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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0362400 |
Transcript ID | LotjaGi2g1v0362400.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Auxin response factor; TAIR: AT5G60450.2 auxin response factor 4; Swiss-Prot: sp|Q9ZTX9|ARFD_ARATH Auxin response factor 4; TrEMBL-Plants: tr|A0A0R0HB03|A0A0R0HB03_SOYBN Auxin response factor; Found in the gene: LotjaGi2g1v0362400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:85978953..85991606) extracted from Lotus japonicus Gifu genome v1.2.
GGGGAAGGGTGGGTTGTGTACTGTCTTAGCCTGTCCCCTCCACCCAAAACACACACTCTCTCTCACTCTATCTCTAACAG TCCAAGTCCAAAAGCCACTACCCACATTGGCTTTTCTTGCCTTTTGTTTCTGTGCTTCCTATTCAATTGTCTATGTCTGC TACTTCTGCTCCCTCTTCACAGTACCTGCAAATGGGAGTGGAATCATATTTTGAATTTCTAGTTATTATTTGATACTTTT TTTTCTCTCTTTCCACCCTCTTCTCATCTTTAACCCCTGTCTGTCTTCTGTGTATCATTCTGAACATCATTACTTTGCTG TTTCCTGTTCATCTGGTGTGGTGCCCCTCTTTTTTCATGATTTGACCTCATTTCCATGATATCATAGCTTCCACTTTCTG GGTTTTCCCTTAAATTCATCAACTTGGTTGGTGACACTCTCTAAGTTGTGAAATTTTCTGTTGGAGTGTTTTGAGTTTCA CAAGTTACAGAAAACCAAGTTAAGTGAGTGTTCATGGAAATTGATCTGAACCATGAAGTGATTGAGGTGGAGAAGAATGC ATTGTGTGAAAGGGAATGTGGTTCTTGTGTTTGTTGTTTGTCCTCTTCAGCTTGTTCATCTAATTCTAGCTCATCTTCAC CTGGTGTGTCTTCTTCTTATCTTGAGCTTTGGCATGCTTGTGCTGGCCCTCTTACCTCACTTCCTAAGAAAGGAAATGTG GTGGTGTATTTTCCACAAGGTCACTTAGAACAAGTAGCTTCTTTCTCTCCTTTTGCCCCATTGGAGATGCCCACCTATGA TCTTCAGCCACAGATCTTTTGCAAGGTTGTCAATGTCCAGCTACTGGTGAGTACTGAACTGAATTCTGAATTCTCCTCTT GTGTTCATTGAATTCATATAAGGTTACTTTGGTTTTTGCTAAATTCTTATTTCTTCTAACAGGCCAACAAGGAGAATGAT GAGGTTTATACTCAGGTTACTTTGCTTCCTCAAGCTGAGGTTGGTTTTTGTTTTGAGTAGTTCTTTAGTTTGGTGTGTTT TTCTAAGCAAGTACTATGTAAATAATTAGATCCTTGTGAAGTTGAGCTTCTTTCACTGTTAATTAAGTTTAGAACTCTAT ATTTGTCTAAATGTGGAAAATAGCTTAAAATGTTAAATTTAATGCACCAGTTGTTTCTTTGCAACATCCCATGAAGCAAC TCTGAATAGACCTTGTTTTCAGTGTGCAGGGAAGCATTTGGAGGGGAAAGAACTTGAGGAACTGGGAGCAGATGAGGAGG GAGATGGAGGGTCGCCTTCAAAATCAACCTCTCACATGTTCTGCAAAACACTTACTGCCTCTGATACCAGCACTCATGGG GGGTTTTCTGTTCCTCGTAGAGCTGCTGAGGACTGTTTTCCTCCTTTGGTGTGACATCTTTCACTGGTCTTTCTGAACAT ATAGCATGTTTGTATCAATTTTCTTTTCTTTGAATCAATTATGAAATCCAGAAGCTACTCATAGAAACTTCTCTCCATGA TTTATTCTGGCTTTAGAATCAATTGTAGAAATATCTCCAAATATGCACATAGTACCAATTCTAAAGTTTGATTGTGAATA