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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0338000 |
Transcript ID | LotjaGi3g1v0338000.1 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Histone acetyltransferase; TAIR: AT1G16710.10 histone acetyltransferase of the CBP family 12; Swiss-Prot: sp|Q9FWQ5|HAC12_ARATH Histone acetyltransferase HAC12; TrEMBL-Plants: tr|I1KG14|I1KG14_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0338000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:71042862..71056878) extracted from Lotus japonicus Gifu genome v1.2.
CTTAATAGTAATACGTTGACTGTCATAAAAAACATTTATTCACACAAATTTATTAATATTGTTATTGATTTATTGTAGAT AAAATCGTCCGAGCCAATCAAAAGACCGACCGCGACCCGTGCAACTAAACGGATATTTCAACTAGTATAACATGACGAGG CAAAGTGAAAAATAAAACACATATTGACCCGAAGCCCCGTAACCGAAATCATTCTAGGATTGTAATTGCACTTGATCAAA ATTTGCCTTTGAATTCCGTCAATCTTACCTACGGTTTCTTCTCTTTTATGTCGATTCTTTTTTAGTTTCCGTTATTAACT TATTATAGTTCGTTCGTGACAAAATCCTCGCACGTGCCTTTGGTTGCAGCAGATGTTGTCACCGACCTTTCCCTCTTTCT CCACGGCAAAATCATCGTGAATCTTCGTCGGCGCGCTCGTCGATCCTCTGCGATTCCGTTCCCAATTCAATTCACCGATT TTCAACTCTTGTTTGTTTCTCCGTGCTCGATTCTTCACCGTTCTAGGTAAATCGCTACCATCAATCAATTTATTAGGGTT TTCAATTTTCCCTAAAATTGGGGATGTTTTGTTTTGATTTGATTCGGTTTTTTTTTTCTAGGGTTTCTTGCAATTGATAT GATTGATTGAATTTGTATAATCTGTATGTATTTTTTCAATTATCCGATTGATTTTTTGTTGACGCTCGTTTCAGTGATTA CAGTTCAGCGAAGAAGCTTATTACGATTTCTTGCATTCGCCATTTTTTTTTCTTGATTCTGTATATTCTGATTATATAGG TTTCTTCCTGGTGCTTTTTATTGAATGGAATTGTTGACTTTTGATTGTGGAAGTTGACATTGAATTCGCACAAGTCATCA CTGTGTTTAGTTTGTGTATTCTGGTTACAGGGGTCTGAAGTACTAGCTGGTGGTGGAACCCTGGAGCATTTTTGAGGTAT GTGAAGGATAGATAAGATGAAGTTGCAGGCGCATATGACGGGGCAGATATCGGGACAGGTACCCAATCAAGCAGGGTCTC AGATGCCTGGACTGACCCAAATGAATGGGAATGCCCTCCCTCCACAGATGCCACCTTTAGGTGGTATGCAGCGATCAGCG ATTAATATGGACCCTGAATTTCAAAGAGCACGCGCGTTTATTCAAGAGAAGATGTAAGTTTGTCTTTTATTTGTTTAACT GTATTCCTTCTGGGGTTAACTTGGCTACATTGATTCCTATGAGGAGTTTTGTCAATAGGTATAATATTTGGAGATGGATA TTTTTCTTGAAACTAATTACCAACATGCAAGTGTAAACTTAATCATGGAGGCCACTGTATGATACATATGGGTTTTTAAT GGAATAAATAGTTGGTGTTATTAAAACAAACAAAAGGGTAAAGACTATATTTTGAACACTTTATCATTATATTTATTTTT CATGTCCCAATGCTTTGTGATTCACTTGTATGACTTAGTTGAATTAGGATAAGATAAAATAATTTGATCAGTTTCATGAT TTTACTCAGATTGTAATAATCTGCGGTATTTACAACAGTATTTGCAACTGGCTCAACAGCTTTGAGGCACATTTCTTTGT CTTCCACAATAGTTTACCGCTTAACTTTGTAAATTGCAATGCCTTGTTCATCCAATCAAAGTTGTAGATGAGGGGTCCCT GCAGTGTAGATGCCATTAAGTGAACTAGATTGCTGACTCTATGTCTCAGATAGGATTATGTGCTGACTGCTGATTGCTCC ACCTGCATTGGGTTTTGACTTGAAAATAGTATTATGTGTGGATAAGTTAAACTGTGCTGTTCTCTTTAATTCTTGTCAAT TTTATTTACTTAACAGCAGATTTTACTTTTTTTACATTCCAGTTTTGAAACGTTATTGCAACGACATCAGCAGCCAGTTT CAGAAGTACAGAGAAGGAAGCTTAAGGATCTTGCAAAACGCCTGGAGGAGGGCATGGTAAAAGCTGCTCTATCTAAGGTG ATTTTTCTGGATCTCATGCTAATTTTTCTTTTCCACCGTTTGCAGGGATCTAAATCTTCTTGCTTAATTATAATACTTGG ACTTAACGAGGAACCTTCAAACTTCTTCCTTAATTTTTGCTACTGTTTTTGTGTTGACAATGTTTTGGACTTATCTTTTA GGAGGACTACATGAACTTGGATACACTAGAGAGTCGCTTATCTAATTTGATCAGAAGAGCGTCTATGAATAATCACAACC AACAACAATATCAGCAGCATGTTAGCTCTTCTCCAATCGGTACAATGATACCAACCCCTGGTATGTCGCACGTTCCAAAT TCAAGCATGGTGGTTTCGTCTACAATGGATGCCTCTGTGATTTCTGCCAGCGGGGGTAATAGCATGGCATCGACATCTTT CAATAGTGTAAATATGTTACCAGCTGGTGGCATGCTTGGCAGCTCCTTAAATAGATCTGATGGTAATATTAGTAATATTA