Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0171800
Transcript ID	LotjaGi1g1v0171800.1
Related isoforms 1	LotjaGi1g1v0171800.2
Lotus japonicus genome version	Gifu v1.2
Description	ATP-dependent zinc metalloprotease FTSH protein; TAIR: AT5G53170.1 FTSH protease 11; Swiss-Prot: sp\|Q9FGM0\|FTSHB_ARATH ATP-dependent zinc metalloprotease FTSH 11, chloroplastic/mitochondrial; TrEMBL-Plants: tr\|A0A151TYS4\|A0A151TYS4_CAJCA Uncharacterized protein; Found in the gene: LotjaGi1g1v0171800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:32743968..32759240) extracted from Lotus japonicus Gifu genome v1.2.

AGTCAACTTGGTGTAAAAGGGGATAAATTTCCAATTATAATTGGCAATATATGATGAAATTTTAATAAAATCTCAGGCAC AAAAAGATCTGAAGCAGGCGCCAATTTCAGTGTAGGATAAGGTTCCTCTCCTTGCATCGTCTTCTTCCTCACATCCTCTA TGTCTCTCCTCTAGCGTTTTCACTCCACGCAATCACACAGAGAGTGAGTGAAAGAGAATCACAATAAAACCTAACAATAA CAACAACAATGGCCACACTTCAAGCTTCTCTTCTCTTCAAACCACCCCTCCCTTTCCTCTCTCCCAACCACGCCGCCGCG TTCTCCCTCCACCACCACCTCTCCTTCCACCCCACGCGCCTCCGCCCCCGCGTCCACTGCACCTTCCGCCCCGACTCCGC CGCCAGTTCCCGCCCCGAACCACCCGAGGAACCTTCAGTCGACGCGGCCGCGGAAGCGGTTGTTAATTCGAGCAGTGACG GTGATGCGACAGTCGCGGTTTCGGATTCGGATTCGAACGAATCGAGGCTCGAGGTGATTGGTGATTTGGAGGGGGAAGAG AAGATTGGGAATGATTTGAATGAGAAGAAGGAGGTGGAGGTTGAGGCTGTTGTTGCTGGTGATACGCGGTTGCCGCTATT GGTGTTTTTGGTGGGAGTGTGGGCGAGGGCGAGAGAAGGTGTGGAGAGGGTGGTTTCGGAATTCTATGGCTGGTGGCCGT TTTGGCGCCGGGAGAAGCGGTTGGCACGGTTGATTTCCGATGCCGACGCGAACCCTCAGGATGCTGCCAAGCAGAGTGCT TTGTTTGTTGAGCTAAACAAGCACAGGTTTGTGTTGCAAATTAAGAAACGAATTTCGAAACTCGAAAAATTATTAGAATG CATGCTCAGGCTGTGAATTCTTGAGGGGTTAGTTATTAGGCTTAGGAATCTGAATGTTGATTTTAATTTGTTTTAACTTG GATGTTTAGAAGGTTGTGTTAGATAGAAGAAAATTACATGCTGAATTGGTGATAGTTTAGGGGTGGGTTTGGTTTGGCGT TGGCAGAGGGTGAACACGCGTTATATTGGAGTTGACCAGTGCAATGCTTCCAGAAAGACGCGCGTTGGCAGGGTGGGAAT GCTTACCCAAACAGGCACTAGATAAACTAATAAGGATGCTTTTCCATTAAGCATTTATAATCTTATAAGGATGCTTTTCT CAAATCAGAAGCTGGAAGTAGAAATATGAATTTGAATTTGAGTTATTGAAGAATGTGGGCATCTAATTTACTGGGGAAAA ACTTGACATTAGGAGAAAATTCAGTTAGGTATACAATAGGTCGACCTGTTTTTCTTTAAGCTGGAAATTGTGTTAAAGTT CACAGGTCCGTATTGTAAATTAAGAAACGAATTTTGAAACCCGAAAAAATATTAGAATGGATGCTCAGGCTGTGAATGCT TGAGGCGTTAGTCATTAGGCTTAAGAATCTGAATGTTCATTTTATTTTGTTTTAACTTAAATTAGAAGGTTGTGTTAGAT AAAAGAAAATTACATGCTGAAATTGGAGATGGTTGAGATAAACTTTTCAATAGGAGACTACCTATTTTTCTTTGAGCTGG AAATTGTGTCGAAGTTCATTAGCATTTGTATTAAAAAAGTTCAATTCATGTTTTTTTTTTTTCTAGTCCTGAGTCTGTCA TTAAGCGATTTGAGCAAAGGGATCGAGCTGTGGACAGTAGAGGGGTTGCAGAGTATCTTCGGGCTCTTGTAGTCACTAAT GCGATTGCCGAATATCTTCCAGATGAGGAATCTGGAAAACCTTCTAGCCTTCCCATCTTGGTAATCACTTTGAATTATTC ATGTTCTTGTGCTTGTTTTTTCAGTCTATTATTAGTATGTATTAGTGAATGCTTGGTACTTCATTTTTCATTATTGGAGG TGGAGAGGCGTGGTGCTAGACGTCTTGTTTTGTATCTATTTGTTGATAGTAGTCTGTTCAAAAGTAAATTTGTTCTGTTT TGTTTTCCACAAGCATCATCATAGAGATTTAGATATATGTTGTAATAGATAATTTCATTGTGTGCGATTTATATGTGTGC GATTTCCTCTGTGATGGTTTTTTCCTTTCCAAATGATGTTTTTTTCTTATTGAGGTATTAGTTTCATGCAGCACCATTTT CATTTAATTTTTTACTTTTGAATCAACTCGGCTGAATTGTTTGTATATTCCTGATTTCGTGAATGTTACTAATTATGACT