CTCCCTGAAATTGGTGAACTATTCCCTTGGCTTTTACAGGATTATAAGCAGCAGAGACCCTCGCAAGAGCTTGTTGCCAA AGACCTGCATGGTGTGGAGTGGAAATTTCGTCATATTTATAGAGGTAATGTGATTAGGAGAAAATGGACAACTACACAAG GTGTGGGCGTGTGGCGTCATATGTTGACTAATTAGCACAAATAATCAATCTGGTGATTTGTCAGGTCAACCAAGGCGGCA TCTACTCACTACTGGCTGGAGTATTTTTGTAAGCCAAAAGAATCTTGTTTCTGGTGATGCAGTGCTTTTCCTAAGGTATC TATCTATCTATTTGTGTGAGTGTGAGTTTGTGCATGGAGAAATTCTTGGGGTACTCCTGAGGCAAATTTGTTTTGTCTTC TAACCATTTAATGAACTATATTTTTAATGATAAAGTCTTGCTGCATCTAAGAATCTTTCATGGGCATGTTTGTATTGAAC TGGGACATTTTAATAGACATTAGTCCCCTGTAGAAAGTAATTTTATCTTTTTATCCAAATAAGTAATATTTTTTGGTGTG CTATTTAATATTCAAGAGCTTATTGTCTTGGTGAGCATTAAGTACCAAACTAGGTAAGAGAGCCAGGAAAAAGAAAATAT CTACACACAGAACATACCTCAAAAGCCATGGCTTCTTGTGCATGAAAATCAAGAATTTATGCCTTGCAAACTTTGAAAGC ATGAAAAATGAGTAATAATAATCTTTGAATGCCAATTGAATCAAACTTGAGATTCCAACTACACAGTCTCTAAGAAAGAG AAGTCTAAAATCGATCATTCTTATACCTTTCAAATCCTCAGTGCTTATTGTCTGTCTTCTGTAGGGGTGAAAATGGAGAA CTGAGATTGGGCATCAGAAGAGCTATTCGACCTAGAAATGGTCTTCCTGAATCAATTGTTGGTAATCAGAACTGTTATCC CAATATCCTATCTTCTGTGGCAAATGCTATATCCACCAGAAGCATGTTCCGTGTTTTCTACAGTCCAAGGTACTAATACT AACTGATCATCTCTTCTTGCTTTGCAAGATGTATGGAGCTCACGCTGCACTTATTTTTTATTTTGTTGTCAGCTGTCTCA ATATAAGTAAAATAAAACACTAGTTTCTTACTGTGTTATTATTTCAAATAATTTTGTCTATGCCGTGGCATGATGCAAGG TTGTGTTTGTGTGTGTGTGTGTGTGTGTGTAATAGCACTATGTCTATGACAATTGATAAGAATGATCTTGTGAAACTCCA ATATGTGAATGGAAAAAAATAGGAAACACTTTGATTTGGACAGAAATGTCCCTATCCTTCCTAGAAATTCAGATAATAAT ATCTTTACAGCTTACTTACTAGCCCTGGCCATAACCGTAAGTTCATAACCTATTTATTCAACCAATTTTCTCCTTTTCTG ATTCCTGACAAGTAGTGGTGGGAAATGGGTTCCTTCTACTAAGAGCCTTTAAAAAATAAACTAAATGCGATTCTTCCTCT GATTGGTCTTCTCATAAAAAAAATCTTTTGCCATAAGTTTTAATTTCGTATGGATGTAACTTCTTCCTTCTTGGAATGGT AACTCATGAGTCATGATTACTATGTGACTCTAGCAATAAATCTGTAATGATGTGTTTGAATTTGCTATAATACAGAGCAA GTCACGCAGATTTTGTTGTTCCCTACCAAAAATATGTTAAAAGCATCATGAATCCAGTGACCACTGGGACAAGATTCAAA ATGAGATATGAAGTGGATGAATCTCCAGAAAGAAGGTAAACCACAACATAATTATAAACCTTACCCCCATGCCCTCCTTG AAAAATGTTTCTTGCTAGTCACATTATGATTTTCCTATCTTGCAGGTGTAGTAGTGGTATGTTGATTGGAACGAGTGATT TGGATCCCTATAGATGGCCTAATTCAAAATGGAGGTGCTTGATGGTACATTTACAATTTTGCTTTACTACTATCATACTA TGCAGTATATGTTGACCATATTTATACATTTAGCTCTGAGTTAGTATATTTTTACCAAATTTACAATTTATATGATCTGT CAACCAGATATTATTAATGAGGAACTAACTCCATATATGTATGTGTGTGCGTGTGTAGTGATTATGATCTTTGGACCTTT CTTTTTTCTTCATTGTTTTCCTTTTTTCCCGCAGAGCAGACAATTTCTAGATCCTAATATATATATATAGTGTGTTGTAC