AGTTTTGTAATTCCTTCCTAATACTTCCGCTTTTATTTGCTTTTCCTTCATTATAGATTCTATTCATTGCAGGTTTGTCT AATGGATATCAGCAATCATCTACCAACTTTTCTGTTGGCTCAGGGGGAAACATGTCAACGATGGGGGTGCAGCGGATTGC AAGTCAGATGATTCCCACTCCGGGATTTACAGTCAGCAGTAATCACTCTCACATGAATATAGATTCTTCTGCTAATGGCA GTTCCTATTCCAGTGTGGAGTCTACTATGGTATCACAGTCACAAGTGCAGCAGCAAAAGCAGCATGTTGGTGGGCAAAGT CATGTATTGCAGAACCTTGGAAGCAGCCAAATGAGTAGTGGAATGAGATCTGGTTTGATACAGAAACCATTTGCAAACTC AAATGGTTCTATAAATAGTGGGCTAGGTTTGATTGGAAACAATATTCAACTTGCAAATGAACCTGTCACTTCGGATGGCT ATGCCTCAACTTACGCTAATTCCCCTAAACACTTACAGCAGCATTTTGATCACAATCCGAAACCACTAGTGCAGGGTAAT CTTTCTTACTCCTTTCTTACTCCTTTTTCTACTTTATGAAGGAATGTTCCTAAGACTTATATATCCCTCAAGCACCTTTG TTGAGTTGTATAACCTTTTTGGTTACGTGTTGGTTGGTGGGTTTAGTCTATCTCTCTGCACATGTGCTTTACATTTTGTC CCTAGAAGTTGACTTCTCTCTTAATGGGTCACAATTTTATTTTCAGGTGATGGGTATGGATTGAATAATATTGACACTTT CTCTTCTGGAAGCTTTTATGCATCTGGGACATCCTCTGGGTCTATGATGAACACTCAGAACACAAATCCAGTAAAATTGC CGTCAATACAAAAAAATAGCTCATTGATTAGTGGTCACACAAATTTGCATGGTATGCAGCAGGCTGCACATATGAAGTCT CAAACAATTAATCAGTTGGAAAAGTTGAATTTTCAGTCTTCATTGACTTCAAGAGATGCTCTTATGCATTCTCAACAGCA GTATCAACAAAGGCCCCAGCAATTTCAACAGCCTGAGCACTATGCGCAGCAACAATTTCAATTGAAGCTACAGAGTCAAC AGCCTCAGCATTTGGTCAACAATGATGCTTTCAGTCAGTCTCAATTGTCTTCCAATCTAGAAAACCAAGTTAAGTCTGAG CTAGGAATTGAACACCATAAAGAAGTGCTCAATTCTCATGTGTCTGAACAGTTCCATATGTCTGAGATGCAGAGTCAGTT CCAGCCGAACTCATCCGAAGACTGCTCTAGGAATGCTCAATATCTTACATTTCCATCTGGTCAGCATGATTTAGCATCAT CAACACCTCAAAATTCGCAACAAATGTTACATCCTCATCAATTGGTTGCAGAGTCTCAAAATAATTTAAGCTGTGTAACA GTTGGGGCCCAATCCAAAGCGGTAGCTCTAAACCAATGGCCTCAATCACAAGATGGTGACCGCATGCCTGACAATAATTC ACATGACCAGAATCTCCACATGGACTTTCATCAAAGAATATCGGTGCAGGATGAAGCTCAGTGCAATAATTTATCATCAG ATGTTTCCAATATTGGTCAAGCTGTTGCTTCTAAAGGCTCAACTGAGGTGCTAGACTCAGGCAGTACTGTCAAAAAGGCG CACAGGAATCAACAGAGATGGCTTTTATTTCTACTTCATGCTCGTCGATGTTCTGCTCCTGAAGGGCGATGCCAAGAACG CTTTTGTTCTATGGCGCAAAAGTTATGTAAGCACATAGAGGGATGTACCCTGCGACACTGTCCATATCCTCGTTGTCACC ATACCAGGGTATTGCTTCATCATTTCATAAACTGCAAGGATCCTCATTGCCCTGTTTGTGTTTTTGTAAGAAACTATCGA CGTGCATTTCAATTCAAGCCTCAGATTCAGCCGGAACGTGGATCAAGTTTGCCAAGCACAGTGAATGGCTCCTGTAAATC TTACAATATGATACCTACATCACCTGGATTGATCTCAAAGCCTCCATCGATTATTGAAACTGCAGAAGACATGCACCCAT CTCTAAAACGCATAAAGATTGAGCATAACACCCAGTCCATCAATCCTGAAAATGAGAATTCTGCTTCTTCTGTTCCTGCA AATTTTGAATCCCTTGTTTCCAGGGATGCTCAGTTCCAAGCCTATCCCAATACTGAGAAGAGTGTCTCAATTAAACCTGA GCTTACAGAAATTAAGGCGGAAGTTCCGGCACATTTGGCGCATGGAAAGCTGAGCAAGATGAAGATGGATGATAATAATG TGAACGAAAAAAGGCCTGATTGTGAACCTGTCAAATATGATGAACCTGGTAATTTAGCTAGGCAAGAGAGTATAAAATCT GAGAAAGAAGTTGGACATGATAAGCAAGAAAATGTGATGCAGCAATCTGAAAATGCAGCTGGAACCAAGTCGGGTAAGCC AAAAATAAAGGGGGTCTCATTAACTGAATTATTTACTCCGGAGCAAGTCAGGGACCATATCACTGGCCTCAGGCAATGGG TTGGCCAAGTAAGTCCTTTCTATTTTTGTGCCATCTTTTTACAAGAAAAAGTTTTAAGTCAATTGGTTTAGTATTCTTCA TTAGCATGAACCAGTTCCATCATGCTTTAGATTCTGCTGAGCTTTATTCAGTTTGTATGTTTCTACTTGATTATAGCACC AAAGAACTGTATATAAAGCACACTGCCATAACAATCCTCCTTTATCTTACCAAATGCTATGAATCTAGTAAATCTTAAGA AACAAATTCTGGAGGCAATGATTGCATATCGCAGTGTGAATCTAAAATGAACCTAAATCTCATTTTGTTTCACCAATTCG GAGCTAAATCTAACGATTCGTGATTCACTGCTGAATCTTATGATTCAAGTTATGTGCAGGTTGCACTTTAGTCCGGTTGG GTTGCGTAATAGGTTTCTGGTGCTTTTTGGACTTACTTTTTTAAGTTTTTTTTTGTTTTTTTACAAAAAAGGCCAGAAAT