CTAGCCTTATTATGAAAACTTGACATGATTGGTTTTGTGAATTCCAGTATTGTTTTCTTGAAACCTTGATTTTGGTTTTG CTTACTGATTGATTCAAGGACTAGTGTCTCAACTCACAATGCATGCTTTCTGTGGATGATATAGACCTAGTTGGAGTGTT AAGAGAGGGAATTGAAGTTGTCAAAAAAACTTTTGAAGCACGTGTTTACTGGTAAAGTATAAGCAAAATAGATTGCATTG AAGGTTGGTTCAACAAGGTGTGCATGGGCTCCAGCATAAGGATGAAAATTGGGAATCATAACATTCCACTATCTTGGGTT GTCTATTAGAGATACTTGTTCATAACCTTTCATATTTTTTATGTAATAGGCTAATAGCTTAAGAATTTGAAATACTTGTT GGCATTATTATTTGAGACGATAGAGAAATAGAGGGAGACACAAATCACAGGATTTAAGTTGGGTGGATGAGAGGGAGAAA TTCCTGGTGTGTTATGTGTGATTGAAAGATACTTTTGAAGCTTAAAGGATGATTTCATCTCACAACCATAAAATCTGCAT GCTGTTTTGGTACTAAACTTTGAGCCATATAGAACCAAGAAGAGAAAAAGCTCAATATTGCAAAAATGAGGATGTTTGAA TGATCAGACATGGAAAACAAGACAAGATAGTATGATAAATGAATGCATTAAAGAGAAAGTGGGGAGTAGTATCTGTTGGG AAGAGGAAGATTAAATCTCATCCAAGGTGTTTTGGGGATATGAAAAGATGACTATTACAAACCTCAAATGAAGTGGACCA AATGAAGGATACGCTATAGTTAGAGGTAAAAGGAAACTGCGAAAAACTCTAGGATAAACCATTAATAATTAACATGAACT TAGATCTAAATGGAATTGAGAATTTGGTTCTTGATAGAACACAATGGCGTTTCTTGTTCTATGTGGTCTGTCCACATAAT GAGAAAAAAGACCTTGGTGGTTTTTTTTTCACAATATTTTTTTTGGATAATCTATTTTTCTGGTACATTTTACATAGCTG TCTGGATCTGAATTGTTTGATTTGCCTTTTTATCTTAGAGTCTGATAGAATATGTAATGGAGCCGTAACGATAAGGATTC TTGTCCAGTTACTTATGCAAATTTTCCTTTTGTGAACATGAACTTTGTTTGATCATATTAACAGTCTCATTTGACGTTTG AGTTAATAATTTACTTGTTTTATACTGCGGGCAATTTATAGCAAACATATTTTTCAGTTGCAAGAGTTAAAGCAGCGTGC ATCAGGTAGCACAGATGAAGCTTTTCTTAGCCCTGGAATATCAGACAAGCAGCCGTTACACGTGGTTATGGTAACAATTT TACCAAATGACTTTGTTTATTCTTGGAGTGGTTAGCATATATAAGTACTAGGGAATAAAATTGTTCAAATTTTCTTTTGT AACCCAGATTCTTTTGCTTGTTTGTTCTTGGAATCTCATGAAGCTGTTTGGTCCTTTAGGTTGATCCAAAAGTATCAAAC AAATCACGTTTTGCCCAAGAGCTTATCTCGACTATTTTGTTTACTGTAGCTGTGGGATTGGTCTGGTATGAGCCGTTTGT TTCTCTCTGTCTCTCTCATTCTTGTGTATAGCATTCACTCTTTGAGTTGTGTATACTTGTATTTCTGCTATGGTCAGGTT TATGGGTGCTGCTGCACTTCAAAAATACATAGGAAGCTTGGGTGGGATTGGAACTTCAGGTGTTGGTTCAAGTTCTTCCT ATTCCCCAAAGGAGCTAAATAAGGAAGTAATGCCAGAAAAGGTTGACTTGTCAATCTATTCTTACTGACATACTATGATT TCTATTACAATATGCGAAATTGTATAGTTTAGATAGGGATAAATAAAATTTGGACTTTCAATGGACATGTTTGAATTAGA AGATTGTAAGTGAAATAGGTTAATCGACAATGACATGATATATGCATAATCCTTCTATTATCCACAGCTAAAAAAGTCCT TGCTAACCACATGCCATTACTTCTTCCGTTGACCACTCAACAATGAAGTTGGAAAGATTAACCACCCCCTTTAGTTCTAA AGTTATATCTAATACTATCAAGTGAGTCATTTATAGTTTGCTTATTTGTCGTGTGGAAGGTCATTGTATTGAAGGTCTTG CATTTAAAATACATCAACAAATCAGAATTCTGCCAGACCTCTTTATATAATCTTTTTCTAATATCTCTTTATATCTCATT CTCTCTCCTTACAGAATGTAAAAACTTTTAAGGACGTGAAAGGTTGTGATGATGCAAAGCAAGAACTTGAGGAAGTTGTA GAGTACTTAAGGAATCCAGCTAAATTTACGCGCCTTGGAGGAAAGTTGCCAAAGGTCTAACAAAGTTATTTTTCTTTCTG TTGTGCTCCCCCCCCCCCCGATAGCTTTTGTTCATATTTCTACTTTACATGTATAGGCTTGTTAATTCTTAGGAGAAAGA CCTTTATTCCATTACTGTTTATGAGCTGATGATAACACATTTAATCCATCTCTATATGCACATTTTGTTAATCCTATTAA ACATTTGGGTTTTGATCAGCATAATTTTATGTGATCTTTTTGTTTTCATTGCATACTATGCTGATGAACTTGCTTTTCTT TTACATCAAATGAGGCTAAGGGTTTCTTCTTCTTTTCAGGGTATTCTTTTGACAGGAGCGCCTGGAACCGGAAAAACACT GCTCGCCAAGGTCAGTTAAATTCTATGTCGTCAGAAATTTAAAAATTTATTGTCTTCCATAATTAGAACTACTGGTGTTT