Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0256600
Transcript ID	LotjaGi4g1v0256600.1
Related isoforms 1	LotjaGi4g1v0256600.2
Lotus japonicus genome version	Gifu v1.2
Description	MADS box transcription factor; TAIR: AT5G60910.1 AGAMOUS-like 8; Swiss-Prot: sp\|Q38876\|AGL8_ARATH Agamous-like MADS-box protein AGL8; TrEMBL-Plants: tr\|I1MT91\|I1MT91_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0256600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:61153324..61169258) extracted from Lotus japonicus Gifu genome v1.2.

ATCATATTCCCTTTTCTTTTTCTTTTTATCATTAAAAACACACATAACAAGCAACCAAACACAACAAAATGCCTTGACTC TTCATTTCCCCTATCTTCTTCGATCGATCAATTTCTCCATTTTCTTTGCTTATCCAACAAACACTGAAATATGGTTATGA TGTGTTGATTTAAGTGTAGAAGAAGGAGTTAATTTGAAGAAAAATGGGCCGGGGAAGAGTGCAGTTGAAGAGGATCGAGA ACAAGATCAACAGACAGGTAACATTTTCAAAGAGAAGGTCTGGTTTGCTGAAGAAAGCCAACGAGATCTCAGTGCTTTGC GATGCTGAAGTGGCTCTCATCGTTTTCTCCACTAAAGGAAAGCTTTACGAGTACTCCAGCGACCCCTGGTACGTTGTGTT CATCATCACCATCATCATGTTCATGTTCATATTTCATATCATTAGTTAACTCTTAATATTTTTTCATCTCTCTGAAATAT ATATTTATTTGTGATACGTAAATATCAAATTAATAGTAGGCTTTCGCCTTGCAATCTTCATACACTTTGCACTTTTGTCA GCAAACAGTAGCTATGTACTCGCTTTTATCTTATTTTGGTTAACCAGAGGTGTCAAGATAGAAAGGACGGGGAGCTAGGC CTTGAGTTAGCTTAGATTGATACCATCATGGAAACAAAAGCCATCCCAGATATATATGATTTGGTTTTCTTTCATTCAAT TGATTTTGTTTTAGGTTTAAATTCAATCTAAATTTCAAAAAAAAAAAATCAATCTATTTTCATTTCAACCAGTGTAAGTT GTATCTTAATTTTTTTTGTTTTTTGAACTTAACTAATAGGGGTTGTGTATATGATCCATTGGGTCAAATTTGTTAAAAAA ATGCTTAGTTGCATAATTGGTGCCCCTAGCTACCTTTTTGGAGTTAATTAAGTCCCTTACTTTTAAAATTAAAAAAATGT CAATTTTCTCAATTTTTATAAGCATTAAAGTATAAGTTTTTCTTTTTTATTTTTGAATTGGTAGAGTTTATAATGGATTA GAAATGTGTGGTACAATTTTAATAGGTTATTAGTAAGAAAATTAGTGAGATTTTGATTTTTTAAGCATTTCATAGGATTA AGATTGGATTTTAAAGATGTGGGAAATTGAGATTTTTTAATAATTAAAATTTAATATTTTAACTACTGAGTTTTTTACGA GACTAATGTATACAACGATTAAATTAATTCAATTTCCTTTCGGATGTACCAAAAAAAAAATTCAATTTGTGAAGATTTTT CTTAAGAGGTTTGAGAGTATTGAATAGAATAATAATGATAAATGAACTTGAATATTGTAATAATTAAAAAATTGAAGGCG TTAATCTGAAAAAAATTAATGACGGCTAAAATCATACATTGTCGAAATTAGGTGGACCAAAGTGCGATTAAGCGGAAAAA GAAGTTTCACAAATGCTACTGTTTTATTTATACTTCAACTCTACTATATAATTTATAGGCCAATAAATTAAAATTTTTTA GTAATAAATTATGATTAGTTTTTGACTTTTTGTCACTTAGATTTTACAGCAATGTTTGATAAAATATAGTTTTCACTTGA ATGTATTTTTTAAGTCTTTAATTGCACTTCTAACCTATTAGTTTGGACTATATGTTTGATTTTAATATTTTGATTTTATT TTAGATAATTGAGTAATTGTTTAAAATTCAAGTTGATTTGATAAGTATGTCAAGTGGCATATATATATATATATATTATT TTTTTTTGAAAAATAAAGGATTATGTATTATCATCCACACAAAAAAACCCTTAAGGACAAAATCCTTAAAGGGAGAGTAC AACCCCAATAAAAACGAGCCAGCTTGACAGTACAACCCCAATAAAATTATACACGATATGCAAGTGTCATATATATATGT ACGATTCTTAAATTTTCATTTAAAAAAATTCAGGGTTTATATATTGGATTGAAGATATGGAATCATTTTAAAAGTTTAAG GTTAGAATTTAAGTGAATTTCAATGAATTTTGAAAGATTTGTAGTATATGAGGTTAGGGTTTAAAGATGGAAAAGTGGGA TTTGTAATATTTTTTTGTAATTTAAAAGCTGTTGAAATATAATATTTTGTTAAATTTTGAGCGGAATATATAATAATTAT TTTGATTTAATTTTTCATGATTTTGCTTAGAAAATATAAGTGTGAGAATTTTAAATAGGATTAAAGTGAATTTCAGTGAA TTTTAAAAGTGATTAAAGTGATATGAAAGGAGATGAGTGTTCTTTGTGACGATTGATTTCGATAAAATTAATTATAATAA