AGTTGACTAATGTTCCTCTAAGAGACCCACGTTGCATTTCAATTCAAATCCTACTTTGGTCATCACTACCATCGGTTCAT GTGACATTTCAGGGTTAACTAATAGTTAGATTATTATTTTTTACTAGGATCTTAGTATAGGAAGTAGGAATGTAACTTAC ATTTTGTCATCTTATTGATGTTTTTTAGGGGTTGAAACTTTGTGCAAGCACCAACTAATTTTCTTCTTATTTCGATTTAT GGCATGGATCTTATTATTTTAAGGTTTCTTGTATGATATGTCAGCTTATGTTTCAATTTGTAACTTGATATTTTTGTATC ATATATCTTACGCTACATAAAAATATTTGATTCATGTTTCGGAAAATAAGTCTTCCGATTCACAACTCGAATCTCCATTC AATAACCATAATCTAGTTAAGAGAAATTTCTCCAATCTGTGATTGGTATTCCCAAGATTCACCATACGAAGTCCACCCTC TGAATATATCAGCTGGACAAACTTGGAACTGTTCTTATTATGCTAATGAAGGACTTGGGTTCCTAGTCTATTTACCTTTA GCACATACTTTTAAATAAGTAGACTATCTTTGTTTCTTACATAACCAATTTTATGATCTACTGGACTTTGTTTTTGGGTG CATTTAATATAAAAGCTACTAGGTTCCATTACTTGAATTGTTCAAAATAGGACGTAGTGGAACCAAACATGATGGAATAC ATTCCACTCCAACATTGTCAAGCAACCACTTATCCCAAAAGCTTAAGTTGTTGGGTAAGGGCCACATTAATGGTTTTATA TTATATTCTAACATGCCCCCTCACGCAAGAGCCCTTCGGGCTTGAAGCGTGGATATGCACAGGCCCACCTACCATGTGCT TAATTAAATTCCACTTTTTAATTAGAAAGTGAGGGGAGCAAGGAACGAACTCTAGACCTCCCAAAAGCTTAAGTTGTTGG GTAAGGGCCACATTAATGGTTTTATATTATATTCTAACATTATATACCCAAGTCCAAGTCCAACATAAACCTTGATTAAA TAATACACTCAACTTCATGAAACCCTTTTTGGTAATATTCACATTTTTTATCCTTAGATACTGTGTACTTCTAAAAAAAT TGTAATCCTGGGAGACTAATTCAACCATATGTTTCTTTCTTCTAAACCCTCAGATGAAGTGGTCAATCGAAGTACATGGT CCTTAGATACTGTACACCTAATGAACTTCCTAGCAACTCATTATTTTATATGCTAGGTTATGTTATTTTGTCTCAAGCTG AGAGTGATAGACATAGCATTATGTTTTTTTTTTTTTTTTTTTTAATTTTTCATTTGCCATATCTCATGCATTACATTTCA CTTGTTGTCTCTGTGGTTAGTCTGGTATCACCTGATAACATTACGCATCATTTTCCTGTGACAGAGCAAATCAAAGGCAG AGAAGAATGCAGCGATGGAGCACTCTATGAGTGAGAATTCCTGTCAACTATGTGCTGTAGAGAAGCTTACTTTTGAACCG CCACCTATTTATTGCACAACTTGTGGGGTTCGAATTAAACGAAATAATATGTATTATACCATGGGTACTGGTGACACAAG GCATTATTTTTGTATCCCATGCTATAATGATACTCGTTCAGAGAACCTCATGGTTGATGGGACTCCCATTCCTAAGTCAA GATTGGAAAAGAAGAAGAACGATGAGGAAACTGAGGAATGGGTGCGTGCTATATCTGTCATTTTGTTGGTTCGTCAACAG TTTATTTTTTTATTTAACATCTATCTTTCGTTTGCAGTGGGTTCAATGTGATAAATGTGAAGCTTGGCAACATCAAATTT GTGCCTTATTTAATGGTAGAAGAAATGATGGTGGGCAAGCTGAATACACTTGCCCTAACTGTTATCTTGAAGAGGTAGAA AGAGGAGAGCGCAAGCCCTTACCCCAAAATGCTGTTCTTGGAGCCAAGGATTTGCCGAGAACGATTCTCAGTGACCATAT AGAGCAGCGATTGGCTAAACGGCTAAAGCAAGAGAGAATGGAGAGGGCAAGGGTTCAAGGGAAAAGTTATGAAGAGGTGA TTAGTATACTAGTTGGCAGTAATATGTTTGTCAACTTATTTCAGTGTTAATTCATAATTTTTGTTAATACATTTTAGTTC TTTACTTTTTCACATTCATGTTTTTATGTTAATACTTAGTTGGACATTATGATAACACTTCTTGGTTTCCATGGATTACT GATGTCATTTTCACTTGGATAATATCAGGTTCCTGGAGCTGACTTTCTTGTCATCAGAGTGGTTTCATCTGTTGACAAGA AGTTAGAAGTGAAGCAGCGGTTTTTGGAGATTTTTCAGGAAGAAAATTACCCAACTGAATTCCCATATAAATCCAAAGTA ATATGGAAGTTGCTTCAGTAGTTCTGGTGGTAATTTAATCATTATTGTAAATTATAAATATTGATGTGCTTAACTTTCTA TTCCAGGTAGTTTTGCTTTTTCAAAAGATTGAAGGTGTGGAAGTATGCCTATTTGGCATGTATGTTCAAGAATTTGGAGC TGAAGCTCAATTTCCCAATCAGCGCCGGGTGTATCTTTCATATTTGGACTCTGTGAAGTATTTCAGACCTGAGGTTAAAG CAGTGACTGGAGAGGCACTTCGAACATTTGTTTACCATGAAATTCTGGTAAAACTTTATTCACTTATATCTTGCTTTGGA ACCCTTTGATGTAGATATCTCATTTCTAGCTTATTATCATCCTGTAAAGTATATATTGTACAATAGTTGAGTAATTTTTT CATTAATTTATTTTTTTGAAGATTGGATACCTTGAATATTGCAAGTTACGTGGTTTCACAAGCTGCTATATATGGGCTTG TCCTCCATTAAAGGGTGAAGATTATATTTTATATTGCCATCCAGAAATTCAGAAAACACCAAAATCTGATAAGCTTCGTG AATGGTGAGCAAAAGAGCTTCGGTATAATCAAAAAGAGGAAGAAAAATTGTCTAATTATTCTACTTGTACAATGTGATAT