CTTTTTAATGTTATTTATGGATTCATTGTCATTCTGGATGTGTTACACTGTCACTGTTATTATACACTATGTGCTATTGG GAAGTTCATGGAGGGACATAAATCTGGATTCCGGTTGTTGTCTCTGTCTCTGATATTGTTTACACTCTGACACTCTGCTG AATTCTTCTGAACTATAACTAAAACCCTACTTTATTGTTATGGACATTATGAGTTAATCTATTAAAATTCATGATTATTA TGATCTGATTGCATTTTCTTTATATGGGACCTTGAAGGCTATTGCTGGAGAAGCTGGCGTTCCATTCTTCTATCGGGCAG GGTCTGAATTTGAGGAAATGTAAGGCTGCTTTTGTTTTCTATAACTTTAAATTTTTAGCATTGGTATGTAGCTTTGAGAT TAGGATATTGCATGCTAGTGGGCTTGAATGAGGGTACATTAATTTTATTCTGAAAGTGACTAAGAATGCTGTTGTGTTAC TTCTTTTTAATGAGAACACTGGTGTCATTTGTAATATAAACTGTATGTTTTTCTGTTATTGATCACTAGATCTTATTTAT TATTTCAATTTTCGTGGGAACGTGATCTTATCAACATATTACTAAATCAGTAACAGTATTCAGTCTTTTGTTAACAAGAA TTGATGCCTTTCTCAGTCTTTTGTTTCTTGGGGGAGGGGTAGTACAGGCACCATTTTGTTGAACTGAATGCATTGCTTGT TGGTTATTCCTAAATTGATTTTCAGCATCTTGACATAATGAACTGTGTTTGTTGTTAAGACTGAAGATATGTGAAAAGAA TTTAGTATATTTGTCAAGGGTCTCCATGTTTTAGCTCAAACACAGGAGTTGCCTTTTTATGATCTCTACTACAAAGGAAT ACATAAATAATTTCAGCATTAAAATATGTTAACACAATGATCAGTTATTAACATTCTAGTGTTTCTTATTTCTGTGAGAT GTGTAGCACTTTTAAATTGGTTAATTAGATGCTAAAATGTTCTCTGTTAGTTTCTTTCCCTTCAGAAAGTTGTAATTCCT GGAATGGGTTTCTTGTGCATTTGCATATCAATACTGTAGCCATTTTATTGCATTGAGTGTTGTGATATGTTGGCTGCTAG GGGTGATCATTTCCATATCGCTTTTCATGTTTAGGTTTGTTGGAGTTGGAGCTCGACGTGTAAGATCCTTATTTCAAGCA GCCAAAAAGAAGGTTTGTTGTTTTTTTGTTGATGGTCTCTCAAAACTGTCTCTGGCTTCATCTGTACATTGGTCCTTGTT TCTGATTCTGGAACATGCTTAATTTGTCTCTATCTTGTGTAGGCTCCTTGCATCATATTCATTGATGAAATTGATGCTGT TGGATCAACAAGGAAACAATGGGAGGGCCATACCAAAAAGACATTGCATCAACTTCTTGTTGAAATGGATGGGTTTGAGC AGAATGAGGTATCTTTGAACAGTTTGGGTGCAATTTCTTCCTCTCTGCTTTTCAAAATCTATTCACAATTTTTTATCTTG TAGGGAATAATATTAATGGCTGCAACAAACTTGCCTGATATTCTTGATCCAGCTTTAACAAGGCCTGGTAGATTTGATCG GCATGTAAGTTCTTACATTATTTTCTCCCCTATAAAAAGTTATGAAGTGAAAAAAGAGATGTGGATAGAAGGATGATAAC AAGTCCTCCTAGAGAAAGAAAGAAACAAACTAAGTTAGAGACAAAGGAAAATATAAAACATAGCTAGAAAATACTTTGTA GTGTCTCCCTTGTCAAAGCCAAAATGATAACTCACAGTGTAGAATTGTTCTCCTAAAAACCCTGGCATTTTACTCAGCAA CAAATCTACAAAATAGTGATACACCCAAATGGTCTTATACACTCAACCAACACCTCCGAAACTTGAAGAAGAAAAGTGGT ATTCAGAGCTTCAATAAAACTGTTTGGTCTGTTAGTAACAGTTAGTGTGACAGTTAGTTAGTTGGCTAGGAAATTTAGAA GAAATAATGCATGTTACTTGTAAATAAGAGAAGGGGTTGAATGGGAGAGGTATCTTTTCAGTTGAGAGAGGGATGGCCTT TCGGTAAAGGGGTTTCAAAATGCAAACCCTCTGAATTTTGCGAGTTTGTAGCTAGGGGAGATTTTCCCAGGCTTTCTAAT AAAATACCAGTGTTCTGTCTATTGGTATCAGTGTTCTGATTTTGGAGCAATGGGTAGTCCATTCTAATGATTTTTTACTA TTTGAGGAGCTGTTATTGGGATGAGCAAGAATGGAGAAGAAACTCTCGAAGAATATTGGTGAGAGATTGCATACTTGAGT ATATAACTCAATGAAGGACGAACTAAATAGCATAGTTTGAAGGAAATGAGGCTTGCTGGTTGTAGATCCAGCTGATGCAG AATCTCTATGCAAGAGTGATAGGTTCAGACTAGAAGAAGAGAAAAGAAACTGTTGAGTTCTTATTAGGATATCTCTGCTT CCTGTAATTGGCAAGAACAGAGGGAAAATGAATACAAGTATCCCCTGGAAGTTCGAGTATCCAGTGCACTCCCACCAAAC TAATCCCAGTTATTCCCTGCCTAAACTCTTTCTAGTTTCTATCCCTATCCTTATAAAGGAGGAAGTTATTCTATACAACT CTCAATTAACAGAATGTATTACCGAAAACTACTTACAACCAACTAAGGGAAGAGGTTGTTATTCCCTGCTTCCCTATTTA CATTTCCTAACATAGACCTTCGCCAATGTAGGTCGGTCCCTATCAATACCCCGCCCTAAAACATCCACCTTGTCCTCAAG