AAGTAAAGTAATTTATGTTTTGAGATATTTATAAAAAAATAAATTTGTTGGAAAACGGTATGAAATTGAATTGTAAATCT CATAGTTAATTTTATTTCGGAATTAATTTCAACTAAACTTTTCAAACATTAATATTTTCATTCAAAGTTATACGCGATGC AATTAATGTTAGGAAAGGCTCAATGCATAACACTACTGCATGAAATATCTATACCAGCTGTGTTTCTTGCTGGCTGCTAT AGCTATGAATTCGCCCACACACTGACACTTTACCCACCCAGCTCTGTGCTCTATTTGGTAGCTAAGCAGCACCTGACCTC ACCTGACGTTCTTCTCTGCCTATGTCGGTAGTATCTATTTTATCGAAGATAAATGAAGAAATTAACATTTACTTTCCACA TTCTTTTTCTAATACTGTTTGTTTAATTGGATAAAATCTATATAGTTCCCACTAAATTAGGTGACTCAATATAATTTAAT GGATTTTCTATGAATTTTATCCCATGAGAAAAATAATATTAGAAAAAAAAGTGTCGAAATAATCATTTTTCTCTTTTATA GCCATTTTTTGCTCGTAAGTCATAACGTTACCTTTTACTTCCCAAGGTAGCTAGTATCATTCACCTCCTTAGTTATGTCA CTCATTCACCCAGATTCTGGAATTTGAACCCCTAATATTGCGGGTAAAGTCTGTGTTGAGTCATAGGTAGCGTTTGGTGA TAGAATGGAATATGACAGAACATAACGGAACGGGACAGAACAAGATGGAACATGACAATAATGTTCTGTGTGTTGTGTTT GGTAACTCTAAGTCATTAGAACAGAACCATGATTTTAATTACGTATATAACCCTTCATGTTTAATACTCCCTCCGGTCCT ATTTATAAGCAATAAAAAAAAATTCACATAGTTTAAGAAATGTAGTTAAACTAGATAAAGTGCATTAAATTTGTCTTGAA TCAAAATAAACTTCCAAAATTACCCTTTGTTATTAGTATTTGAAAGTGGGAAAGAGAGAGAATAAATAATGAGACACATT TTACAAGTTATAATTAATAAGGGCATCATTGGAAAAAATTAATTAATATAGCTCAAACTTTCATTTGGTTCTTATAAAAA TGACCAAGATTTTTCTTCTCTTTCATGCTTATAAATAGGACCGGAGGGAGTATTTGATTGAGTAAAACAAATTGAACTCA ATTAAACATTTTGCATAGAAACCGTTTGTTATTACTTACTTCATGAAAATAATCACTTATTTCTTTAAAATAATCACTTA TATATTGTTTAAGTTGTTTTAGTATGCTATTGAAAAAAAATAACCGAATTATTTATTTAAGCTATTTAAGTGCGTTTGTT TAGATTAAAAAATATTAATTTTTAACTATAGTTTTTTTTATAGAGATTTTGAGAAATTCATAAGTTGATTCGTGTTTGAC TATTCTAATTAAAATCACTTTTTTTTAATCTTCTCTCATCTATCATCATAGATTTTCATGATAAGCTAAAGCAACTGTTT CAAATAATCTGTTTTCAGTTGAAACAAACACAAAAAGTGATTTTTTTATTTATTTTAAAAGTGATTTTTTGATTAAAAAG TGATTTTTTTGATTAAAAAGTGATTTTTTGATTAAAAATTGATTTTTCCAAAATAAGTTGAATCAAACGCACTCTAATTG GCTCATTTATCATTGCTTACAAAAAGTGATTTTACTTTTGAAAAAATAATTAATTTATTTTAATTGAGTTGATTCGTGTT TGACTACTCTAATTAAAATCACTTTTTTTTATCTCCTCTCATCTATCATCATATATTTTCATAATAAGTTAAAGTAACTG TTTTCAAATAATCTGTTTTTAGCTTCAGCTGAAACAAACACAAAAAGTGATTTTTTGATTTTTAAAGTGATTTTTTTATT AAAAAGTGATTTTTCCAAAATAAGTTGAATCAAACGCACTCTAATTGGCTCGTTTATCATTGCTTACAAAAAGTGATTTT ACTTTTGAAAAAATAATTGATTTTATTTTAAGTGATTTTTTTTTGAAAAAATAGATTTTCATTTAACTTTGTCTACAAAT ATAATAAGTGCTTACAAATATATATTAGAGATATTTTTGACCGTGCAAAAATTTTAAGAGAGTGTTTCGTTCTGTTCCCT TCCTGTTCTAGGAATGGACATTGAAGAGAGGCATAGTACCTAGAGGTAGAGGGATTGTGCCAAGAGAGAGTGAGAATGAG AGAGAGTGCTGAATTTCAAGTGTTATTTCATCAAATGAGCCAAAAGTCCCCTCCAATTGATAACTACCCCCTATTTATAG AGCTTGGGTACTACCTATTGGGCCAATTGGGCCTCCGAGGTCAAGGCCCAACTGAAGGCCAGGGCCCCGCCTCAGGGCGG GATACATGCTGGGCGTTGCCCCTCTAGGGGCTCGCCCAGTCCACTAGTCCACAAGACACCGAGCTCGAGGTACGAGAGCT AAGGGTGTCTTTTAAATGCTGTTTGTACACCGGAATCTACACTGCCAACATGGCTTGAGAAAAGAGAAGTTAACTATACC GCCAACATGGCGTGAGCAAAAGGAAACTAGCATTTTCAGTTGCCCAGTCCACTGACTTGACGAGCAAACCAAGCCGAGAG CACCAAAGCTCCCAAGAGGAGAAGATTGACCAAAGCCTCCTCCAACGCCGGCACATCCAACCCTGGCGCTCAGCCCACCA CTGCTGCTGCGCCTAAAGGCAAAAATGTCGCTGAAGCCTCTGTCGCCGCAGCTACCGAGCCAACCGCCGTACCGGCTTCT TCTCCTGCCTCCGCCGGTGCGACCGCTGCTGCTGCCGCTGAGTCCTCTATTGGCGCCACAGTCGCCTCCGCCGGCGTTAA