AGGTTTATGTCTCTCTAATTCTAGTATTTGTGAACACGTTCCATCAGGTATCTATGCATGCTAAGAAAAGCTGCTAAGGA GGGTATTGTGGCCGATATCACAAACTTGTTCGATCATTTCTTTGTATCTAATGGTGAAAGCAGAGCTAAGGTTACTGCTG CAAGACTGCCATATTTTGATGGCGACTACTGGCCTGGAGCTGCAGAGGATTTGATTTATCAGCTTCGCCAAGAGGAAGAT GGAAGAAAACAAAATAAAAAAGGAACAACTAAAAAGACTATAACAAAAAGGGCTTTAAAAGCATCTGGTCAGTCAGATCT TTCAGGAAATGCATCAAAAGATCTGCTCCTCATGCACAAAGTAATTCATCATTTTAAATATATAAATTTTTATCTTCTGA GTTAATGTCTTCCCTTGCAAATCATTTTTAAATTATTGGATATGTTATACTATGTGACTGTTTTCAAACATTATCATCTT CTCCTTACTTAGCTGCTTAATATTTATTGGTCAGATTTCTTGTGTAATGATTTAATTCTTATGACGTCCATTTTCTTGTT GCAGCTTGGTGAAACCATTAGCCCGATGAAGGAGGATTTTATTATGGTTCATTTGCAGCATGCATGCAGCCACTGCTGTA TTCTAATGGTGTCTGGCAACCGTTGGGTTTGCAACCAGTGCAAGAATTTTCAGATTTGTGATAGGTAAGGTTCTTCAATC TTGTCTCCATGTTTTGATGTAAAAATTGTTATTTTTCCCAATCATTTGGTTTCATTTATGTGTAATGTCTCGGTGCCCAT ATTGCGTTATATTCGTGTCTCATGTCTTGGAATAGGCTTCAGTAGGGCCTTTTAAGCTTTGCAATTTGTAAACTATCATT CATTATTATGGAGAAAGAGGTAATGGAAGGTGGTGGTGGAGCACTTAGAACCCGTTTGGATGCGCATCAAAGAGCACTTT TTGGAGCTTATCCAGTGCTTTTTATTCAGTAGATAAGCTCCAATAAGTGCTCTTTGGTTCAAACCCAAATGGGCTCTTAC TTGCAGAAAGCTAGATTTGTCCTTTTTGTTTGTTTGTGATTTTTCTTTTCCCTTCCAAGCGATTCAAATTCTGCACTGTT GCACAATTCACATAGTGAAGACCATATATTTTGATCTCCTGTTTAGTGTTATTCGTATTTCTTTTCAATGATGATGTTGG ATAGAAACTACTTCTCTGCAACTGAATTTAGCCCTCCTTCCCCCTCTCCCTTATTCTTCTCAGTAGTTATGCTTGTCTTC TCAAGTACTAGTTTCACATCTCAATTCTCAACACCTCCTTCTTCTACGATTTCTTGTGGGGGAAATAGTCTCTCACCCAC CACCTATCACCCGACTCCCTCAACAACAAGAAGCCACAAATCTCCAAACAGCTGACTCTTCAACCATGAAAGTTCCACAT AATCCCCCATGAAAGCCGTCAGCCTACTTTGAATCGTCTTGACTTGACAAAACTCTTTATTTGTCACTCATGTATTTATT TTACACTTCTTTCTTTCAGTGTTTTCCTACCTAGCCCTAGTTGCATCATTTGGACATACATTAACCCACTAACCAATGGA GCCTTAATCAGCAACCCACCCAGTCCTTAACCCAGCATGTGCAAAAGAAAATGACTTCAACTATGTGATAGTTTTGTGTT TGTCTTTGTGTTTTCCACCCTTTTTATTGCATTTAGGTTAGAGTTTGTGATATTTTCAGTAAGTTTGGCGAGTTAGAAAA TGTTTGAATTATGCTTATTACTTTTTATATAAGTTGCTAGAATTACATAGGAAAAAAAGACGTTTTTAGTCCCTGTTATA TTCGTTTTAGTCCCTATAAAGTTCTATTCGTTTTTATTTCTTAGAAAACACAAAAGACACATGACTTTTGTTTTCTCTAA GCTAAGGACAAGAAATGAATAAAATTTTTCTAGGGATAAAAAATTAATAGTTTTTAAACATGGACACATGGCTTTTGTAT TCTCTAAGGACAAAAAATGAATAAAATTTTTCTAGGAATAAAAAATTAATAGTTTTTAAACATGGCTGTCATGTGTCTAT TGTTTGCCGCCACAATCCCATCCATGATGACCTGGCCGATTTTTGGCTTGTCACCATCTGAAATTCGTTGTAGATTTGGA TCTGAACAATATTGAAAGTTGCATTCTGCTTTAGCCTGTAGATATTGTCATAGTAACAGTTATTGTAGCTTAAAATCATG CTAGCCTTATTATCTCATTAGTATTTATTGTTCATATTCCTTTTATGACCTTCCCCCTTTTATTTATGTGTTGCCAAAGG ACCACTTTCAAGCTCAACAAATCAATTTTTAGTTACTCATTCTGTCTTGCCTTTTCTTAGGTGTTACGAAGTAGAGCTAA AGCGTGAAGAGAGAGAAAGACATCCTATTAATCAGAGGGAGAAACATGCTCTTTATCCGGTAAGTAGGTCTAATTTTGGA ATATAAACGAGTTTATCTGCATTGGTTTGTTTCTTTTGTACTTCTGTGAGATTCTGTTAGCACTTGACTGTTAATCGTCT TAATGTCTCTCTAATTCCTATATTGAGGAATTAAGGTGTTACTTGTTGGACAAATTATGGATTCTTAAATTTTAACAGGT ATATTGATATGTTTGGGGTTTCTCAAACATTTTACATTAATTAAGTGACTTCAGTGAACACTTGGCTGAGTATTTTTGCT TTAGCTTTTTTTGTTTTCCTTCTAAATTTAAAGCTAAACTTACTATCTGAAGCCAGACAATCTTTTAATGACTACTCATT ACTCATTAGTAGTTCGAAAATTTTGACTCACATTATCTTGCAGATCGAAATTACTGAGGTACCGTCCGATACAAAGGACA AAGATGATATTCTTGAGAGTGAATTCTTCGACACCAGACAGGCATTCCTGAGTCTTTGCCAGGGGAATCATTACCAGTAT GATACGCTAAGGCGGGCCAAACATTCTTCTATGATGGTCCTCTATCATCTTCATAATCCAACTGCTCCTGCATTTGTGAC AACTTGTAATATATGCTATCTTGACATAGAAACTGGTCAAGGTTGGCGTTGTGAAGTTTGCCCTGAGTATGATGTATGCA