GTGAAAATCTGGGAAAGCCTCCTAAATGCAAGCTGCAGACTCCCAACTATCTTCATAATCGGGGAGATCCAGCCAGTGGA TCAAGACCTCCACTACACCAAAAGCTGACTCACGGGACTACGGGAGTCCAAGACCGAAGCCGGATACACCACCCATTCCT GATCCTCAAACATCACTTGGGGCAGTGGCTGACTCTGAAAATCCTTGCCCGCATCCTTTTTCAAAGTGAAACATGAAAAA CCGGATGAATCCTACTATGAGAAGGAAGATCCAACTTATAAGCAACAGCTCCCACCCTGTCCAAGTAACTTGGAAATTTA TAGCATTCTTCAATAAAGTCACTTTTTCTTTCTTCTTCATTGGCTGTACCTGTCATGATAATATATTCTGTAGATATTCT AACATGGTACTCAATTAATAGCTATTTAGAGGGTTTTGTCTATCGGACATGCAGAGAGACTGCCTAGCCTAACTTAGATG ACATGCTTATCCTTTTTCTGGTTGTGGTGCATTTGGGCTTTCCATTGGAGTTCACTTGACCTAGGTTTTATTCTGCTTGA ATTTTTGTTGAGCTCTTCAAGTGGCATGTTGACAAAATTTAGATTCAAGCACCCCGTAATGAGGTCTAGTAGGAGATATC ACATGCCATGCTTTAAGCGTCTTTCTTTGTCTGTTATAGTAGTATTTTCTTCTTTTAACCAAAAATTATAAATTTAAACA CCAGCCAAGCAACCTTACATTGAACACTTAAATATAAAAGATTATCATACCAGTGTGCTGAATGGATAAGTTAGTTTTCT ATTAAATATGGGAATTGTGATGGTACCCTTATGGACATATTGTACTCAAGGTGAGTTATGAAGCATCTATTGATTATTAA TTTCACTAATAGTTGACAATCTGTTAAATATATAATATAAGTATCAACTACTATAGTACTTCTCAACGTATCTTGGGTAC TAAACCGGTAAACCCAAATAAAGAGAACCGAATTAATGCTTATAAATTATAGAAGATAAGAAGAATGACAAACTCTGAAT TGCAGATTGTTGTACCAAATCCAGATGTACGTGGTCGGCAAGAAATTTTGGAACTCTATCTGCAAGACAAACCTGTAGCT GATGATGTTGATATTAAAGCACTTGCTCGTGGTACCCCAGGATTCAATGGGGCAGGTGAAGTATAATTTAAATATATTTG ACATGAGCTAATTTTTATTAATGCTAATCATATACTCCTTTGAAGTTCTGAAGTATGTTGTCTCTAATTATATATTCCCT TAAACTAGATCTTGCGAACCTGGTAAATGTCGCTGCCATTAAAGCTGCAGTGGAAGGTGCAGAGAAAGTAACAACTACAC AGTTGGAGTTTGCAAAAGACAGAATAGTTATGGGTACAGAGCGGAAAACAATGTTTGTATCAGAAGAGTCAAAAAAGGTA TGTGCATTTGGCAGGAAATCTGGTTTAGTATTTAAACTAATGAACGGTGGCTTATACGATTGATATAAACTATAGGGTTG CACTACATATTTTTGAACCTTAATTGTCTAAAAAAAAAATTGAACATGGATCTTCTGTGCTACATCATATGAAAATTACT GAGTTTTCCCTGTAGCAGTAGTAAACACATGCTGGGAAGTTGCAGCAGGCTTATCAAAATACTAAAATTATGAAAACAAG TTTTGGGAAGTTTTAAACCCTGTCATGAAGTAACTATCCCAAATGGTTAAGTTGTTAAGTGAACTCATACGAATGGTTAT ATATTTATTTCTATCATACTCCTTCATACAACAGTCCTTTGAGCTTGAAGTGTGTATAATGCATAAACCCATAAGCCACT TGGTCATATAGAGGCTTTGATACCTTGTCTTAAATCAATGATTCCAAAGTTTACGCCGTTATGTGAAGCAACCCAAATGA TTTTGTATTTATTGCTAACATGACCCCTTAAACTAGAGCCCTTTGAGTTTAAATCGTGGACAGTGCTCAGGAACACCTAT CTTGTGCTTCAATTCAACTTTTTATTTAAAGGAGGGAGTAACAGGGATCAAATTCTAAACCATTTAGTTATAGAGGTTTC ATACAATGTCATGAACCAACTGTTCTAAATGTTTACTTGGATGATTTTATTTATTTTTTTACTATTATTTCTAACAAATG ATGTGAAGATAGGCTTAGCATCACTGTTCAGTATACTAAAAAGTACTAAGATGGAAAATTCTGGAAACTAAACCATTCCA TTGACTGTACCACAAAATGGTCTCAGAGAGAACACTGACCTTTATATTGTGAAACTAGAAAAATGGATGACACTAACAAA TAGTTAGTTGCTAAATTAGTTGTTTGCTGGTATACATGGATAAGTAAATAGGTTCTTTTATAAACGTTTCACCTCTTTTG ACCATTTTTCTCAAGGTAACTTTCTGACGTACTCATTGCTCAGAACCAACTATTTTACAAATATTTTTATCATCATTTAA GTCTAATTTATTTAGAATAATCAGATTGTGCTGGTGTATTATGAAATGTTCTGCTCTCTGTACCAGTTTGCCACCGGTTT ACCTAAGTAGATGCCTATCTACTAGTAGTAATAGCTTTTATTTGCAGATAATAAAATATTATGTTGATATATGTTTATTT ATGCTACTAGTGCTTGTGAAAATTTCAGCTTACTGCTTATCATGAGAGTGGCCATGCAATTGTTGCCCTTAACACTGAGG GTGCACATCCAATTCACAAGGCAACAATCATGCCACGTGGATCTGCTTTAGGAATGGTCACTCAGCTTCCCTCAAGTGAT GAGACTTCAATAAGCAAGAAGCAGTTGTTAGCTCGCCTTGATGTTTGTATGGGAGGAAGAGTTGCAGAAGAGCTTATCTT