Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0171800
Transcript ID	LotjaGi1g1v0171800.2
Related isoforms 1	LotjaGi1g1v0171800.1
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_chr1:32744006..32758431) extracted from Lotus japonicus Gifu genome v1.2.

AATTGGCAATATATGATGAAATTTTAATAAAATCTCAGGCACAAAAAGATCTGAAGCAGGCGCCAATTTCAGTGTAGGAT AAGGTTCCTCTCCTTGCATCGTCTTCTTCCTCACATCCTCTATGTCTCTCCTCTAGCGTTTTCACTCCACGCAATCACAC AGAGAGTGAGTGAAAGAGAATCACAATAAAACCTAACAATAACAACAACAATGGCCACACTTCAAGCTTCTCTTCTCTTC AAACCACCCCTCCCTTTCCTCTCTCCCAACCACGCCGCCGCGTTCTCCCTCCACCACCACCTCTCCTTCCACCCCACGCG CCTCCGCCCCCGCGTCCACTGCACCTTCCGCCCCGACTCCGCCGCCAGTTCCCGCCCCGAACCACCCGAGGAACCTTCAG TCGACGCGGCCGCGGAAGCGGTTGTTAATTCGAGCAGTGACGGTGATGCGACAGTCGCGGTTTCGGATTCGGATTCGAAC GAATCGAGGCTCGAGGTGATTGGTGATTTGGAGGGGGAAGAGAAGATTGGGAATGATTTGAATGAGAAGAAGGAGGTGGA GGTTGAGGCTGTTGTTGCTGGTGATACGCGGTTGCCGCTATTGGTGTTTTTGGTGGGAGTGTGGGCGAGGGCGAGAGAAG GTGTGGAGAGGGTGGTTTCGGAATTCTATGGCTGGTGGCCGTTTTGGCGCCGGGAGAAGCGGTTGGCACGGTTGATTTCC GATGCCGACGCGAACCCTCAGGATGCTGCCAAGCAGAGTGCTTTGTTTGTTGAGCTAAACAAGCACAGGTTTGTGTTGCA AATTAAGAAACGAATTTCGAAACTCGAAAAATTATTAGAATGCATGCTCAGGCTGTGAATTCTTGAGGGGTTAGTTATTA GGCTTAGGAATCTGAATGTTGATTTTAATTTGTTTTAACTTGGATGTTTAGAAGGTTGTGTTAGATAGAAGAAAATTACA TGCTGAATTGGTGATAGTTTAGGGGTGGGTTTGGTTTGGCGTTGGCAGAGGGTGAACACGCGTTATATTGGAGTTGACCA GTGCAATGCTTCCAGAAAGACGCGCGTTGGCAGGGTGGGAATGCTTACCCAAACAGGCACTAGATAAACTAATAAGGATG CTTTTCCATTAAGCATTTATAATCTTATAAGGATGCTTTTCTCAAATCAGAAGCTGGAAGTAGAAATATGAATTTGAATT TGAGTTATTGAAGAATGTGGGCATCTAATTTACTGGGGAAAAACTTGACATTAGGAGAAAATTCAGTTAGGTATACAATA GGTCGACCTGTTTTTCTTTAAGCTGGAAATTGTGTTAAAGTTCACAGGTCCGTATTGTAAATTAAGAAACGAATTTTGAA ACCCGAAAAAATATTAGAATGGATGCTCAGGCTGTGAATGCTTGAGGCGTTAGTCATTAGGCTTAAGAATCTGAATGTTC ATTTTATTTTGTTTTAACTTAAATTAGAAGGTTGTGTTAGATAAAAGAAAATTACATGCTGAAATTGGAGATGGTTGAGA TAAACTTTTCAATAGGAGACTACCTATTTTTCTTTGAGCTGGAAATTGTGTCGAAGTTCATTAGCATTTGTATTAAAAAA GTTCAATTCATGTTTTTTTTTTTTCTAGTCCTGAGTCTGTCATTAAGCGATTTGAGCAAAGGGATCGAGCTGTGGACAGT