GTATGTATATGTATATAATATATGTGTTTAGGCCTACTACTGCATGTGGATAAACTCGTATGGTGGTTGATCCAGCTTAA CCAATATATAAAGAGAGAGCTTTGCTGGCCATAGTGGTGTTACCTGGCTCAACAGCACACACAAAAAGCATCCCTGTTCG AGACACTTCAACAATTTCTGCAGCGAAAGATGAATATAAAAATGCTACATAAAGACAGAAATTGAATTTATAGAAATATT CTTAACATCAAAATGAATTATTGTGAAGCAAGCCACTTTATTTGTGAACCTCACAAAGGAACCTAACTTCATTTCCTCAA CTTTTCTACATAATATTTGCTTGCACATTCTTCATGTTTCATTCTAAATTGTTTTACATATGATGAGAAGTGATGATTTC AAAATCTAGTGTTTTTTAACTGAGTTTATGACCATATCATGATGGTTTCATTAATGCAAGCTTGCTGTGATATCCAACAG GTCAGATGGGATGAGAATATTGATGCTAATCATCAAGACCGGGTATCTCCATGGGATATCGATCCTTCTGGTCATCTGCC TCCCATGAACATTCAGTCTTCCCCAAGACTAAAGAAACTGCGGACCGGTTTGCAGGTTGCCTCACCCAGTCAACTCGTCA CTGGTATGAATCCTAATGCTGAGAGATAACTGAAGTGGCATAAATCCTTACTGCAATTCTTAACTTAATCTATCCTCCTA ATTGTACTTCTTTATTTCATTTTTGGCTTTTGGGTCGGTTGTGTGGCAGCAAGTGGCAGTGGAATGATGGGCTTTGAGGA GTCTGTAAGATCACCCAAGGTCTTGCAAGGTCAAGAAAATGCAGGTTTTGTGTCACTCTACTATGGATGTGATACATTAA CCAACCGGCGAGGTTTTGAGATGAACTCTCCAAGTCATCAAAATCTTGCATCAGCCGGAGTAGGAAAGGTTACTTCGACT GAGCTCATGAGTGTTCACCCTTTCAGTTATGCAGCAGGCTTTATGGAAACTAACAGCTTTCCAAGGGTCTTGCAAGGTCA AGAAATATGTCCAATGAAATCCCTGACAGGAAAGGTTGATTTGAGCCTTGGTGCTTGGGGAAAACCTAATGGAAGTTGCA CAACTTTCAACCTCCATCAGGCCACCAATCCCAGCTTTCCATCAGCATATTTTCCTTATGGGGATATTCACAATGTTGGT CATGCTAGCATGTTTGGCTCAAAACCCCCCACTTTCCAGAGAGAAAATGTCTCGTTTAACACGCCGTTCTCTCAGGCAGG GATCATTAGAAATGAAGTTGGACGATCAGATCTCCCAAATGAGCATAAACTGCAGGACAACATTTCTGTTTCTGCTTCAT TAGGGGGTGCTGATATGAGGATTCTAGATGATAACAATGTCAAGGCAAATGTAAACTCCTGTAAACTATTCGGGTTTCCT TTGTCTGGGGAAACTAGTCCCCAAAATTTACAGAACCCTGCTAAAAGGAGTTGCACAAAGGTGAGGGATGATAACAAAAT GATATTATGATATGCTTTTTTCTCTTTTGATGTTTCACCCACCCATATAACATACCCTGGATGAAGGTTCACAAGCAAGG AAGCTTAGTTGGAAGAGCCATTGATCTATCAAGATTGAGTAGCTACAATGATCTACTGAATGAACTAGAGAAACTATTTG GCATGGAAGGCCTTCTAAAAGATCCTGATAAGGGATGGAGGATCCTGTACACTGACAGTGAGAATGACATCATGGTTGTA GGGGATGACCCTTGGCAGTAAGTATTCTCTTCCTGGACTTAAGTGAACAATCATTAGAAATGCTTCCTTTCTACCTTTTA TTGTGTGTTTGGTTCCACATTTGGGAGCCTTAAAATCAATTCTCATTGACCAGAATCACTTTTAGGTGGTTATATTGATG TTTGTCAATGGACTTAGAGAATTGATATTAGTCCCAAAATCAATTTCGTGAGAAGCTAGAGAGAGTATATAACTGAATTT CACAACATTACTTACCCTTTAGAAATCACTTTTTCTATAAACGTATCAAAACATAAATCACTTCACTTCCAACTCACTTC TAACTCACATTTATCGTAATCAATTTTATTAAAATCTGTTCTGACAACGCTTACCCAAACACGCACTTCTAAGTAATAAA