TGGTCAGGATTATGTCACAACTGGAGCAAGTAGTGATCTTCATACTGCTACTGAGCTTGCCCATTACATGGTAATATTCT GCTCCCCTGTTTTGTGTCAAGTGCAGTCTGGGTATTTTAAAAAAACTATGTCCCTAATGGTGGATGGCGGTACATGGAGG AAGGCCTAAAATTCGCTATAAAAATGACACGTGAATGTTGGCGGTCTATAGCAGCAGCTATATAAAAGTAATACACACAC TCTCACCGTATACCAAAAGGCACTACAGAATGTGGTAAAATAAAAAAACACTAATAACCTACTCAATTGTCAAGAAAAAT AAATTAGAAACATGTTTTACTAATTGAAAATCACCAAAAGTATCATAGTTAAGCAACCCTTGAATGATTGAATCACTTAA CAAAGAGGATAGAATCCCAAGAATGCAAGAAGTAGGGCAGAGAGTACAGAAGGAAATAGAGAGACATGTAGAGGAAGGAA AAAGTTGTATATAGAGCAGGGACTGAGGCTTAGAAAATAACGAAATACTAGAAACGAATGGAGGAAGAGAATGGGCCATC CACAGTCGTACCGTTCATTAGGGATAGAAAAGAAATATGATAGCAGCTGAGCAAGTTTGAGCCTGAGACGAGCAAAGACG TGTGAATGAGAGCAGATAGCAAAGAGGGTTTGACAGGTCATTAGTATTTTGGCTTAATTGCATTTCTTGTTGTTAACCTC AGAGAAAACAGTTTCTAAATAAAGTGAAATGATTTCATTAAACTGAATGTGTACATGATTACACTATATATACAGTTCAA CAACCAGAATTGACTCTAACAGAATGCCAGCAAAGTGCCAGATAGACTAACCACCTAACTAGCTACAAACCTAAACAGTA GGCTTAACAGAAACTAACATACAGAGAATATGTTAAACAAGGGTTGTTAATTGCGCGTGAAAGAGGTGCTTTCCCGCGAG GGCGAGGGCGAGGGGCGTAGCGGCGCAGATAGGCATCGCAGTGATCACGAGCGCTACCGCGGCCTGATTCGCAGCCATGG GGGTACGTTAGGTTTTTCAGTTCTATTAGTGGGGGTATTTATTATTTTTTGGGTTCTTAATTCCTATAACCCTAAAGAGA CCCTGAAAGTCGAATTAAGACTTGTGCTGCCTCCCTTGGACCGTCGAGCCTCTACCGGCCGCTAACGAGCCCAGCCGCCA GCGAGCCTCGGATGTTCTTCTGGCTTCATCCTCCTTCTTCCTGCTTCTTCTTCGGTGTAGCCACCATCTTGCTATACACT CAATGTTGTGAAAAGCTAGATTCTACGTAGAATCGGAGAGGGGTTCAAAATCGTATAATCGTATAATCGTAAATTGAATC GTAAGATTCTACCATAAATAGAAAAACAAAAAAATAGCATTGATATCTTGTAAGTCACATCATTTAACAAAAATTGGAAT AAAAATTCATCAGATTAACATCCATATAAGTCATAATCTCAATCCAAAATCATAAGAGTACTAGAACATGAAATTAAAAG ATGAAACAGAGACGTTGAAGAATGAAGGAAAACAAAGATGTTGAAGAATGAAGAGAAAACATAAGAGGAAGAGACCTAGA TAGAGACTACAGAAAACAGAGCATGAATGCGTGATTCAATTCACTCTACTATGAGTGAATTAAATAGGCAATTAGAGGCA TGAAGGTTGGGTCACATGAGTTGATTTTTCGAAATATACAATCAGTTATTAATTCTTATCAATTAACCATTCAAATTTGG CAACTACAATCAATTAGAGCTTCAATTTCAAAATCCCCTAAATGCTGGGTGGTGGGTTGTTTTTTCCACAAAGTCAAAAA ACTCTCTAGTTTCCCCAATTTTAGGAATCAGCTTCAAAAATTAAAAAAATACTAGAATCGTAAGATTCAATAGGATTTTA CGATTTTACGATTAAAATCTAAGATTCTACGGGATTCCACCAAAAAAAAGATTTTGCATGCGTTTTGAATCGGAACAGTG CTGCAAAATCGTAAAATCTTAGGATTTTGCGATTTTGCTATAGATTTTGCTAACATTGTATACACTATACTGCTATATAG TGTTTGTCGATTAACATACTGAAATCTATTAAAGGAGCTCCAGGAAAAGGTTTACTATACGAAAACAAGGGGCATGCACG AGTTATAGGAGCGGGTTCTTCTCCGGATAGGATATCTGCCTCTGGGTATTGTGTTTTCCTTGGTGATAACTTAATTTCCT GGAAGAGTAATAAAATAAGTGTAGTGGCAAGATCAAGTACGGATGCAGAATATCGAGCCATGGTTACAGCTACTTGTGAA CTTATATGGCTCAGACAACTTCTTCACGACTTGAGATTTAGGGACGTTCCACAGATTACACTTATTTGTGACAATCAGGC AGCCTTACGCATTGCCTCTAATCCAGTAAATAAGTAGGTCTTTAATTAAATTTGGCTCTTTTATTAATTGTAAATAGGTA GCATAATCATTGAAAATAGGGTTACAATGACATTGTACATTTATTTCTCCTATTATATATAATGGTGTCCGCTGTGTGAT TGAAACACACGGATTCAATCTAAGTTGTCTCTCGGGTTCTCCTAATTTTATACTTTCGTTTTTAAATGAGCTTAAAATCC AATGCTTGACTCTGTTTCTAATTTTCCTCTCCACACAAGGTATCAAATTGTGGGATGAGTGATGCAATCGGGCCAGTTCA TATAAAGGAGAGACCAAGTTCTGATATGCAGTCACGTATTGATGCAGAGGCAAGTGCTATGAATCTATATCCTTTTATAA