AGAGGGGTTGCAGAGTATCTTCGGGCTCTTGTAGTCACTAATGCGATTGCCGAATATCTTCCAGATGAGGAATCTGGAAA ACCTTCTAGCCTTCCCATCTTGGTAATCACTTTGAATTATTCATGTTCTTGTGCTTGTTTTTTCAGTCTATTATTAGTAT GTATTAGTGAATGCTTGGTACTTCATTTTTCATTATTGGAGGTGGAGAGGCGTGGTGCTAGACGTCTTGTTTTGTATCTA TTTGTTGATAGTAGTCTGTTCAAAAGTAAATTTGTTCTGTTTTGTTTTCCACAAGCATCATCATAGAGATTTAGATATAT GTTGTAATAGATAATTTCATTGTGTGCGATTTATATGTGTGCGATTTCCTCTGTGATGGTTTTTTCCTTTCCAAATGATG TTTTTTTCTTATTGAGGTATTAGTTTCATGCAGCACCATTTTCATTTAATTTTTTACTTTTGAATCAACTCGGCTGAATT GTTTGTATATTCCTGATTTCGTGAATGTTACTAATTATGACTCTAGCCTTATTATGAAAACTTGACATGATTGGTTTTGT GAATTCCAGTATTGTTTTCTTGAAACCTTGATTTTGGTTTTGCTTACTGATTGATTCAAGGACTAGTGTCTCAACTCACA ATGCATGCTTTCTGTGGATGATATAGACCTAGTTGGAGTGTTAAGAGAGGGAATTGAAGTTGTCAAAAAAACTTTTGAAG CACGTGTTTACTGGTAAAGTATAAGCAAAATAGATTGCATTGAAGGTTGGTTCAACAAGGTGTGCATGGGCTCCAGCATA AGGATGAAAATTGGGAATCATAACATTCCACTATCTTGGGTTGTCTATTAGAGATACTTGTTCATAACCTTTCATATTTT TTATGTAATAGGCTAATAGCTTAAGAATTTGAAATACTTGTTGGCATTATTATTTGAGACGATAGAGAAATAGAGGGAGA CACAAATCACAGGATTTAAGTTGGGTGGATGAGAGGGAGAAATTCCTGGTGTGTTATGTGTGATTGAAAGATACTTTTGA AGCTTAAAGGATGATTTCATCTCACAACCATAAAATCTGCATGCTGTTTTGGTACTAAACTTTGAGCCATATAGAACCAA GAAGAGAAAAAGCTCAATATTGCAAAAATGAGGATGTTTGAATGATCAGACATGGAAAACAAGACAAGATAGTATGATAA ATGAATGCATTAAAGAGAAAGTGGGGAGTAGTATCTGTTGGGAAGAGGAAGATTAAATCTCATCCAAGGTGTTTTGGGGA TATGAAAAGATGACTATTACAAACCTCAAATGAAGTGGACCAAATGAAGGATACGCTATAGTTAGAGGTAAAAGGAAACT GCGAAAAACTCTAGGATAAACCATTAATAATTAACATGAACTTAGATCTAAATGGAATTGAGAATTTGGTTCTTGATAGA ACACAATGGCGTTTCTTGTTCTATGTGGTCTGTCCACATAATGAGAAAAAAGACCTTGGTGGTTTTTTTTTCACAATATT TTTTTTGGATAATCTATTTTTCTGGTACATTTTACATAGCTGTCTGGATCTGAATTGTTTGATTTGCCTTTTTATCTTAG AGTCTGATAGAATATGTAATGGAGCCGTAACGATAAGGATTCTTGTCCAGTTACTTATGCAAATTTTCCTTTTGTGAACA TGAACTTTGTTTGATCATATTAACAGTCTCATTTGACGTTTGAGTTAATAATTTACTTGTTTTATACTGCGGGCAATTTA TAGCAAACATATTTTTCAGTTGCAAGAGTTAAAGCAGCGTGCATCAGGTAGCACAGATGAAGCTTTTCTTAGCCCTGGAA TATCAGACAAGCAGCCGTTACACGTGGTTATGGTAACAATTTTACCAAATGACTTTGTTTATTCTTGGAGTGGTTAGCAT