACTTCATTCATTTATCAACTATATCTCCGAGCGGGAAACTGAAAATTTTCGTTCAAGAAG 
ACGTGACAATGAAAATTCTGTCACATTGACCACCATTCATCAGGTGTTTTTCATCCACTC 
GAGCAGTTCACAGTTTGTTATCAATTGGTGTTAGAATTAGCTTCTTTAGGTAGTAATGGA 
AATATTGGCTAATATCTCTTGTATGTCTTTACGCAGTCGAAAGGTTTGGAATGGGACATA 
GTTTTCATAGTCAAGGTACATATCATCTTCTCTGGATTTCTTTGCCGAGTTATTGGCAGT 
TATGGACCAAGCAAGATATGAAATACTTTTTTTATAGAATCAATGAATAAAAAAGTCCTT 
GGCCCACTTTTAATCAATTTTTTGGTAAACAGGCTAATGAAAATGAAATTCCCCTATTAC 
ATGAGTCTAACGGCAATGCATCAGAGAGTGGAACCTCACTTGAGGTATCACTTTTCCTTC 
TCATGAACTCTCTATCCGTTTCCCACCTCTGCGAACTCTACAAATATATATATTTAACCA 
TGCATTGTCTGTTTAAATTGTAGGAGGAACGTCGCCTTCTGTATGTTGCTATGACTCGTG 
CTCGCAAGAAACTATTTTTTTTGTACGTGACAGTGGATTCGAACTGGCAGGTTAGTACTA 
CACATGGTTTATGAATTAGTCCTCTCAAACTTTGTCTCTGACTAATGATGTTCTTCCATC 
TAGGTGCTCCAACCCTCACGATTTCTTAAAGAGATTCCAGGCCATCTTCTACAGGTTCAG 
GTCTCAGTCTGTTTGCAACTTTATGCATGATAATGTGATAGCACTAACAAGAACTCTCAA 
TAATGTTCTGTAGGGAGACATGAGCGTAAATGACTGCAGAAAAGTTCATGAAAATCTTCC 
TAACAAAACTGAGCAGAGTGTCTCCAGTTTTGGAACAGATATAAAACATGAAGAAAGTAA 
ACTAACGGACAATGATGTGATGAACATTCCAGAGGATTATGCCTCCGAGGAGTCAATAGC 
CGCATATGCACTCAATGGAAACAACTTTCTTAAGAGGTTACATGCTTAAAACGAACAGAA 
CTATATAATTTGGCACTCTTGGTCTGGTTCATGATTCAAAGGTGTAGAACTTTCATCCCA 
AACAGGTTTGATGTGGAGGTTAGATCAGTTGTCTCTCACTTATTTCACAACTGGGCTAAG 
AAACAAGCATTCCAGGAACCAAAGAGGCTGATTGACAAGGTGAGTATCGCATACGCTGCA 
ACATTTCTCCATCAACTAATGTAAGCGCCAGTCAATTTTCTTACTTCTTACTTCTTACCT 
TTCATGTCAATGTTTTCGTACATGCAGGTACGGTTTGTGATTGGTGAACGTTTGGCCATC 
AAGAAGAACAAACACAAGGTTGTACGTCTATAGTCTTATTCACTATAACAAGTTCTGACA 
GTAGTTTTCTTGTTTGGTTACTTATTATGAAGCTTAATGGTAAAAGTCTACTGAGCCATA 
CCGAGAGTTGAAATATGCTTTGGTCACTAACTGGATACTGCACTATTTTGTTAGGATGTC 
TTACGAGCTCTCAAATCATCATTGACTTCTGAGGAAGCGTTCCAATATGCAGAACATGTA 
AGCAATATTATCTGAAAAACACTGTTACACTAATGAATTGATAAAAAGGAAAACTGAGAC 
GGTGCTCATGTTCCTGTGTACTTTTGGGGATATCAGGTACTTAGGTGGGAACAACTTCCT 
GCAGACACACGGGCTCATATAGTGCGTGAGAAACAGGTAATACATATAGCTGTTTTGAGA 