CGTGTTGATGATGAAAATCATGTTTGGTTTAGTTGATTTTCTCTCTAAAGAATACCTTAGAAAACATGAAATCTATTGGA TTTAAGTTTTGTTACCTGTTCTGCAGGTTGTTAAACTCCTTAGAGAAGCATATGATCGAGTGAAAGCCCTTCTGAAGAAG GTTTGTCAAATTAAATTAGCTGCTTAGCATGGTTTAATATTTGTTGGCTATCTCGGATTATGCAATGTTTGATATCTACT AGTGTTTGGCATCTGAAAAGTCATAACCCTAGTAACATTTTGACCTTTCTTCAGCATGAGAAGGCATTACATGCGCTGGC AAATGCATTATTAGAGTATGAGACACTTAGTGCAGAAGAAATCAAGCGATTACTTCTCCCACATCGGGAAGGAAGACTTC CAGAACAACAGGAACAAGAAGAAGCAGAAGGGGAGCTTGTACTGGCGTAATCTTTTTCTGTACTTCCTGTCCATTACTGT ACTAATTATAGGGGAAGCTCTGTACAGTATACCTAGAAGTCCTACAGGTATTTTTATTAATCTAGTTTCTGCCAGTTCCC CTCTTTGTGCATACTATTCTTTGCAAAAGATGGTTATAGGAAGTAAGTTATATGTTGTAACCTTTGAATATCTCTGAAGC AACTACTCCCATTAGAGTATGATTGCTCTTTGTGAGGGCAATATTTTTTTGAGAACTGTATAATTTTTAGGAAGTAACTT ATTGGACATTTTGAGAATTGTGTTTAGTAGCCTATTCATTCTTCATTAGTAAGAATTTCTTTATATTATGGAGTTCCAAG TTTTCGTTGGCAAGGTTAAATTGTGAATGGAAGGGTTGATAGAAATGAAATGCTTGCACACAATGAGCTGAAATTTTCCC CAACCCCAAATTCCTGAAACCGGGCCTTGATCATTGTTGATGATCTGAACTTTGAAAATGTAATCTTTGAATCAGCTGGA AAATAGTAAATCTAAAGAGTGGCTGAGAGCCTTCTTTCATATATGCGAATATGAATCGTCATCAACCAAAAAAGAGTGAA ATGACATTTTTGTAAGCTGAAAATTCCAGTTACATCTGCATTGTGGATGATGTTACGAGACGGGAGACCCAGCAAACTCA ATCAGGAGTATTTTCCATGTGACATGAAAAAAGCTTTCTTCCCTATTGAAGTTTTTCTACCCCATCTAAGGCAGTTTTAA CGCTCTCTTCCGTAAGAGATGTCTACCCTTGAAGTTCAATTTTGTTTACTTATTGTTCTTGTTTGTTCAAAAGGTTATTG GGTCCAATATCATTTGAGGCGGCCCAAAGGACCCATAGCTAAGTGGACTCCATGTGGGTCAGTCGAGATGATCGAAAGCG AGTTTTGTCTGATTCAACTTAAAATGGAGCGAACATTAGCCGACATGTTTATAACACCATTACAAGGCTGCTTTGTTTTG TCCAAAAAAAGGCTGCTTTGTGGAAAGCTATGTCTTGGAAGACAAATTAAGTCTATACCAAGGCACAACGCCTCGAGTAT GACTCTTACCACGTATATAAATGTAGGCTTGGCTATTTATTTATCGAAGCACATTACTCATTTTTCTATCTCATTGTTTT TCTATGTTTTTGAGCTTCTCGCGCAACACTCTTTCTGATTTGAGTGCCGGAGAGACTCTGCAGATACCTCTACTTGTCAT GTTAACATCTCACCATCGTGCCAGAAGATTCTTGAAGGTCGTTTGCCACTGTAAAAGATCAAGAGCATCCGGG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0171800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCACACTTCAAGCTTCTCTTCTCTTCAAACCACCCCTCCCTTTCCTCTCTCCCAACCACGCCGCCGCGTTCTCCCT CCACCACCACCTCTCCTTCCACCCCACGCGCCTCCGCCCCCGCGTCCACTGCACCTTCCGCCCCGACTCCGCCGCCAGTT CCCGCCCCGAACCACCCGAGGAACCTTCAGTCGACGCGGCCGCGGAAGCGGTTGTTAATTCGAGCAGTGACGGTGATGCG ACAGTCGCGGTTTCGGATTCGGATTCGAACGAATCGAGGCTCGAGGTGATTGGTGATTTGGAGGGGGAAGAGAAGATTGG GAATGATTTGAATGAGAAGAAGGAGGTGGAGGTTGAGGCTGTTGTTGCTGGTGATACGCGGTTGCCGCTATTGGTGTTTT TGGTGGGAGTGTGGGCGAGGGCGAGAGAAGGTGTGGAGAGGGTGGTTTCGGAATTCTATGGCTGGTGGCCGTTTTGGCGC CGGGAGAAGCGGTTGGCACGGTTGATTTCCGATGCCGACGCGAACCCTCAGGATGCTGCCAAGCAGAGTGCTTTGTTTGT TGAGCTAAACAAGCACAGTCCTGAGTCTGTCATTAAGCGATTTGAGCAAAGGGATCGAGCTGTGGACAGTAGAGGGGTTG CAGAGTATCTTCGGGCTCTTGTAGTCACTAATGCGATTGCCGAATATCTTCCAGATGAGGAATCTGGAAAACCTTCTAGC CTTCCCATCTTGTTGCAAGAGTTAAAGCAGCGTGCATCAGGTAGCACAGATGAAGCTTTTCTTAGCCCTGGAATATCAGA CAAGCAGCCGTTACACGTGGTTATGGTTGATCCAAAAGTATCAAACAAATCACGTTTTGCCCAAGAGCTTATCTCGACTA TTTTGTTTACTGTAGCTGTGGGATTGGTCTGGTTTATGGGTGCTGCTGCACTTCAAAAATACATAGGAAGCTTGGGTGGG