ATGCTTGTTATCAAAAGGGTGGCATTGATCATCCTCATAAGTTGACAAATCATCCGTCAATTGCGGATCGTGATGCTCAG AACAAAGAAGCAAGGCAGATGCGAGTATCACAGGTATTCTGCAACATTTATTTTTTCTTCTGTAGATTGAGCTACAGCAT TCTGTGTGCTTATATCTCACTTGTTTATATTGTATAGTGTATAGTGAGAAAATGTATAAAACTGCGCTGAGCTTATGCCT TCTGTAAATAGGCAATGTTAATCTTAATTCATCATATTAATCTCTAAACTGTTCCTAATTAATCTCTAAACTACATAATA GGTCCTTATGTCCACTGGAGTTAACTCACATGGTTTAATAAATCCAATCCTAACCATCGATTCATATGAAGTCTCTAACC ATTGATTACCATTTTTTATTTTAATGAATTATAATTGTAGTTTCTTAAATAAAAACAAATAGAAAACAAAAGAAAGAACA AGAGTATGCTCAATTGCTCATCCTCTACCATTCTTCAACACTTGATAAAGATACCAACTTGAGTTATACTTATTTTTCTA CTCTATATTCAATCTCTATTTGAACCCAACCATCTTCTTGGGTTTCTATTCTTATTCAATTATAACTAATACTAGGTTGG GTGATGGCTAGAATACTGAAAACACAACTCTTCTTTAATAATATGTCTTTGTTCAACAACCAGCGGGGTAAAATACTGCA ACAACCTGACCTGAGGAGTTAATAAATCCCAAGTTAGAGTTTGTAAGTATATTAGAAATTCTACAGGGTTTGCCGATGTA GTCCTACTTGTTTTTTAGAAGTATGATAGCAACCTATGCCTTTAGGACTTAGGAGTATGCTAATTTTTTTTTTCAAGGTG TGACTTTTTTAAAAAGTCATGTGAAAAATCACATGATGTTTTAAGTGGTCACATGAACCGCCACAATTTATTCCCATCAT ACTCATAAAAAAAAAAATTTATTCTCATAATATACAAACCCCCCCCCCCCACACACACACACACACACACACACATATAT ATATATATATATATATATATATATATATATGTTAGAGGACTTATCGTGTGTTGGTAACTGTGATGGTTCCATCATTAATC ATTGAACTATTTATATTCGATGGATGAAAAGTGTGAAAATGTATGCATGCATATTTGTCAACTCATGGTCAGTGGAATGC CTCTTTTGCTTTTTAGAAGCATTGTTTTTTTACTTTCTCCCATCATGTCATATTTTTAGTTTTTGTTGGCTGTTGGTCAC TTCTACTGTTCATATTGTGTTTTCAAATTTTGTTGGCTGTTGCTTGCTTATCACCACCATCCTTGGTGTAATATGTGATG CATGTGGATTGTGTAATTACAGCTACGGAAAATGCTTGATCTCCTTGTGCATGCGTCCCAATGCCGTTCGGCACATTGCC AATATCCAAACTGTCGCAAGGTGAAGGGGCTCTTCCGCCACGGGATGCACTGCAAAACGCGTGCTTCTGGAGGTTGCGTC CTCTGCAAGAAAATGTGGTATTTGCTTCAACTTCATGCTCGTGCTTGCAAAGAATCTGAATGCCATGTACCGCGATGCAG GTTTGTGGACCAGGCACTGCCATTATACTAAAGTGACTCTTTATAGATTTTGCATGTGTTAACATTTGTGTTTTTTTTGG GGGATGAAATCAGAGATTTAAAAGAACATTTAAGGAGGTTACAGCAACAGTCTGATTCACGGCGTAGAGCTGCTGTAATG GAAATGATGAGGCAGAGAGCTGCTGAAGTCGCCAACAATGCTGGATGAGCAATGTGTACATGTAAATATGGGGTGCTTTG AAGAGATGTTCTAGACAGACAGACAGGTGCAGCGGCAGTGGTTGTTTTTGTGAATGCAAAATACATCATAGGTATACGTA GCTTTGCAGGTAACAGGTTCGCTGGCTTATCTGTCTATCTCGCTCTGCATGATTGTCCCAAAGGTATGAGGTTCAGCCAT CTAATGCAGCTGCTGCTACCCTCTTCTGCAAGGACTAACCTGGTCCAGCGGGTTATTATTAGGTGGGGTTTTCTCTTTAG TGATTCTTTGATTTGGTCAAAGTTACTTGTATTATGTCTTATGCGCCACTCTCCACCCTTGGAGGGTGGCGGGTGTACTA TAGTTCGGATTAGTCTCAGAGTTCTTACAAATATTTGTGGGGGGAGGTTGGTTGGTGTTTAGTTTGCTCTTTTATAGATT CACTGCATTTTGTAGAATCTTTTTATTTAAAGGTGAAAGTAAATAATTAGAATTTTCGCGCATGGCGATTCATAATTCTG CATCTTTAAAGTTAGTA
CDS sequence (LotjaGi3g1v0338000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAGTTGCAGGCGCATATGACGGGGCAGATATCGGGACAGGTACCCAATCAAGCAGGGTCTCAGATGCCTGGACTGAC CCAAATGAATGGGAATGCCCTCCCTCCACAGATGCCACCTTTAGGTGGTATGCAGCGATCAGCGATTAATATGGACCCTG AATTTCAAAGAGCACGCGCGTTTATTCAAGAGAAGATTTTTGAAACGTTATTGCAACGACATCAGCAGCCAGTTTCAGAA GTACAGAGAAGGAAGCTTAAGGATCTTGCAAAACGCCTGGAGGAGGGCATGGTAAAAGCTGCTCTATCTAAGGAGGACTA CATGAACTTGGATACACTAGAGAGTCGCTTATCTAATTTGATCAGAAGAGCGTCTATGAATAATCACAACCAACAACAAT ATCAGCAGCATGTTAGCTCTTCTCCAATCGGTACAATGATACCAACCCCTGGTATGTCGCACGTTCCAAATTCAAGCATG GTGGTTTCGTCTACAATGGATGCCTCTGTGATTTCTGCCAGCGGGGGTAATAGCATGGCATCGACATCTTTCAATAGTGT AAATATGTTACCAGCTGGTGGCATGCTTGGCAGCTCCTTAAATAGATCTGATGGTTTGTCTAATGGATATCAGCAATCAT