>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