AAGCAAGAAGTTATAGGTTAACTCACTCCATAACCTTGGGAAAAAAAAATCTGTTTCAGG 
AACATTTCCAAAAACTGAGAATTGAAAACTCAATGGGCACTTCGGAAGCAACGAGTAAAC 
AGGTAAAAACTCATCAAGCTCTCACATTTTTGTCAACCGAAATATAGAACATCATACATT 
TTTGTTTATGTTTTTTGAAATGGCAGATCGCATTTCTGCATAGTCTAGGATGCACAGTGG 
TCCCAACATCACGTCTCCATGCGTCCCGCTTGATTGAACAGTACAAATCACTCTGAGATT 
GTATGTGTTTATATATGTAGTCTCATACGTTCATATGTATTAAACAAAGGAGCCTGGAAA 
TGATCTCGATTTCCTAATCTTAAATATAAAAGAACAAACAATGGTAATTGTAATAGTGTA 
TTTTGTGAAAGAAATGATGGAAACTGTTTTGGTGTTGACGTGAAATACACTCAAATGGCC 
ATTCATGT
>AT5G24840.1 |  tRNA (guanine-N7-)-methyltransferase 
GAGGGTTAGTTTTCGAAGAACGACGAGCTCGAGATTATTGATTTTCAAGTGGAGATTGAA 
TCAGGTAAATCCTCTCGAAATCTCACTTAGTCTATTTCTTGTGTTCGTATTGTATCATAT 
AACTATGAATTCATGCCTTTAGTTTTTCTCATAGCCATACTTGCTCTCTATCTTCTCAGT 
GAACAGAGACTTTAGAGAATTAGGGTTTACGGTTTAGGCATTTACTGGGTTTTGCAGAAG 
TGGTCTTAGTTTATTCAAAGTTCGTTTCTTTCACAAAGTTTAAGCTAGATTATTAGATCT 
CAGATGAATCAAATACGTATTTGTTATTCGTAAGACTCTGTTTTGATTATGTCACTCACT 
GTTATTGTTACCTTTGTGTGGTTTAGTGATAATGGACAATGAGACGAAAGCAACCACCTT 
CAGCAAATCAACAGGGCTTCCTAGGAAGAGATTCTACAGAGCAAGAGCTCATAGTAACCC 
ACTTAGCGATTCTCACTTCCCAATCCCCATATCTCCAGCTCATGTCGACTATTCACTTCA 
CTTCCCCAAATTCGTTGAAGCTGACAACAAATTCATCAAGAAGGTTGAGTTTGCGGATAT 
CGGATGCGGGTTTGGTGGCCTACTAATCTCCCTTGCGACGCTTTTCCCCGATACGCTAAT 
GATCGGTATGGAGCTCAGAGATAAAGTGACGGAGTACGTTAAAGAACGGATCTTAGCTTT 
AAGGAGAACAAGCTCGGAGGGACAGTATGAGAACATCTCCGTTGTTAGGACAAACTCGAT 
GAAGTACATTCCGAATTACTTCGAGAAAGGACAGCTTTCGAAGATGTTTTTCCTCTTCCC 
TGATCCACATTTTAAGGAGAAGAATCATAGGAGGAGAGTGATTAGTACTCATTTGTTAGA 
TGAGTATGCTTATGTTCTTAGAGCTGGTGGGATTATTTACACAATCACTGATGTAGAGGA 
GCTTGGAGAGTGGATGAAGTCTTGCTTAGAGAAACATCCGATGTTTGAATCTCTAACACA 
AGAAGAGCTTGTTTCGGATCCTGTTGTTGAGCTTCTATGCAGTGCTACTGAGGAAGGACA 
GAAAGTTGCTAGAAATGGTGGACAGACTTTCAGAGCAGTTTTTAGACGCATTGCATATGT 
TTCTTGAATTCTTTATTTCTCGTTGTAGTAATCTTTGTTGTAACACAGCTTCTTTCTTAA 
TTTCAAAATTTTGGGATAATATTACAGAAGTTGAGAAATTATTGTTCTACAAAGCCA