CTACCAACTTTTCTGTTGGCTCAGGGGGAAACATGTCAACGATGGGGGTGCAGCGGATTGCAAGTCAGATGATTCCCACT CCGGGATTTACAGTCAGCAGTAATCACTCTCACATGAATATAGATTCTTCTGCTAATGGCAGTTCCTATTCCAGTGTGGA GTCTACTATGGTATCACAGTCACAAGTGCAGCAGCAAAAGCAGCATGTTGGTGGGCAAAGTCATGTATTGCAGAACCTTG GAAGCAGCCAAATGAGTAGTGGAATGAGATCTGGTTTGATACAGAAACCATTTGCAAACTCAAATGGTTCTATAAATAGT GGGCTAGGTTTGATTGGAAACAATATTCAACTTGCAAATGAACCTGTCACTTCGGATGGCTATGCCTCAACTTACGCTAA TTCCCCTAAACACTTACAGCAGCATTTTGATCACAATCCGAAACCACTAGTGCAGGGTGATGGGTATGGATTGAATAATA TTGACACTTTCTCTTCTGGAAGCTTTTATGCATCTGGGACATCCTCTGGGTCTATGATGAACACTCAGAACACAAATCCA GTAAAATTGCCGTCAATACAAAAAAATAGCTCATTGATTAGTGGTCACACAAATTTGCATGGTATGCAGCAGGCTGCACA TATGAAGTCTCAAACAATTAATCAGTTGGAAAAGTTGAATTTTCAGTCTTCATTGACTTCAAGAGATGCTCTTATGCATT CTCAACAGCAGTATCAACAAAGGCCCCAGCAATTTCAACAGCCTGAGCACTATGCGCAGCAACAATTTCAATTGAAGCTA CAGAGTCAACAGCCTCAGCATTTGGTCAACAATGATGCTTTCAGTCAGTCTCAATTGTCTTCCAATCTAGAAAACCAAGT TAAGTCTGAGCTAGGAATTGAACACCATAAAGAAGTGCTCAATTCTCATGTGTCTGAACAGTTCCATATGTCTGAGATGC AGAGTCAGTTCCAGCCGAACTCATCCGAAGACTGCTCTAGGAATGCTCAATATCTTACATTTCCATCTGGTCAGCATGAT TTAGCATCATCAACACCTCAAAATTCGCAACAAATGTTACATCCTCATCAATTGGTTGCAGAGTCTCAAAATAATTTAAG CTGTGTAACAGTTGGGGCCCAATCCAAAGCGGTAGCTCTAAACCAATGGCCTCAATCACAAGATGGTGACCGCATGCCTG ACAATAATTCACATGACCAGAATCTCCACATGGACTTTCATCAAAGAATATCGGTGCAGGATGAAGCTCAGTGCAATAAT TTATCATCAGATGTTTCCAATATTGGTCAAGCTGTTGCTTCTAAAGGCTCAACTGAGGTGCTAGACTCAGGCAGTACTGT CAAAAAGGCGCACAGGAATCAACAGAGATGGCTTTTATTTCTACTTCATGCTCGTCGATGTTCTGCTCCTGAAGGGCGAT GCCAAGAACGCTTTTGTTCTATGGCGCAAAAGTTATGTAAGCACATAGAGGGATGTACCCTGCGACACTGTCCATATCCT CGTTGTCACCATACCAGGGTATTGCTTCATCATTTCATAAACTGCAAGGATCCTCATTGCCCTGTTTGTGTTTTTGTAAG AAACTATCGACGTGCATTTCAATTCAAGCCTCAGATTCAGCCGGAACGTGGATCAAGTTTGCCAAGCACAGTGAATGGCT CCTGTAAATCTTACAATATGATACCTACATCACCTGGATTGATCTCAAAGCCTCCATCGATTATTGAAACTGCAGAAGAC ATGCACCCATCTCTAAAACGCATAAAGATTGAGCATAACACCCAGTCCATCAATCCTGAAAATGAGAATTCTGCTTCTTC TGTTCCTGCAAATTTTGAATCCCTTGTTTCCAGGGATGCTCAGTTCCAAGCCTATCCCAATACTGAGAAGAGTGTCTCAA TTAAACCTGAGCTTACAGAAATTAAGGCGGAAGTTCCGGCACATTTGGCGCATGGAAAGCTGAGCAAGATGAAGATGGAT GATAATAATGTGAACGAAAAAAGGCCTGATTGTGAACCTGTCAAATATGATGAACCTGGTAATTTAGCTAGGCAAGAGAG TATAAAATCTGAGAAAGAAGTTGGACATGATAAGCAAGAAAATGTGATGCAGCAATCTGAAAATGCAGCTGGAACCAAGT CGGGTAAGCCAAAAATAAAGGGGGTCTCATTAACTGAATTATTTACTCCGGAGCAAGTCAGGGACCATATCACTGGCCTC AGGCAATGGGTTGGCCAAAGCAAATCAAAGGCAGAGAAGAATGCAGCGATGGAGCACTCTATGAGTGAGAATTCCTGTCA ACTATGTGCTGTAGAGAAGCTTACTTTTGAACCGCCACCTATTTATTGCACAACTTGTGGGGTTCGAATTAAACGAAATA ATATGTATTATACCATGGGTACTGGTGACACAAGGCATTATTTTTGTATCCCATGCTATAATGATACTCGTTCAGAGAAC CTCATGGTTGATGGGACTCCCATTCCTAAGTCAAGATTGGAAAAGAAGAAGAACGATGAGGAAACTGAGGAATGGTGGGT TCAATGTGATAAATGTGAAGCTTGGCAACATCAAATTTGTGCCTTATTTAATGGTAGAAGAAATGATGGTGGGCAAGCTG AATACACTTGCCCTAACTGTTATCTTGAAGAGGTAGAAAGAGGAGAGCGCAAGCCCTTACCCCAAAATGCTGTTCTTGGA GCCAAGGATTTGCCGAGAACGATTCTCAGTGACCATATAGAGCAGCGATTGGCTAAACGGCTAAAGCAAGAGAGAATGGA GAGGGCAAGGGTTCAAGGGAAAAGTTATGAAGAGGTTCCTGGAGCTGACTTTCTTGTCATCAGAGTGGTTTCATCTGTTG ACAAGAAGTTAGAAGTGAAGCAGCGGTTTTTGGAGATTTTTCAGGAAGAAAATTACCCAACTGAATTCCCATATAAATCC AAAGTAGTTTTGCTTTTTCAAAAGATTGAAGGTGTGGAAGTATGCCTATTTGGCATGTATGTTCAAGAATTTGGAGCTGA