CGCCACAAAAGCTGCTGCATCTTCCGACACTCCTATTGGAGATAAGGAAAAAGAAAATGAAACCCCAAAGTCTCCTCCTC GCCAAGATGCGCCTCCTAGCCCGCCCTCAACACATGATGCGGGCTCCATGCCTTCCCCGCCTCATCAAGGGGAAAAATCC TGTCCTGGCGCTGCCACTACCTCTTGAAAGAGTGTCATCAAATACCGTACCCGCTCAAGGTACTTGATCAGATTAGGATC TTTGACCTGGAAAGTTCCCTTCACTTGATAACTACCCCCTATTTATAGAGCTTGGGTACTACCTATTGGGCCAATTGGGC CTCCGAGGTCAAGGCCCAACTGAAGGCCAGGGCCCCGCCTCAGGGCGGGATACATGCTGGGCGTTTCCCCTCTAGGGGCT CGCCCAGTCCACTTCCGTTCCACCCTTTTTTAGGGAACCAAAGTGTCCCGTTCCTGCAGTCTTTTGTCTTGTTCCGTTCT ATCTTAAATACATGACAAACACAGAAACGGAACTCATATGTCCTGTTCCGTTCCCTTCCCATCTGCCTACAAAACGCTAC TATAGTGTGCTTTTCTTTGATTCATAGTCTGCTTTTATCAGAACTAGGCGCCGTTGCATAATCTCATATTATGATACTTG TCAATGTAGTTGTTATTTAGTCTAAAACTCTTAGTCCAAAAAATTTCATTTTAATTCTGATTCAGCCCAATTAATCCTTT TTTATATTATTAGTTATGATTTCTTATTAATTTAATAATAGAAAACCAAAATTTTCAGAAGTATATAAATATATAAATAT TTAGAACCGTATATTGGAACCGTATATTGTCAATTCCCATTTTTCTAATTGTAAAACCAAAATTTCCGAGAGCTGTAATG TTTTCATTTTTAAATGATGTATAGAGATGACTATAAGACTATATGCAAATAAAGAAACATATGTGAGCTGACCACTAAAA GACAAAGCTATTATCCCTTTTGCTGCTTGCATGCAAAATGCTATCCTATTGGAAACCTTTATTAGTCTGCTTGTGTAAAG TAGATTTCTTCCTCCAGATACTAATGTGTTTATGGGTTGTTGGTTACGCATAGTTTATGGCTTATTCCAGAAGTTTAATT AAATGTTAAGATAAATAACAAATGATTTTATACTATATTTAGGGTACAGTTAGATTTAACTTATTGGAGACTAATGTCCA TATATAAGTCATTATATATTTATTCCTACAAATTCCACATTTTAGTTGTTCAACCCGAGCTTGAGAAAACGTGTTGAGAA GCCGCCACATGACTAGAAAGATGACCAAAATTCTTGAATCCTAATCAAGCTTTGCCTAACTTAAATTCTAAATCACAGTT ATTATTTGCTTTCTTTAAATGTCTTTTCATTCAAACGTTAAATAATGTATCCTTTTATTTTAAAGTACAAAATTATATTT ATTTTTCAGAATCTCATGAGATATATCTCTGCTGACTGTTACTTTTATTTCTTTTAACAGTATGGAAAGAATTCTTGAAC GGTATGAGAGATATTCATATGCAGATAAGAGGCAGGCTGATGCAAATGATCAGGCTCCAAGTGTACGTCTTCGCCTCCTT TCCATGAGTCTTGATTTTATTTTTCTTTTCTTCCGACCGGGTTTTGCTTGGTTTACTAATTGATGTAAATTAGAGATTAT CCTATCCTTTCTCTAACAAAAGTTTGGGACAATTTAATGTGCCCGTTTGGATGCAAACAAAAAAGCACTTATTAGAGCAT ATTTAGTGTTTTTTAGTAGATAAGTTCTAATTTTAATAAGCACTAATAAGTTGCTATCCAAATAACTCTTGCGGCTTTCC TATAAGTTGTTTTGAGTTTACTTTTATAAGTTGTTAAGATTAGCTTATGCTTATCTTATAACCTATTTCCATTTTATTTT AACAAATTTCTCAAACCTTATGTGATAAGAGCTTATTTCTATAAGCGCTTAATGAGTTGTTTAACAAATTTTCACATTCA TTCATTCAAAAGCGTCTAAAAGCTGTCTTGAGTTTATTTTTATAAGGTGTTTAGATTAGTTTATGAATAAGTATTTATAC TTACCTGTATCTTATTTTGGGTTTATTTTAGTAAACTTCTCATATTAGCTTATGAATAAATGCAATATGCGATAAACACT TATTGACAATAGCGCTTAAGCTCTTCACTCAAAGATATTTGGTGCATACATTCCTAGAGAAGTTTCTAATTCATGAACTA CAACACTCCCTTTAATTTACAATTCAAAATCAAGAAGGTATATGTTGAGTACTGATTTCATTACCTGAATGCATTGTTAG GAAAATTGGGTTCTTGAACATGCAAAGCTTAAGGCTAGGATGGAAGTCTTACAGAGAAATCAAAGGTAATAAATATGTGC GAGCAAGGGCTGCTAGTGTTGATTGTTGTGTATAATAAATTATGCAATGAGTATGACAGTGTAAGTGGATTTGTTTCAGG AATTTCATGGGAGAAGAGCTGGATAGCTTAAGTCTCAAGCAGCTTCAGAATTTGGAACAGCAACTTGATTCCGCTCTCAA ACACATTAGATCACGAAAGGTAAAGTAAAACTTTGCTACCCACACAGTTTTGGCGATGTAGTTTTGAGGTTTGAACTTAA TATCATAGTCATTATGGGGGTATGCAGAACCAAGCCTTGTTTGAATCTATTTCAGAGCTTCAAAAAAAGGTCAGTCTTTC TTGCCTGCATCTATGTTTTTATTGAGTATATATTAGGATCAATGTTGTCAGAATTGATTGTGAATGAAGTAATTTTAGAT CGATCAACAATGTTGGAACTGATTTTGGATAAAATGGATTTTGGTAAAATTTATTATCCTAAAATTGAGTTGAAAGTGAA