ACATTTTTCAACGTGTAGTGATGACTGATGGGATAGAACCTTATAGTTCAAGACTTCTAGTATTCTTTTCTAGTCTGTCA AATTCATGTGCTGTACTTCTAAGTGATGCTAAATAAAATGCATTTTTCCTTTGGCTGCAGTGAGTTTTGTGATGTGGTGT CCAAGATCCATATATATACCCAAGAAGAAGTGGAGAAGATGACAATTGGGATGACTAGTGATGATACTCATAGCTGTTTG GAGCAGGCACCAGTGGTTATGGAGGCTTCAAAGTCTTCCTCAGTGGGACAGCCAGATTATTCTCCAACTGTAGTTAGAGT CTAAGTTTCAGGGCTGTCTTGAGTATTATGTTGACCCTGTGTCTATATAAATTTGATTATCTGTGTATATTTGGATGCAA TGTTTGATCTACCCTTTGTGCACGTAAGCCCAGCAAAAAAAGCTGCGTGGTCAGCGCTAGAAAGACTGACAGTTAAGTGC ACTCAACTAGCTAAATAAGGGCTAGTCTTATCATTATGTAATCAGCATTATGGTTTCCAAATTTCATGCATGTGGTGTGA GATTACTACTATAGTACTCTTGTTAAGAATCTGTATAGGGTGTGATGTGCTTTACTTTTTCGGAAAAACGTACAATTTAG TTTGGACAAAACTTGATGAATGCATATTCTAGATTAGAATCATTCAGTAAAAAAATTCGTGAAAATTTCATGGATTTCAA TATCACAGTAGTTCAGATTATAATCTGATCCGCAGTGTAATCCCATATAGCCATTTTTCTGTCAAGAAGTTCCACTTTTT TGCCCACTAAAAATGCCCTTTTAAATGATCAAATGTTATAATATTATTAAATCAAGATTGCCATGTTATAAGCTCTAAAG TTCTATAATGAAATTCATCCTGAAATAGGTTTTATAAAGAAATAACCTCCAGAAAATGACTAGATTTTTATTATAGTTAT TCAAAAAGGATTCTGGAAGAAAAAAAGTACTTGTGCAGGAGGCATCAATTACACATTACTTTAGACCTGAACATTTTTTT CCGGCATTGTTTTCCGAGAGGAATAGATTGCTTTGAAGATTTTCACAGCAAAAGTATATAGAAATGTAACATGGAAGCTT TTCCTACTTGCATTAATGATCAGTTCCCATGACTGTAGTTCTTGTTTGATGAATGAAAATTACTTTTTACATACATCTGC AGAGGTATTTTCTCCAAGGCGCTCAATGCCATCCAAAATCCAAAGGACTAGACTAGAATGTAGTGTGTGGCATGTCATTG TTCCTTGAAGAGCTCACGTCCAATAATCATTCTTCTTATCTCACTAGTTCCTGCCCCAATCTCGTAGAGTTTAGCATCTC TCAGGAGACGACCAGTTGGATACTCATTCACATAGCCATTCCCACCTAAACATTGTATGGCCTGCAAAATTGGAGGAGAT AAGCACAGAGAAATGTAAACAACAGAACAACAACTCTTAGAATTTGGGCTATGTCTAACTCTACCCCAAAAGCTCACGGT GTGTGGGTTGTTTTACCCTATGTAAGGACTATTTTAGCTATATCTCTAGTTAATATATGTAGTTAATAAGGGACTTTAAC ATTCCCCCCTCATGCTTAATGCTGGACATATGGAGCGTGAAGTTTGCAGAATTGGGTATCTGCAGGTGACTCATTTATGG ATGACCCGAAAAGCTGATATAGGATAGACTCTGATACCATTTTAAAATTCAAGTTATGCCTAACTAACTATAACCCATGG AAGCAACTCATTTACCTGCAAAGCAACCTGGGTTGCTCTTTCAGCTGCACAAAGTATAGCTCCAGCACAATCCTGAAATC AGTAGCCGAGTCAGTATGTTTTAAGATGAATAGGCAAACAACTATGGTGAAAAACAGAAAGATAGAAGTTTGTTGCATTA AAGACTAGGCTGAACTTGTGCTGGTAGAATTATAATGAACCAACATCATCTTAGCTGAAGTTTGGTAAACAATAGCAAAA ACATGAACAATAAACAGGAACATATTATACCATGCAAAACCTAAAGCAAAGTACTAGGGTAAAAACAGGAACATGAAAAA ACAAAATAAGAAAGGTTAATCATTTCATGCAATACCTGTAATGCATGAAAAATATGGAGAGAATTTCATGAATAGAAAAT