AGCTCAATTTCCCAATCAGCGCCGGGTGTATCTTTCATATTTGGACTCTGTGAAGTATTTCAGACCTGAGGTTAAAGCAG TGACTGGAGAGGCACTTCGAACATTTGTTTACCATGAAATTCTGATTGGATACCTTGAATATTGCAAGTTACGTGGTTTC ACAAGCTGCTATATATGGGCTTGTCCTCCATTAAAGGGTGAAGATTATATTTTATATTGCCATCCAGAAATTCAGAAAAC ACCAAAATCTGATAAGCTTCGTGAATGGTATCTATGCATGCTAAGAAAAGCTGCTAAGGAGGGTATTGTGGCCGATATCA CAAACTTGTTCGATCATTTCTTTGTATCTAATGGTGAAAGCAGAGCTAAGGTTACTGCTGCAAGACTGCCATATTTTGAT GGCGACTACTGGCCTGGAGCTGCAGAGGATTTGATTTATCAGCTTCGCCAAGAGGAAGATGGAAGAAAACAAAATAAAAA AGGAACAACTAAAAAGACTATAACAAAAAGGGCTTTAAAAGCATCTGGTCAGTCAGATCTTTCAGGAAATGCATCAAAAG ATCTGCTCCTCATGCACAAACTTGGTGAAACCATTAGCCCGATGAAGGAGGATTTTATTATGGTTCATTTGCAGCATGCA TGCAGCCACTGCTGTATTCTAATGGTGTCTGGCAACCGTTGGGTTTGCAACCAGTGCAAGAATTTTCAGATTTGTGATAG GTGTTACGAAGTAGAGCTAAAGCGTGAAGAGAGAGAAAGACATCCTATTAATCAGAGGGAGAAACATGCTCTTTATCCGA TCGAAATTACTGAGGTACCGTCCGATACAAAGGACAAAGATGATATTCTTGAGAGTGAATTCTTCGACACCAGACAGGCA TTCCTGAGTCTTTGCCAGGGGAATCATTACCAGTATGATACGCTAAGGCGGGCCAAACATTCTTCTATGATGGTCCTCTA TCATCTTCATAATCCAACTGCTCCTGCATTTGTGACAACTTGTAATATATGCTATCTTGACATAGAAACTGGTCAAGGTT GGCGTTGTGAAGTTTGCCCTGAGTATGATGTATGCAATGCTTGTTATCAAAAGGGTGGCATTGATCATCCTCATAAGTTG ACAAATCATCCGTCAATTGCGGATCGTGATGCTCAGAACAAAGAAGCAAGGCAGATGCGAGTATCACAGCTACGGAAAAT GCTTGATCTCCTTGTGCATGCGTCCCAATGCCGTTCGGCACATTGCCAATATCCAAACTGTCGCAAGGTGAAGGGGCTCT TCCGCCACGGGATGCACTGCAAAACGCGTGCTTCTGGAGGTTGCGTCCTCTGCAAGAAAATGTGGTATTTGCTTCAACTT CATGCTCGTGCTTGCAAAGAATCTGAATGCCATGTACCGCGATGCAGAGATTTAAAAGAACATTTAAGGAGGTTACAGCA ACAGTCTGATTCACGGCGTAGAGCTGCTGTAATGGAAATGATGAGGCAGAGAGCTGCTGAAGTCGCCAACAATGCTGGAT GA
Protein sequence (LotjaGi3g1v0338000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKLQAHMTGQISGQVPNQAGSQMPGLTQMNGNALPPQMPPLGGMQRSAINMDPEFQRARAFIQEKIFETLLQRHQQPVSE VQRRKLKDLAKRLEEGMVKAALSKEDYMNLDTLESRLSNLIRRASMNNHNQQQYQQHVSSSPIGTMIPTPGMSHVPNSSM VVSSTMDASVISASGGNSMASTSFNSVNMLPAGGMLGSSLNRSDGLSNGYQQSSTNFSVGSGGNMSTMGVQRIASQMIPT PGFTVSSNHSHMNIDSSANGSSYSSVESTMVSQSQVQQQKQHVGGQSHVLQNLGSSQMSSGMRSGLIQKPFANSNGSINS GLGLIGNNIQLANEPVTSDGYASTYANSPKHLQQHFDHNPKPLVQGDGYGLNNIDTFSSGSFYASGTSSGSMMNTQNTNP VKLPSIQKNSSLISGHTNLHGMQQAAHMKSQTINQLEKLNFQSSLTSRDALMHSQQQYQQRPQQFQQPEHYAQQQFQLKL QSQQPQHLVNNDAFSQSQLSSNLENQVKSELGIEHHKEVLNSHVSEQFHMSEMQSQFQPNSSEDCSRNAQYLTFPSGQHD LASSTPQNSQQMLHPHQLVAESQNNLSCVTVGAQSKAVALNQWPQSQDGDRMPDNNSHDQNLHMDFHQRISVQDEAQCNN LSSDVSNIGQAVASKGSTEVLDSGSTVKKAHRNQQRWLLFLLHARRCSAPEGRCQERFCSMAQKLCKHIEGCTLRHCPYP RCHHTRVLLHHFINCKDPHCPVCVFVRNYRRAFQFKPQIQPERGSSLPSTVNGSCKSYNMIPTSPGLISKPPSIIETAED MHPSLKRIKIEHNTQSINPENENSASSVPANFESLVSRDAQFQAYPNTEKSVSIKPELTEIKAEVPAHLAHGKLSKMKMD DNNVNEKRPDCEPVKYDEPGNLARQESIKSEKEVGHDKQENVMQQSENAAGTKSGKPKIKGVSLTELFTPEQVRDHITGL RQWVGQSKSKAEKNAAMEHSMSENSCQLCAVEKLTFEPPPIYCTTCGVRIKRNNMYYTMGTGDTRHYFCIPCYNDTRSEN LMVDGTPIPKSRLEKKKNDEETEEWWVQCDKCEAWQHQICALFNGRRNDGGQAEYTCPNCYLEEVERGERKPLPQNAVLG AKDLPRTILSDHIEQRLAKRLKQERMERARVQGKSYEEVPGADFLVIRVVSSVDKKLEVKQRFLEIFQEENYPTEFPYKS KVVLLFQKIEGVEVCLFGMYVQEFGAEAQFPNQRRVYLSYLDSVKYFRPEVKAVTGEALRTFVYHEILIGYLEYCKLRGF TSCYIWACPPLKGEDYILYCHPEIQKTPKSDKLREWYLCMLRKAAKEGIVADITNLFDHFFVSNGESRAKVTAARLPYFD GDYWPGAAEDLIYQLRQEEDGRKQNKKGTTKKTITKRALKASGQSDLSGNASKDLLLMHKLGETISPMKEDFIMVHLQHA CSHCCILMVSGNRWVCNQCKNFQICDRCYEVELKREERERHPINQREKHALYPIEITEVPSDTKDKDDILESEFFDTRQA FLSLCQGNHYQYDTLRRAKHSSMMVLYHLHNPTAPAFVTTCNICYLDIETGQGWRCEVCPEYDVCNACYQKGGIDHPHKL TNHPSIADRDAQNKEARQMRVSQLRKMLDLLVHASQCRSAHCQYPNCRKVKGLFRHGMHCKTRASGGCVLCKKMWYLLQL HARACKESECHVPRCRDLKEHLRRLQQQSDSRRRAAVMEMMRQRAAEVANNAG