ATATAAGTACTAGGGAATAAAATTGTTCAAATTTTCTTTTGTAACCCAGATTCTTTTGCTTGTTTGTTCTTGGAATCTCA TGAAGCTGTTTGGTCCTTTAGGTTGATCCAAAAGTATCAAACAAATCACGTTTTGCCCAAGAGCTTATCTCGACTATTTT GTTTACTGTAGCTGTGGGATTGGTCTGGTATGAGCCGTTTGTTTCTCTCTGTCTCTCTCATTCTTGTGTATAGCATTCAC TCTTTGAGTTGTGTATACTTGTATTTCTGCTATGGTCAGGTTTATGGGTGCTGCTGCACTTCAAAAATACATAGGAAGCT TGGGTGGGATTGGAACTTCAGGTGTTGGTTCAAGTTCTTCCTATTCCCCAAAGGAGCTAAATAAGGAAGTAATGCCAGAA AAGGTTGACTTGTCAATCTATTCTTACTGACATACTATGATTTCTATTACAATATGCGAAATTGTATAGTTTAGATAGGG ATAAATAAAATTTGGACTTTCAATGGACATGTTTGAATTAGAAGATTGTAAGTGAAATAGGTTAATCGACAATGACATGA TATATGCATAATCCTTCTATTATCCACAGCTAAAAAAGTCCTTGCTAACCACATGCCATTACTTCTTCCGTTGACCACTC AACAATGAAGTTGGAAAGATTAACCACCCCCTTTAGTTCTAAAGTTATATCTAATACTATCAAGTGAGTCATTTATAGTT TGCTTATTTGTCGTGTGGAAGGTCATTGTATTGAAGGTCTTGCATTTAAAATACATCAACAAATCAGAATTCTGCCAGAC CTCTTTATATAATCTTTTTCTAATATCTCTTTATATCTCATTCTCTCTCCTTACAGAATGTAAAAACTTTTAAGGACGTG AAAGGTTGTGATGATGCAAAGCAAGAACTTGAGGAAGTTGTAGAGTACTTAAGGAATCCAGCTAAATTTACGCGCCTTGG AGGAAAGTTGCCAAAGGTCTAACAAAGTTATTTTTCTTTCTGTTGTGCTCCCCCCCCCCCCGATAGCTTTTGTTCATATT TCTACTTTACATGTATAGGCTTGTTAATTCTTAGGAGAAAGACCTTTATTCCATTACTGTTTATGAGCTGATGATAACAC ATTTAATCCATCTCTATATGCACATTTTGTTAATCCTATTAAACATTTGGGTTTTGATCAGCATAATTTTATGTGATCTT TTTGTTTTCATTGCATACTATGCTGATGAACTTGCTTTTCTTTTACATCAAATGAGGCTAAGGGTTTCTTCTTCTTTTCA GGGTATTCTTTTGACAGGAGCGCCTGGAACCGGAAAAACACTGCTCGCCAAGGTCAGTTAAATTCTATGTCGTCAGAAAT TTAAAAATTTATTGTCTTCCATAATTAGAACTACTGGTGTTTCTTTTTAATGTTATTTATGGATTCATTGTCATTCTGGA TGTGTTACACTGTCACTGTTATTATACACTATGTGCTATTGGGAAGTTCATGGAGGGACATAAATCTGGATTCCGGTTGT TGTCTCTGTCTCTGATATTGTTTACACTCTGACACTCTGCTGAATTCTTCTGAACTATAACTAAAACCCTACTTTATTGT TATGGACATTATGAGTTAATCTATTAAAATTCATGATTATTATGATCTGATTGCATTTTCTTTATATGGGACCTTGAAGG CTATTGCTGGAGAAGCTGGCGTTCCATTCTTCTATCGGGCAGGGTCTGAATTTGAGGAAATGTAAGGCTGCTTTTGTTTT CTATAACTTTAAATTTTTAGCATTGGTATGTAGCTTTGAGATTAGGATATTGCATGCTAGTGGGCTTGAATGAGGGTACA TTAATTTTATTCTGAAAGTGACTAAGAATGCTGTTGTGTTACTTCTTTTTAATGAGAACACTGGTGTCATTTGTAATATA