AATTCATTCAAAGAACAAAATAAGAAGCATACATTTTCAAGAGGAAAAAAAAGTTAAAACATGTTCAGATCAACATCTCT TTTCTAAGAATCAACTCTGCCACCCATAAACTACTCAAAGTAACTTCTCCCCAGAATTGATTTTAGCTTCATAATTAATT GTAGAAGAATTACAAAAAATACACTTAATACCATATTGACCACAAGATAAAGATATGTGGAAGCACCTTTGGATCAACTT TTCCATTGTCACAGTCCCGAGCTACAGCATACACATAAGACCTGAAATGAAGGATGTTATGTACTGCCATGAAAACTTAT TTAGAGAGAAAAGAGAGTACGATGACATTAGAACCTTCTACCTTGAGGACTGTAAAGAAGTATACATGTCAGCTACTTTC CCCTGTAACCAAAAGATCAATAGACGTGTGATGGGTAAGATTCACATACTATACACATGCAAGACAATTGCAGAAAATAA GTTAACGCTGTCCATATATGAACCTGTATAAACTGAAACTCCCCAATAGGACGACCAAACTGCTCTCTTTGTCGAACATA AGGAAGGGCAACATCAAGACATGCCTGCATAATACCCAGGGGACCAGCAGCCAAAACAAGCCTTTCTAAATCCAGTCCAG ACATCATTACATACACTCCTGAACAAAATGAAAGAGGTGGTTTTACCAAACTATGGTTGATAGTTGACATATGATGAATA ATAAAAATAGTTTAAACAGAAAAAGAGAAAAACAGATGGCTCTCTTTGTCTAACAAAGATTAGAACAAACTATGCTCTTT TTTTTATTTCATCGAATGATTAAACATGCTTAGAAAGACAAACACACACACACACAAGAGGCTGATATGATAGATTCATG GATCAATGTTGGGCATATTGCGTAAGGATAATCATAGTCTTGCAACAAACTTTTTCAGGCCGGACTATGAGCCCCTTTGG AACCAAATAATATTTAGTTTGGGGTGAAAAAATATGGATTTAAAGCTAATGGTCCTCAACTTCTGAAATAAGTGGAAGGG TAATTGATTTTCAATACTTGTTGTTTTTAATATAAAAACTTCTTAAAGGCTGTATCAAAAAATAAAAAGCTGAAAAACAG AACTTAAATTTAAGCTCTTTCTTCTCAAGTCTATTCAATAACATAGAGATGATTTCTTTTTAAAATTAATAAAGAAGACT GAAAAAGCAATAGCAAGACCTTTCCCTTCTTTCCCAAGAACATTTTCTTCTGGAACAAAGCAATTCTCAAAGACAAGCTC ACATCTGGACACACAATTCCATATTATCAGTAAAAGCAAGGGGGAGTAGTCGGCAATGGGTTAGATGTAGAAAATTTCTC ATAGAATATGCATACATACGTATCACTTCCTCGCATCCCAAGTTTATCCAATTTCTGGGCAGTACTGAATCTGTAGTCAA ACAGAAATAAATGTTAGATTTTCATTTATGATATAAGGCACCATCATCTCAACAGTGCCATGCGAATTTTATTTTTCTTC TCTTTTCTTTGAGTAATCATGACTCTTTTTCCTCATTCATTTTCAGAGAAATATTTTTAAAAGGCTTACGAATCAATTTG AACTCTTCGTTGCTAAAAGGTTCCAGTACTTTTTCTTTTTTTAACTAAAACTATTTTGCATTCTTGCAACAGAACATGGT AAGTCTCACTACACAGAGTCTAGAGTTGAACAAAAAGTGGGAGAAATTTGGTATAAGGTACTGTTTGATATCCAGTAGTT TTTTTTTTGTCCAAGATATCCAGTAGTTTGAGCAACACCACTTGTGGTCAAAGTGAAACAATAGCTTCAAATCATGTGAT GCCCACAAATATTAACCGCCTGTAGTTAGATTGGCCATAGCATATAATCACACTAAACACAGTTTTGTCCACTCAATATC ATATAATTTCTGGTCAAGGTTCAGTACAATTACCCAGGCATTCCCTTCTCAATGATGAATGCAGTGATTCCTTTTGACCC AGCTGTTATGTCTGTTTTTGCATAGATAACCTGATTCAATTCACAAAACAATCAAATATTCAATATGCACCCTCAGCATA TGCCTAGACTACTAGATCTAGTTTTATACAAAATGGGTATTCCATTTACCCATTTAAGCCATAGGTAAAGAAATTAGTCA AGCAAACTAAGACAGGTCCTCTTAGATTAGTTCTGCTGGATGTTAAATAGGAGTGAAATGTGTGCAATGAAATATGTGAT