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
PANTHER | 114 | 1732 | 1619 | 0.0 | – | |
PANTHER | 114 | 1732 | 1619 | 0.0 | – | |
MobiDBLite | 247 | 286 | 40 | - | – | |
MobiDBLite | 451 | 472 | 22 | - | – | |
ProSiteProfiles | 665 | 746 | 82 | 15.226 | ||
Gene3D | 666 | 772 | 107 | 1.8E-13 | ||
SMART | 668 | 746 | 79 | 9.8E-25 | ||
SUPERFAMILY | 669 | 750 | 82 | 1.57E-18 | ||
Pfam | 675 | 743 | 69 | 1.9E-12 | ||
MobiDBLite | 880 | 902 | 23 | - | – | |
CDD | 1028 | 1100 | 73 | 6.83378E-38 | – | |
ProSitePatterns | 1029 | 1100 | 72 | - | ||
Gene3D | 1050 | 1118 | 69 | 6.5E-8 | ||
Pfam | 1059 | 1101 | 43 | 4.8E-7 | ||
SUPERFAMILY | 1062 | 1102 | 41 | 9.52E-8 | ||
ProSiteProfiles | 1118 | 1554 | 437 | 144.372 | ||
SMART | 1151 | 1448 | 298 | 2.3E-117 | ||
Pfam | 1160 | 1376 | 217 | 7.6E-29 | ||
SUPERFAMILY | 1416 | 1486 | 71 | 2.24E-15 | – | |
ProSiteProfiles | 1435 | 1482 | 48 | 10.835 | ||
SMART | 1435 | 1479 | 45 | 0.02 | ||
SUPERFAMILY | 1537 | 1603 | 67 | 5.18E-15 | – | |
Gene3D | 1555 | 1603 | 49 | 2.3E-10 | ||
SMART | 1555 | 1600 | 46 | 2.5E-7 | ||
Pfam | 1558 | 1599 | 42 | 4.5E-7 | ||
ProSiteProfiles | 1560 | 1602 | 43 | 11.724 | ||
ProSitePatterns | 1561 | 1588 | 28 | - | ||
Gene3D | 1613 | 1728 | 116 | 7.7E-33 | ||
ProSiteProfiles | 1614 | 1698 | 85 | 12.609 | ||
SUPERFAMILY | 1617 | 1700 | 84 | 1.7E-22 | ||
SMART | 1618 | 1696 | 79 | 6.0E-36 | ||
Pfam | 1625 | 1695 | 71 | 2.6E-12 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Transcription coregulator activity | A protein or a member of a complex that interacts specifically and non-covalently with a DNA-bound DNA-binding transcription factor to either activate or repress the transcription of specific genes. Coregulators often act by altering chromatin structure and modifications. For example, one class of transcription coregulators modifies chromatin structure through covalent modification of histones. A second ATP-dependent class modifies the conformation of chromatin. A third class modulates interactions of DNA-binding transcription factor with other transcription coregulators. | ||
Molecular function | Histone acetyltransferase activity | Catalysis of the reaction: acetyl-CoA + histone = CoA + acetyl-histone. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. | ||
Biological process | Histone acetylation | The modification of a histone by the addition of an acetyl group. | ||
Cellular component | Host cell nucleus | A membrane-bounded organelle as it is found in the host cell in which chromosomes are housed and replicated. The host is defined as the larger of the organisms involved in a symbiotic interaction. |
Expression pattern of LotjaGi3g1v0338000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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