GTTATTTATGTCAGGTTATGTTTATGGCAAAACTGATTTCTATAGGATAATGTTGTGAAACTCAATTCTCTAAATTGATT GACAAAATCTATATAACCACCCAAAGGTGATTCTTGTCAATGAGAGTTGATTCCAAGCAGTGTTATAAAACTCGGACCGG ACTGGCCGGTTCGACTGATTGAATCGGGAATCGGACCCCTAACCGGTCCGAGCCATTAAATGGATCGGCCATGCAATTCA ACTGTTATGAACCGGTTTGGACCGGCCGGTTCAAGGGATAAACCGGTGACTCGGCCGGTTTTTATTTGGATCGGTGATTT TTTTTTTTGTCAAAACTGTTTTTCCTTGTGATAAATATAATTTAACAAAAAGTATTCCAGATGGAATTCGAACTCAGTCC CATGAGAATATAGGCAAGATACATAACCACTTGACCAAGTTGCTCTATGGTCAATCTTGTACACATTAAATTATTAATAA TGTATAATTATAAATGGAAAACACACAAACTATAAAAATTTATCATACCTAGGAGTTGAACACAGGACCTAGAGGGAGGA AAGCTATCAAAATTTCCACTAAGCCACTTTGCTTCTTATAAAAGAAAATGCATATTATTTTATATATATGCTATGCTAAG GTTAGTTTTATAAATTATATGATTTTTTAATATGAACCGAGTTAAACAATCGAACCAGTGACCCAGTGGTTGAACCATTG ACCCAGTGTCTCGACCGAGTCGATCACCGGTCCGAGTTTTATAACCCTGATTCCAAGGCTTCTGAATGTGGTACCAAGCA CACACTATGTAAACTTCAAAAGCTAGGATTTACAACTTCATCACAGAATTGATTTTGGAGTTAGTATAATTTTGAAATGA TCAACGGCCTAAATGAGTTCTAACATCTGTGAGCTGAACAAGACATGCAATGAATATGGCATAGCATACTATCAATTACA TAAGTGATAAGGAACAATATTTCTTTGTCCTCTCCTTTCCTTTAAAAAGAAGAATGCAAGATTGGCTATAAGGTTTTTAT AAAAATTTGGGTCAGGTTTGACTCTAGTAGACGTCAGACCTTAGCACATACTTTTCAAGTCCAGAACTACACATCTAGAA TATCATATTAGAATTTGAATTAAGCCAAATTCTACTCGAAAAGCTAGCTCAAATGTGAGGGTTGCTATGCTTTATAAGAA CTTATTTAGTTATATCTAGTCAATGTGATACCTTGACAATTTCGTTACAGTAGTATGAATGATCTGCGCATTTCCAGTGA GAGTCGCTTTCGACTATACTATTTGCTAAATTACTCTTATTAGTGAAAACTTTTAGGTCAAAACATTGGCAAATCAACTT GGATGTTGTAAATGCTTGATCGATGTAATATTTCTAACTTCAATTTTAACGATATGTACACAATGTTTTCATTGACAAAA TGTTTTAGATTGATCAGCTGTTAAGTCATACAAGTACTTGTGTGAAATGATGCAGGATAAGGCACTTCAGGAACAAAACA ACTTGCTGACCAAGAAGGTACGTTTTTGTTTTATCACAGCTCAATTATGCTGTTTGGATTCAAAATCTCACAGTTAATGA CAACATGATTTGAGTGAAAAGCAGATAAAGGAAAAAGAGAAGGCCATCACCACCCAAGAGGAGCAAGAGGGGCTTCAAAA TAGTGCAAATGTTGCCTCTGGCCTAGTAACTCAACCATTGGAGTCCATGAACATTGGGTTAGTGTCTTTTTCATTGATGC ATGCATGAAATCTTAAAGGCTTCAAACTGACCAACTCTCTCTGTTACCTGTATATGCTGTAAGATGGTTTGAATGGGTGA ATCCTCATTCATCTGAAATAGATATAAATACAAAAGCAATACAATCAAAGTCAACTAGCTAATTATGCACGACATAATTA TAGGGATCCAATTGCTTAATTACAAGAAAGGAATATATGCATATCCTATTCTATCACACCCCCGCAGTCGAAGCGGGAGG TTCACTGACGCTGAGATTGGTCCGAAAATCATCAAATAGAACTCGAGGGAGACCTTTGGTAAAGATATCCACAATCTGGT GACGAGAAGGAACATGAAGGATGCGTGTCTGACCACGAGCGACCTTCTCTCGAACGAAGTGAATGTCCATCTCAATGTGT TTAGTACGCTGATGCTGGACAGGATTGCCGGATAAGTAGATGGCACTAACATTATCACAGTAGACCAAAGTAGCCTGAGA AAGAGGAAAGTGAAGTTCCAAAAGCAGGTTGCGTAGCCAACATGATTCAGAAACCACATTAGCAACGCCTCGGTACTCAG CCTTAGCACTGGACCGGGAAAGCGTGGGTTGTCTCTTGGACGACCAAGAAATGAGGTTGGGACATCCCCCCCAATCTACA TCAGTGTAGGAAATAAGCTTCTCGATAGGAGAAGGATGAAGATGCACACCAAACTGTAAAGTGCCCTGAAGATAGCGAAG GATGCGCTTCAGTGCAAGCATATGCTCTGTGCGTGGGGCATGCATGAGAAGACACACCTGCTGAACTGCATAAGAGATGT CAGGACGGGTGAACGTGAGATACTGCAAAGCCCCAGCAAGACTCCGATATAAAGTAGGATCATCACACGGAGTACCAGCA GAAGTACTGAGTTTCTGTTTGGTGTCAACTGGAGTGGCAGAAGGATTGCACGATGCCATACCGGCTCGAGCAATAATGTC ACGTGCATATGTGCTCTGACTGAGAAAAAGTCCACCTGCATGTCCGGTGATGACAATGCCAAGAAAATAGCTCAACGGTC CCAGATCCTTCATAGCAAACTCTGAGGCAAGAAGGGCCATGATAGATTTGCGAAGGTCATGAGAAGAGCTGATGAGGATG