AACTGTATGTTTTTCTGTTATTGATCACTAGATCTTATTTATTATTTCAATTTTCGTGGGAACGTGATCTTATCAACATA TTACTAAATCAGTAACAGTATTCAGTCTTTTGTTAACAAGAATTGATGCCTTTCTCAGTCTTTTGTTTCTTGGGGGAGGG GTAGTACAGGCACCATTTTGTTGAACTGAATGCATTGCTTGTTGGTTATTCCTAAATTGATTTTCAGCATCTTGACATAA TGAACTGTGTTTGTTGTTAAGACTGAAGATATGTGAAAAGAATTTAGTATATTTGTCAAGGGTCTCCATGTTTTAGCTCA AACACAGGAGTTGCCTTTTTATGATCTCTACTACAAAGGAATACATAAATAATTTCAGCATTAAAATATGTTAACACAAT GATCAGTTATTAACATTCTAGTGTTTCTTATTTCTGTGAGATGTGTAGCACTTTTAAATTGGTTAATTAGATGCTAAAAT GTTCTCTGTTAGTTTCTTTCCCTTCAGAAAGTTGTAATTCCTGGAATGGGTTTCTTGTGCATTTGCATATCAATACTGTA GCCATTTTATTGCATTGAGTGTTGTGATATGTTGGCTGCTAGGGGTGATCATTTCCATATCGCTTTTCATGTTTAGGTTT GTTGGAGTTGGAGCTCGACGTGTAAGATCCTTATTTCAAGCAGCCAAAAAGAAGGTTTGTTGTTTTTTTGTTGATGGTCT CTCAAAACTGTCTCTGGCTTCATCTGTACATTGGTCCTTGTTTCTGATTCTGGAACATGCTTAATTTGTCTCTATCTTGT GTAGGCTCCTTGCATCATATTCATTGATGAAATTGATGCTGTTGGATCAACAAGGAAACAATGGGAGGGCCATACCAAAA AGACATTGCATCAACTTCTTGTTGAAATGGATGGGTTTGAGCAGAATGAGGTATCTTTGAACAGTTTGGGTGCAATTTCT TCCTCTCTGCTTTTCAAAATCTATTCACAATTTTTTATCTTGTAGGGAATAATATTAATGGCTGCAACAAACTTGCCTGA TATTCTTGATCCAGCTTTAACAAGGCCTGGTAGATTTGATCGGCATGTAAGTTCTTACATTATTTTCTCCCCTATAAAAA GTTATGAAGTGAAAAAAGAGATGTGGATAGAAGGATGATAACAAGTCCTCCTAGAGAAAGAAAGAAACAAACTAAGTTAG AGACAAAGGAAAATATAAAACATAGCTAGAAAATACTTTGTAGTGTCTCCCTTGTCAAAGCCAAAATGATAACTCACAGT GTAGAATTGTTCTCCTAAAAACCCTGGCATTTTACTCAGCAACAAATCTACAAAATAGTGATACACCCAAATGGTCTTAT ACACTCAACCAACACCTCCGAAACTTGAAGAAGAAAAGTGGTATTCAGAGCTTCAATAAAACTGTTTGGTCTGTTAGTAA CAGTTAGTGTGACAGTTAGTTAGTTGGCTAGGAAATTTAGAAGAAATAATGCATGTTACTTGTAAATAAGAGAAGGGGTT GAATGGGAGAGGTATCTTTTCAGTTGAGAGAGGGATGGCCTTTCGGTAAAGGGGTTTCAAAATGCAAACCCTCTGAATTT TGCGAGTTTGTAGCTAGGGGAGATTTTCCCAGGCTTTCTAATAAAATACCAGTGTTCTGTCTATTGGTATCAGTGTTCTG ATTTTGGAGCAATGGGTAGTCCATTCTAATGATTTTTTACTATTTGAGGAGCTGTTATTGGGATGAGCAAGAATGGAGAA GAAACTCTCGAAGAATATTGGTGAGAGATTGCATACTTGAGTATATAACTCAATGAAGGACGAACTAAATAGCATAGTTT GAAGGAAATGAGGCTTGCTGGTTGTAGATCCAGCTGATGCAGAATCTCTATGCAAGAGTGATAGGTTCAGACTAGAAGAA