AAATATGGTTAGCATTTATACCCTGCATTTTATACATGCATGGTGTAATAAATTTAGCCTTACGACATATCTTAATTCAT CATTTTGCAATCAGGTCCAAAGATGATGATGATGATGATATGTTGTTACATTGAAAGAATGTCCATTGAAATTACAAATT CAGGAAACATTACCCTTTTGATTTTCTTTAGGCATATTAAAAGAGAATGCAGTCAATGAAAAGAGCAAGGGATAGTGCAA CGAAATTTAAAGGAACATACTAATGTTTGAGCAACTGGCCCATTAGTACACCACATCTTGTTCCCATTAAGTACATAGCC CCCATCAACACGATCAGCCTTGCATTTCATACTGACAACATCAGAACCAGCTGCAGAAAAGACAAATTCACTTCACAAAA TCCTTGGAATATCTAAAAATTAAATACACTACCATTCAATTTCGCATATCTTACAATTGGGCTCACTCATTGCCAAAGCT CCGACATGGTCCCCGGAGATAAGCTTCAAAATTGAACAAAAAAAAAATCAACTTAGCAGATAGATAGATAAACAGGACAC GGGAGAATTGAAATACACTATGAATGAGCACACGAAATAGGTAAGAAACAAAGATTATGAGCATTTTGCCTGACAAAGTC AAACTTTGCATTAGAATAGAGAAAGGCAGAAAATATTGCAAAGAGATAAATAAGATCAAACGAAGAAGAACTAGAACCTT TGGCAAGTATTTCTGTTTCTGATCAGGGCTTCCATTCCTCACCTGAACAAAACAGAAGGTAGAAATATTGAAGACTTATC AGAAGATCATCAAGCATATAACAGAAGAGATTTAAGTTCCCTTCAATTACCAGCTGATTGAGACACAGGTTAGAATGAGC ACCATAAGAAAGGCCAACAGATGCTGAAGCACGGCTAATCTCTTCCATTGCTATACAATGATACAAGTAACCTAGACCTA GCCCTCCATACTCCTCTGCAAAAAGCAGATATAGAATCGGAGAAGTTTGTTAGTATACAAGGCAGGTCATGTGACAAAGA CGCTAATCGCTAAGCATACTAATATTAAGTTCAGAACACCTAAAGAAGAGCAATTTCATTGAAAATGAGGCTTTACTCTC AGACTGCAGATAAAACAGTATCAACCCTTTTAATGGGAAGGAGGGATATTACACAAATTTTAGGGTGATAGGAAGTCATT TGTATAAGAAGAACTGCTTACTCAATTAGCATTCATTATGTTCGCAATCAACACAAAATATACAGGGGAAAAAAAATTGC CAAATGGAAACTATAATAGCAGATAATAGTACCAACAGCATACAAATATAAAAGGGAAATCTTCACAAAGCAATCTAAAA AAGACTACCTGGTGCAGTAATCCCATGGAGATTAAACTCCCCCATGCTTTTCCATAAGTTAACCTCCTAAAATTAGATCA AAACACAATCAGAATGTCCAATCCACTATGAGCTATGTTCATGAAGATGACAATAGAAGTTAGATCCTCATACACACCTT AGGGAAATAATTAGTGTGGTCTATTTTTGAAGCATGAGGGGCAATATTCTCAGTTGCAAACTGAGCAACACTCTCTTTAA ACTGTATCATCAAATAAAACCACCTTCAGATCACTAAAAACATAACAAGGTGATATTAAAAAACCCCAATTCAAGAAATG AAACAGTCTTAGAAATGTTTTGACGCAGAGAGATTTCAAGAATACCCAGATGGAAAGTTCGAATCTTTCTTTAAATATAG AAAAAGGGGTCAATCATTTTTTATGAAATTGTCAGAGAACAATCAAGGGTACAACACTGAATCAGTGGAAAAAAAAACAT TAGGGAGGTGTTTGAAGGGAACCTGTATCTGGGTTTCATCGAAGAGGAAAGAGGAGGAGGAGGAGAAAGCAGCACGCTGA GACTGAAACTTGGTTCTGAAAAGTGTGGAGAAAATGGAGCTTGTCTTGTTGATCCTATGCATCATGATGATGATAGTTGA ATTGATGATGGATTATTGGTACCATTCTGTAACAGTATGGCATTTATATATGTGTATTCTTATTCTTATTGGATGAAAAA GACAATGAAATGCATAAAAAAATGTTGGCAGTTCAGATAAGGATAGAGCTCGACATCTACACATCATTTTTCAGACAAGG AGGATGGTGTTGTTATTTATCTTGTCACGGAACGTTCCCCAGATTTTTTTTCTTAGTCCTAGGTTAGGTGTGTTTCATTG TCTGAATACAGGTG