ATGTCATCAACATAAAGCAGGAGGTAAGCCATGTCAGAGCCTCGTCTGTAGATGAAAAGAGAGTGATCAGAGGTGCTATG CTGAAACCCAATGGTGGAGACATAGTCGGCAAAACGCTGGTACCAAGCGCGAGGCGCTTGCTTCAACCCATAAAGAGATT TCCGCAAGCGACACACATAATCAGGATGAGTACGGTCACGGAAACCAAGGGGTTGATGCATGTAGACTGTCTCATGCAGA TCACCATGGAGGAAAGCATTCTGAACATCTAGCTGGTGAATGGGCCAAGACCTGGAGAGGGCAATGGTGAGAACTGTGCG AATGGTCGCTGGTTTCACCACAGGACTAAAGGTCTCATCACAATCAACACCTGCAATCTGTGACCGGCCATCACCTACAA GACGAGCTTTATAACACTCAAAACAACCATTAGCTTTCGTCTTATGACGAAAAATCCACATGCAGCGAATAATATTAACA TCACTAGGACGAGGAACCAAATCCCAAGTCTTATTTCTAATTAAAGCATCAAATTCAGACTGCATTGCGGATTTCCATTT CGGGTCTGAAAGACCTAGCTTCGGGTTTTTGGGAAGAGGTGAGATGGTGGGATCATCAATGGTTACAGAAAGATTGAAGA GTTTTCCGGGTTTGTAGATACCACGCATGCTGCGAGTGGCCATGGTACAGATAGGAGGTACAGGCTGAGTCGGTGAAGCA GGGGAAGGAGAAGATGGGAGGGAGTCAGAAGAGGAGGAAGAGGTCGTGGGGAGTGGTGGTGTGGTCACGGATGGAGGGAC CACAAGAGGGGGGTTATGGTCAGGACTAGTCCACTGGTGAATGATAGAGGGATGTATAGGATCTGAGAAACAGTCATACT TGGAGGGAGGAGGGGTAGTCATGGTGGCAAAGGGAAACTGAGTCTCATCAAAGATGACATGTCGGGAAATAATGATTTTT CTGTGCGACAAATCAAAACACTTATAACCTCTGTGATGAAGTGGGTATCCTAGGAAGACACACGGGGAGGAGCGTGGTTG TAGTTTGTTAATGGTAGTGGAAGGAACCAAAGGATAACAAAGACAACCGAACACACGTAGATGTGTGTAAGACGGGTCAC GACGATACAAAAGTTGAGTGGGAGAGAGTTTAGACAGAGATTTCCGGGGAATGATATTAAGTAGATAGGTAGCCATTTGA AGGGCATGATGCCAAAAGGACGGAGGAACAGACGCATGAACGAGAAGAATGCGAATCATGTTGTTGATGGTGCGTATTTT GCGCTCCGCCTTGCCATTTTGAGATGATGTATGTGGGCAGGAGAAGCGAAAAATAAGACCATGAGCAGCACAATAAGCAT GAAAAGAGTTCTTGTCAAATTCTCGTCCATTATCACATTGAAGACATTTGACATTTTGGGAAAAGTGCGTGCGAATTTGA TTCGACAGAGAAGTGAACATTTCAAAAACTTGAGATTTAGTACTTAAGGGAAACGTCCACAAGTAATCCGTAAAATCATC TAAGAATAATACAAAATACCGGTGACCAGCGGAAGATAAAATAGGCGAAGTCCATAAATCACTGTGTAAAATGTCAAAAG GCATCACAGTAACATTATTAGAAGAAACAAATGGCAACCTAACATGTTTTCCAAACACACAAGACTCACAAACGGTGCTA GAGTTCAAATGCTCATAACTAATGAACTTATTACTACGAAGAGACTGCAAGGCAGAAGAGATGGGATGACCAAGACGATT GTGCCAGAGACTCTGAGCTAGACCAACAAATGGAAAGGACTGAGTGATTGGGTATAGGTCGCCAGGACTATTACATCTCA TGAGTGGAATCCCCGTCTGAAAATCATTAACCGAAAAGCCATATGGGTCAAAACAAACAGAAACATTGTTATCGGTAGTA AGTTGTCGCACAGAAATCAAGTTTTTAACAATTTGTGGTGTGTGCAAGACATGGGAAAGGGTCAAAGGCTTGTGTTTGTG GGCGGTGGGGAGGGTGGTGTGTCCAGAACCCTGAATTGGAATACTCTGTCCGCTACCAACATACAGTTTCTGATTAAGAT GACTTAAATTAGAATAAGGCGTGAGATTACCTTGTGATGCTGCGACATGAGATGATGCTCCAGTGTCCATGTACCATGTG CTGTCCGGAGGGGCAAGTGTCATGGTGTGCATGGCAGTGGCAATGTCAGTGGGCACGGGTGAGGCCGAAGCAGCATAAGC CTGAGGACGCTGGCCCAGAATGCCGGGTTGCCGAGGAGGAGCAGAAGGACGAGTCCACTAAGAGGTAGGGTATGGGCACG GAGGTGGGGCCCATCCCTAATGCTGGTATGGAAAGTACTGCGGATGAGGTGGCATCGGAGGAGAGGTGTCACTGCGGGAT CCGCCAACGCTGCCACGATTCCCACCACGACCCTTAGAGTTGTGGGATCGAGAACGGTTGGAGGACCGACGATCAGAGCC CTGAGGAGAGGCATTAGAAGCACGCGATTGAGTAGCAACATAGGCAGCAGGATGCTCAACATGCTTCATCTTAGCCAGAC CGGCTTCCTCCAGAGTAAGCATGGAGCAAGCCTGATGAAATGAGGGGAGGGGATTGCTCTGGCGAATCAAAGTGGCAACA CCCCTGTAAGCATAAGTAAGGCCAGAGATGAGCTGCAAAACCAGACAATGATTAGTCACAGGAGCACCGACATCACAGAG CTGGTTAGAAAGCGTCTTCAGACGCTGACAGTAGGCGGCGACATTCGAAAAGGTGACCATCCGCACACTGGAGAACTCCT GCTCTAGAGTAACCGCGCGTGCGTTCTGATTACCCTGAAAAAGATATGCCAAACGCGTCCAAGCAGCGAAAGCAGTGGAG