ATTGGAACTTCAGGTGTTGGTTCAAGTTCTTCCTATTCCCCAAAGGAGCTAAATAAGGAAGTAATGCCAGAAAAGAATGT AAAAACTTTTAAGGACGTGAAAGGTTGTGATGATGCAAAGCAAGAACTTGAGGAAGTTGTAGAGTACTTAAGGAATCCAG CTAAATTTACGCGCCTTGGAGGAAAGTTGCCAAAGGGTATTCTTTTGACAGGAGCGCCTGGAACCGGAAAAACACTGCTC GCCAAGGCTATTGCTGGAGAAGCTGGCGTTCCATTCTTCTATCGGGCAGGGTCTGAATTTGAGGAAATGTTTGTTGGAGT TGGAGCTCGACGTGTAAGATCCTTATTTCAAGCAGCCAAAAAGAAGGCTCCTTGCATCATATTCATTGATGAAATTGATG CTGTTGGATCAACAAGGAAACAATGGGAGGGCCATACCAAAAAGACATTGCATCAACTTCTTGTTGAAATGGATGGGTTT GAGCAGAATGAGGGAATAATATTAATGGCTGCAACAAACTTGCCTGATATTCTTGATCCAGCTTTAACAAGGCCTGGTAG ATTTGATCGGCATATTGTTGTACCAAATCCAGATGTACGTGGTCGGCAAGAAATTTTGGAACTCTATCTGCAAGACAAAC CTGTAGCTGATGATGTTGATATTAAAGCACTTGCTCGTGGTACCCCAGGATTCAATGGGGCAGATCTTGCGAACCTGGTA AATGTCGCTGCCATTAAAGCTGCAGTGGAAGGTGCAGAGAAAGTAACAACTACACAGTTGGAGTTTGCAAAAGACAGAAT AGTTATGGGTACAGAGCGGAAAACAATGTTTGTATCAGAAGAGTCAAAAAAGCTTACTGCTTATCATGAGAGTGGCCATG CAATTGTTGCCCTTAACACTGAGGGTGCACATCCAATTCACAAGGCAACAATCATGCCACGTGGATCTGCTTTAGGAATG GTCACTCAGCTTCCCTCAAGTGATGAGACTTCAATAAGCAAGAAGCAGTTGTTAGCTCGCCTTGATGTTTGTATGGGAGG AAGAGTTGCAGAAGAGCTTATCTTTGGTCAGGATTATGTCACAACTGGAGCAAGTAGTGATCTTCATACTGCTACTGAGC TTGCCCATTACATGGTATCAAATTGTGGGATGAGTGATGCAATCGGGCCAGTTCATATAAAGGAGAGACCAAGTTCTGAT ATGCAGTCACGTATTGATGCAGAGGCAAGTGCTATGAATCTATATCCTTTTATAACGTGTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0171800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MATLQASLLFKPPLPFLSPNHAAAFSLHHHLSFHPTRLRPRVHCTFRPDSAASSRPEPPEEPSVDAAAEAVVNSSSDGDA TVAVSDSDSNESRLEVIGDLEGEEKIGNDLNEKKEVEVEAVVAGDTRLPLLVFLVGVWARAREGVERVVSEFYGWWPFWR REKRLARLISDADANPQDAAKQSALFVELNKHSPESVIKRFEQRDRAVDSRGVAEYLRALVVTNAIAEYLPDEESGKPSS LPILLQELKQRASGSTDEAFLSPGISDKQPLHVVMVDPKVSNKSRFAQELISTILFTVAVGLVWFMGAAALQKYIGSLGG IGTSGVGSSSSYSPKELNKEVMPEKNVKTFKDVKGCDDAKQELEEVVEYLRNPAKFTRLGGKLPKGILLTGAPGTGKTLL AKAIAGEAGVPFFYRAGSEFEEMFVGVGARRVRSLFQAAKKKAPCIIFIDEIDAVGSTRKQWEGHTKKTLHQLLVEMDGF EQNEGIILMAATNLPDILDPALTRPGRFDRHIVVPNPDVRGRQEILELYLQDKPVADDVDIKALARGTPGFNGADLANLV NVAAIKAAVEGAEKVTTTQLEFAKDRIVMGTERKTMFVSEESKKLTAYHESGHAIVALNTEGAHPIHKATIMPRGSALGM VTQLPSSDETSISKKQLLARLDVCMGGRVAEELIFGQDYVTTGASSDLHTATELAHYMVSNCGMSDAIGPVHIKERPSSD MQSRIDAEASAMNLYPFITC

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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	289	289	-	–
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	24	24	-	–
PANTHER	PTHR23076:SF106 View details on PTHR23076:SF106 Search for proteins/transripts with this domain View external data on PTHR23076:SF106	58	732	675	0.0	–
PANTHER	PTHR23076 View details on PTHR23076 Search for proteins/transripts with this domain View external data on PTHR23076	58	732	675	0.0	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	290	311	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	312	740	429	-	–