CDS sequence (LotjaGi2g1v0362400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAATTGATCTGAACCATGAAGTGATTGAGGTGGAGAAGAATGCATTGTGTGAAAGGGAATGTGGTTCTTGTGTTTG TTGTTTGTCCTCTTCAGCTTGTTCATCTAATTCTAGCTCATCTTCACCTGGTGTGTCTTCTTCTTATCTTGAGCTTTGGC ATGCTTGTGCTGGCCCTCTTACCTCACTTCCTAAGAAAGGAAATGTGGTGGTGTATTTTCCACAAGGTCACTTAGAACAA GTAGCTTCTTTCTCTCCTTTTGCCCCATTGGAGATGCCCACCTATGATCTTCAGCCACAGATCTTTTGCAAGGTTGTCAA TGTCCAGCTACTGGCCAACAAGGAGAATGATGAGGTTTATACTCAGGTTACTTTGCTTCCTCAAGCTGAGTGTGCAGGGA AGCATTTGGAGGGGAAAGAACTTGAGGAACTGGGAGCAGATGAGGAGGGAGATGGAGGGTCGCCTTCAAAATCAACCTCT CACATGTTCTGCAAAACACTTACTGCCTCTGATACCAGCACTCATGGGGGGTTTTCTGTTCCTCGTAGAGCTGCTGAGGA CTGTTTTCCTCCTTTGGATTATAAGCAGCAGAGACCCTCGCAAGAGCTTGTTGCCAAAGACCTGCATGGTGTGGAGTGGA AATTTCGTCATATTTATAGAGGTCAACCAAGGCGGCATCTACTCACTACTGGCTGGAGTATTTTTGTAAGCCAAAAGAAT CTTGTTTCTGGTGATGCAGTGCTTTTCCTAAGGGGTGAAAATGGAGAACTGAGATTGGGCATCAGAAGAGCTATTCGACC TAGAAATGGTCTTCCTGAATCAATTGTTGGTAATCAGAACTGTTATCCCAATATCCTATCTTCTGTGGCAAATGCTATAT CCACCAGAAGCATGTTCCGTGTTTTCTACAGTCCAAGAGCAAGTCACGCAGATTTTGTTGTTCCCTACCAAAAATATGTT AAAAGCATCATGAATCCAGTGACCACTGGGACAAGATTCAAAATGAGATATGAAGTGGATGAATCTCCAGAAAGAAGGTG TAGTAGTGGTATGTTGATTGGAACGAGTGATTTGGATCCCTATAGATGGCCTAATTCAAAATGGAGGTGCTTGATGGTCA GATGGGATGAGAATATTGATGCTAATCATCAAGACCGGGTATCTCCATGGGATATCGATCCTTCTGGTCATCTGCCTCCC ATGAACATTCAGTCTTCCCCAAGACTAAAGAAACTGCGGACCGGTTTGCAGGTTGCCTCACCCAGTCAACTCGTCACTGC AAGTGGCAGTGGAATGATGGGCTTTGAGGAGTCTGTAAGATCACCCAAGGTCTTGCAAGGTCAAGAAAATGCAGGTTTTG TGTCACTCTACTATGGATGTGATACATTAACCAACCGGCGAGGTTTTGAGATGAACTCTCCAAGTCATCAAAATCTTGCA TCAGCCGGAGTAGGAAAGGTTACTTCGACTGAGCTCATGAGTGTTCACCCTTTCAGTTATGCAGCAGGCTTTATGGAAAC TAACAGCTTTCCAAGGGTCTTGCAAGGTCAAGAAATATGTCCAATGAAATCCCTGACAGGAAAGGTTGATTTGAGCCTTG GTGCTTGGGGAAAACCTAATGGAAGTTGCACAACTTTCAACCTCCATCAGGCCACCAATCCCAGCTTTCCATCAGCATAT TTTCCTTATGGGGATATTCACAATGTTGGTCATGCTAGCATGTTTGGCTCAAAACCCCCCACTTTCCAGAGAGAAAATGT CTCGTTTAACACGCCGTTCTCTCAGGCAGGGATCATTAGAAATGAAGTTGGACGATCAGATCTCCCAAATGAGCATAAAC TGCAGGACAACATTTCTGTTTCTGCTTCATTAGGGGGTGCTGATATGAGGATTCTAGATGATAACAATGTCAAGGCAAAT GTAAACTCCTGTAAACTATTCGGGTTTCCTTTGTCTGGGGAAACTAGTCCCCAAAATTTACAGAACCCTGCTAAAAGGAG