TTAGGCTCCATGATGGTGGTCATCAGATCGACATAAATTGTGGAAAGAATCCACTGAAGGATCGTGGCATCCAAAGTGGT CCACTGATCATAAGTAGGGTCAGTGACTGGTAGTCTAGAGGAGGTTTGTCCGCAGCAGGGACAATGTGATGAAGGACTCG GTGGGAACGAGCATGAATACGGAAAAGCTCCGCCTAGGTGCCATAGCAGGATTCGAGGAAGATGTGGAAGACATTTTTTT TTGTGTTGTTTTTTTTTTAACTAGCCGGTCTGGGTGAACCGGTTAGAGAGGCCGGTTCAGGGGACAAAGTGGTCCTGGCT GAACCGGGTGTGTTGGTCACGTGTTGGTGACGGGCAGACAGATCTGCTGCGGGTTGAAGGGACCCGATTGGAAGGAGAGG TAGATCGGGGTGGTTGGAGGCGGCCCGAGGGCGCGGTTGCTTGGATGTTGGCAGGCGGCGGTGCAGACGGCTGGCGAGGG GCTGGACGGCAGGTCCAGAACGGAGGAGGAGAAGCGGAAGTGGCGCGGCGTAGCTGCTCGCGCTGTGGAGAGAAACGACG CGGTGGTGGCTCGCGCGGACAACAGGCGGCGGTGCGGTGGCAATGTCGGCGGTAGTAAGGATCTGAGGCGTTGGCACGGG CACGACGGCTGCAAAAGGAGAAGCAGCGGCGACTGAAGGTGGAAAGAGGAAAAAGGGAAAAGAATAAAATAGGATGAGGA ACTAGGTCAGAGGATCTTAGTCTGATACCATGTAAGATGGTTTGAATGGGTGAATCCTCATTCATCTGAAATAGGTATAA ATACAAAAGCAATACAATCAAAGTCAACTAGCTAATTATGCACAACATAATTATAGGGATCTAATTGCTTAATTACAGGA AAGGAATATATGCATATCCTATTCTATCATATGCATCTGCACACGTTCATTTTTAATTGATAAGGATCTTCTGTCCTCAA ATGTTGTCTCAATTTCTTGTTCCACAATTAAGACTTGAGTGCGTGGGATAGTTATAAACTTATATGGTGGTTTTAAATTC ACATCAAAACTTTACTAGTGGAACATAGAAGGATACAATTTGAAGATTCCAATCTCTCCCTTCACCCATGTTTCTCTTTG TTGAAAAAATCTTCAATCCTCATATTTTCATACACCAATGTTTACATTCCCTTTACATATTTCTTTATCACTCTATTACT TAGTACCCATCTTAATTCTTAAGTGTTATTTTGTATTGGTGAGGAAAAAATACACCAAGAATATGTTGGTTATTTTTTAG AAAAGTGATTTGTTGACATATGTATTGTGTAGACATTCAACAAACATCCGGAGTGAAAAATAAAGTGAAAAGAGTAGTAA TAACTATGCTATATGATAGAAAAAAGAGTTAGAGAGAAAATAATGAGGTATTTATCGGATGTTTACATTATTTGTATGTC TGAAATTTAAAATGAGAAAAATAACATTTCAACCAGCAAAATAGACCCTATGTAGTGTGTACTCCTCACTGCTTGTTTAA GTTTGTTACTTTTTAAAGATGAGATGATTAACTAAACAGGCACAAAGGCAACATATAGCCATATGCAATGATGCATCAAC CAAGCAAGCTTAGAGGCATCACTCATTTTAACATGCACTACATTAGTTCTATTCCTACTTTAATTTGCAACTCAAATTAC TAATTAAGTCATTTATTGATTTGATTTTGATGCAGAGGCTCCCCAGAAGCCAGATGTGATGAAAGAACTCCAACTCCTAC TCCTACTCCAACTCGAGCTAACACCATTAATCTTCCCCCTTGGATGCTTCGTCCTACAAATGATCAATAGAAGACTAATT AATATATTACATTGTACAACTTTTCATATTGATAAATTCAAAAGCATATATAGTCAATCAAAATTAAGGCATTTGATTAG TGATAACTATACCTGGATTCCGATCTGTATGTATCATGTCTCACTGCATTTCAATGCTGCTGGGCTATATCTAGGCCTCT ATATATAGTATAATAACATTTTCCTATCAGCCTATGGCATGGGAACTTTTGTATTTGTTATTTAAATTGTTTTATAAAAT AATTCTCTTGGAAAA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0256600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGCCGGGGAAGAGTGCAGTTGAAGAGGATCGAGAACAAGATCAACAGACAGGTAACATTTTCAAAGAGAAGGTCTGG TTTGCTGAAGAAAGCCAACGAGATCTCAGTGCTTTGCGATGCTGAAGTGGCTCTCATCGTTTTCTCCACTAAAGGAAAGC TTTACGAGTACTCCAGCGACCCCTGTATGGAAAGAATTCTTGAACGGTATGAGAGATATTCATATGCAGATAAGAGGCAG GCTGATGCAAATGATCAGGCTCCAAGTGAAAATTGGGTTCTTGAACATGCAAAGCTTAAGGCTAGGATGGAAGTCTTACA GAGAAATCAAAGGAATTTCATGGGAGAAGAGCTGGATAGCTTAAGTCTCAAGCAGCTTCAGAATTTGGAACAGCAACTTG ATTCCGCTCTCAAACACATTAGATCACGAAAGAACCAAGCCTTGTTTGAATCTATTTCAGAGCTTCAAAAAAAGGATAAG GCACTTCAGGAACAAAACAACTTGCTGACCAAGAAGATAAAGGAAAAAGAGAAGGCCATCACCACCCAAGAGGAGCAAGA GGGGCTTCAAAATAGTGCAAATGTTGCCTCTGGCCTAGTAACTCAACCATTGGAGTCCATGAACATTGGAGGCTCCCCAG AAGCCAGATGTGATGAAAGAACTCCAACTCCTACTCCTACTCCAACTCGAGCTAACACCATTAATCTTCCCCCTTGGATG CTTCGTCCTACAAATGATCAATAG