TIGRFAM	TIGR01241 View details on TIGR01241 Search for proteins/transripts with this domain View external data on TIGR01241	323	721	399	3.4E-169	IPR005936 Show description in modal box View details on IPR005936 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	335	517	183	4.3E-64	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	349	616	268	1.38E-65	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00009 View details on cd00009 Search for proteins/transripts with this domain View external data on cd00009	361	515	155	4.35076E-28	–
SMART	SM00382 View details on SM00382 Search for proteins/transripts with this domain View external data on SM00382	383	518	136	2.8E-23	IPR003593 Show description in modal box View details on IPR003593 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00004 View details on PF00004 Search for proteins/transripts with this domain View external data on PF00004	387	515	129	2.5E-40	IPR003959 Show description in modal box View details on IPR003959 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00674 View details on PS00674 Search for proteins/transripts with this domain View external data on PS00674	486	504	19	-	IPR003960 Show description in modal box View details on IPR003960 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.8.60 View details on G3DSA:1.10.8.60 Search for proteins/transripts with this domain View external data on G3DSA:1.10.8.60	518	591	74	2.2E-24	–
Pfam	PF17862 View details on PF17862 Search for proteins/transripts with this domain View external data on PF17862	538	580	43	4.9E-10	IPR041569 Show description in modal box View details on IPR041569 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.58.760 View details on G3DSA:1.20.58.760 Search for proteins/transripts with this domain View external data on G3DSA:1.20.58.760	592	734	143	2.9E-52	IPR037219 Show description in modal box View details on IPR037219 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01434 View details on PF01434 Search for proteins/transripts with this domain View external data on PF01434	597	721	125	5.6E-48	IPR000642 Show description in modal box View details on IPR000642 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF140990 View details on SSF140990 Search for proteins/transripts with this domain View external data on SSF140990	598	728	131	3.14E-45	IPR037219 Show description in modal box View details on IPR037219 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0004222 View details of GO:0004222 AmiGO InterPro QuickGO	Molecular function	Metalloendopeptidase activity	Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain by a mechanism in which water acts as a nucleophile, one or two metal ions hold the water molecule in place, and charged amino acid side chains are ligands for the metal ions.	Subterm of View details of GO:0004175 View details of GO:0008237
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0171800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi1g1v0171800.1