TTGCACAAAGGTTCACAAGCAAGGAAGCTTAGTTGGAAGAGCCATTGATCTATCAAGATTGAGTAGCTACAATGATCTAC TGAATGAACTAGAGAAACTATTTGGCATGGAAGGCCTTCTAAAAGATCCTGATAAGGGATGGAGGATCCTGTACACTGAC AGTGAGAATGACATCATGGTTGTAGGGGATGACCCTTGGCATGAGTTTTGTGATGTGGTGTCCAAGATCCATATATATAC CCAAGAAGAAGTGGAGAAGATGACAATTGGGATGACTAGTGATGATACTCATAGCTGTTTGGAGCAGGCACCAGTGGTTA TGGAGGCTTCAAAGTCTTCCTCAGTGGGACAGCCAGATTATTCTCCAACTGTAGTTAGAGTCTAA
Protein sequence (LotjaGi2g1v0362400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEIDLNHEVIEVEKNALCERECGSCVCCLSSSACSSNSSSSSPGVSSSYLELWHACAGPLTSLPKKGNVVVYFPQGHLEQ VASFSPFAPLEMPTYDLQPQIFCKVVNVQLLANKENDEVYTQVTLLPQAECAGKHLEGKELEELGADEEGDGGSPSKSTS HMFCKTLTASDTSTHGGFSVPRRAAEDCFPPLDYKQQRPSQELVAKDLHGVEWKFRHIYRGQPRRHLLTTGWSIFVSQKN LVSGDAVLFLRGENGELRLGIRRAIRPRNGLPESIVGNQNCYPNILSSVANAISTRSMFRVFYSPRASHADFVVPYQKYV KSIMNPVTTGTRFKMRYEVDESPERRCSSGMLIGTSDLDPYRWPNSKWRCLMVRWDENIDANHQDRVSPWDIDPSGHLPP MNIQSSPRLKKLRTGLQVASPSQLVTASGSGMMGFEESVRSPKVLQGQENAGFVSLYYGCDTLTNRRGFEMNSPSHQNLA SAGVGKVTSTELMSVHPFSYAAGFMETNSFPRVLQGQEICPMKSLTGKVDLSLGAWGKPNGSCTTFNLHQATNPSFPSAY FPYGDIHNVGHASMFGSKPPTFQRENVSFNTPFSQAGIIRNEVGRSDLPNEHKLQDNISVSASLGGADMRILDDNNVKAN VNSCKLFGFPLSGETSPQNLQNPAKRSCTKVHKQGSLVGRAIDLSRLSSYNDLLNELEKLFGMEGLLKDPDKGWRILYTD SENDIMVVGDDPWHEFCDVVSKIHIYTQEEVEKMTIGMTSDDTHSCLEQAPVVMEASKSSSVGQPDYSPTVVRV
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 | 2 | 786 | 785 | 0.0 | – | |
PANTHER | 2 | 786 | 785 | 0.0 | – | |
SUPERFAMILY | 155 | 273 | 119 | 9.16E-45 | ||
Gene3D | 160 | 265 | 106 | 5.4E-45 | ||
CDD | 161 | 263 | 103 | 8.68667E-24 | ||
ProSiteProfiles | 163 | 265 | 103 | 13.028 | ||
SMART | 163 | 265 | 103 | 1.4E-24 | ||
Pfam | 163 | 264 | 102 | 4.8E-22 | ||
Pfam | 289 | 371 | 83 | 1.8E-31 | ||
Gene3D | 327 | 398 | 72 | 2.5E-29 | – | |
Gene3D | 662 | 755 | 94 | 8.1E-35 | – | |
ProSiteProfiles | 666 | 750 | 85 | 22.336 | ||
SUPERFAMILY | 669 | 745 | 77 | 3.34E-10 | – |
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 | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Biological process | Response to hormone | Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a hormone stimulus. |
Expression pattern of LotjaGi2g1v0362400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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