Download CDS Sequence

Protein sequence (LotjaGi4g1v0256600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGRGRVQLKRIENKINRQVTFSKRRSGLLKKANEISVLCDAEVALIVFSTKGKLYEYSSDPCMERILERYERYSYADKRQ ADANDQAPSENWVLEHAKLKARMEVLQRNQRNFMGEELDSLSLKQLQNLEQQLDSALKHIRSRKNQALFESISELQKKDK ALQEQNNLLTKKIKEKEKAITTQEEQEGLQNSANVASGLVTQPLESMNIGGSPEARCDERTPTPTPTPTRANTINLPPWM LRPTNDQ

Download Protein Sequence

Domain prediction

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
ProSiteProfiles	PS50066 View details on PS50066 Search for proteins/transripts with this domain View external data on PS50066	1	61	61	32.366	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00432 View details on SM00432 Search for proteins/transripts with this domain View external data on SM00432	1	60	60	8.7E-40	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55455 View details on SSF55455 Search for proteins/transripts with this domain View external data on SSF55455	2	81	80	2.75E-33	IPR036879 Show description in modal box View details on IPR036879 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00265 View details on cd00265 Search for proteins/transripts with this domain View external data on cd00265	2	78	77	1.2629E-43	IPR033896 Show description in modal box View details on IPR033896 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11945 View details on PTHR11945 Search for proteins/transripts with this domain View external data on PTHR11945	2	196	195	1.0E-107	–
PANTHER	PTHR11945:SF402 View details on PTHR11945:SF402 Search for proteins/transripts with this domain View external data on PTHR11945:SF402	2	196	195	1.0E-107	–
ProSitePatterns	PS00350 View details on PS00350 Search for proteins/transripts with this domain View external data on PS00350	3	57	55	-	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00404 View details on PR00404 Search for proteins/transripts with this domain View external data on PR00404	3	23	21	2.6E-31	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00319 View details on PF00319 Search for proteins/transripts with this domain View external data on PF00319	10	57	48	1.9E-25	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.1810.10 View details on G3DSA:3.40.1810.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.1810.10	13	91	79	6.3E-29	IPR036879 Show description in modal box View details on IPR036879 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00404 View details on PR00404 Search for proteins/transripts with this domain View external data on PR00404	23	38	16	2.6E-31	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00404 View details on PR00404 Search for proteins/transripts with this domain View external data on PR00404	38	59	22	2.6E-31	IPR002100 Show description in modal box View details on IPR002100 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01486 View details on PF01486 Search for proteins/transripts with this domain View external data on PF01486	85	173	89	2.1E-28	IPR002487 Show description in modal box View details on IPR002487 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51297 View details on PS51297 Search for proteins/transripts with this domain View external data on PS51297	89	179	91	16.416	IPR002487 Show description in modal box View details on IPR002487 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	89	109	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	123	186	64	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	205	247	43	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	222	247	26	-	–

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000977 View details of GO:0000977 AmiGO InterPro QuickGO	Molecular function	RNA polymerase II regulatory region sequence-specific DNA binding	Interacting selectively and non-covalently with a specific sequence of DNA that is part of a regulatory region that controls the transcription of a gene or cistron by RNA polymerase II.	Subterm of View details of GO:0000976 View details of GO:0001012
GO:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
GO:0003700 View details of GO:0003700 AmiGO InterPro QuickGO	Molecular function	DNA-binding transcription factor activity	A protein or a member of a complex that interacts selectively and non-covalently with a specific DNA sequence (sometimes referred to as a motif) within the regulatory region of a gene to modulate transcription. Regulatory regions include promoters (proximal and distal) and enhancers. Genes are transcriptional units, and include bacterial operons.	Subterm of View details of GO:0140110
GO:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0043231
GO:0006355 View details of GO:0006355 AmiGO InterPro QuickGO	Biological process	Regulation of transcription, DNA-templated	Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription.	Subterm of View details of GO:0010468 View details of GO:1903506 View details of GO:2000112 Regulates View details of GO:0006351
GO:0045944 View details of GO:0045944 AmiGO InterPro QuickGO	Biological process	Positive regulation of transcription by RNA polymerase II	Any process that activates or increases the frequency, rate or extent of transcription from an RNA polymerase II promoter.	Subterm of View details of GO:0006357 View details of GO:0045893 Positively regulates View details of GO:0006366
GO:0046983 View details of GO:0046983 AmiGO InterPro QuickGO	Molecular function	Protein dimerization activity	The formation of a protein dimer, a macromolecular structure consists of two noncovalently associated identical or nonidentical subunits.	Subterm of View details of GO:0005515

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0256600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0256600.1