GAGAAAAGAAACTGTTGAGTTCTTATTAGGATATCTCTGCTTCCTGTAATTGGCAAGAACAGAGGGAAAATGAATACAAG TATCCCCTGGAAGTTCGAGTATCCAGTGCACTCCCACCAAACTAATCCCAGTTATTCCCTGCCTAAACTCTTTCTAGTTT CTATCCCTATCCTTATAAAGGAGGAAGTTATTCTATACAACTCTCAATTAACAGAATGTATTACCGAAAACTACTTACAA CCAACTAAGGGAAGAGGTTGTTATTCCCTGCTTCCCTATTTACATTTCCTAACATAGACCTTCGCCAATGTAGGTCGGTC CCTATCAATACCCCGCCCTAAAACATCCACCTTGTCCTCAAGGTGAAAATCTGGGAAAGCCTCCTAAATGCAAGCTGCAG ACTCCCAACTATCTTCATAATCGGGGAGATCCAGCCAGTGGATCAAGACCTCCACTACACCAAAAGCTGACTCACGGGAC TACGGGAGTCCAAGACCGAAGCCGGATACACCACCCATTCCTGATCCTCAAACATCACTTGGGGCAGTGGCTGACTCTGA AAATCCTTGCCCGCATCCTTTTTCAAAGTGAAACATGAAAAACCGGATGAATCCTACTATGAGAAGGAAGATCCAACTTA TAAGCAACAGCTCCCACCCTGTCCAAGTAACTTGGAAATTTATAGCATTCTTCAATAAAGTCACTTTTTCTTTCTTCTTC ATTGGCTGTACCTGTCATGATAATATATTCTGTAGATATTCTAACATGGTACTCAATTAATAGCTATTTAGAGGGTTTTG TCTATCGGACATGCAGAGAGACTGCCTAGCCTAACTTAGATGACATGCTTATCCTTTTTCTGGTTGTGGTGCATTTGGGC TTTCCATTGGAGTTCACTTGACCTAGGTTTTATTCTGCTTGAATTTTTGTTGAGCTCTTCAAGTGGCATGTTGACAAAAT TTAGATTCAAGCACCCCGTAATGAGGTCTAGTAGGAGATATCACATGCCATGCTTTAAGCGTCTTTCTTTGTCTGTTATA GTAGTATTTTCTTCTTTTAACCAAAAATTATAAATTTAAACACCAGCCAAGCAACCTTACATTGAACACTTAAATATAAA AGATTATCATACCAGTGTGCTGAATGGATAAGTTAGTTTTCTATTAAATATGGGAATTGTGATGGTACCCTTATGGACAT ATTGTACTCAAGGTGAGTTATGAAGCATCTATTGATTATTAATTTCACTAATAGTTGACAATCTGTTAAATATATAATAT AAGTATCAACTACTATAGTACTTCTCAACGTATCTTGGGTACTAAACCGGTAAACCCAAATAAAGAGAACCGAATTAATG CTTATAAATTATAGAAGATAAGAAGAATGACAAACTCTGAATTGCAGATTGTTGTACCAAATCCAGATGTACGTGGTCGG CAAGAAATTTTGGAACTCTATCTGCAAGACAAACCTGTAGCTGATGATGTTGATATTAAAGCACTTGCTCGTGGTACCCC AGGATTCAATGGGGCAGGTGAAGTATAATTTAAATATATTTGACATGAGCTAATTTTTATTAATGCTAATCATATACTCC TTTGAAGTTCTGAAGTATGTTGTCTCTAATTATATATTCCCTTAAACTAGATCTTGCGAACCTGGTAAATGTCGCTGCCA TTAAAGCTGCAGTGGAAGGTGCAGAGAAAGTAACAACTACACAGTTGGAGTTTGCAAAAGACAGAATAGTTATGGGTACA GAGCGGAAAACAATGTTTGTATCAGAAGAGTCAAAAAAGGTATGTGCATTTGGCAGGAAATCTGGTTTAGTATTTAAACT AATGAACGGTGGCTTATACGATTGATATAAACTATAGGGTTGCACTACATATTTTTGAACCTTAATTGTCTAAAAAAAAA ATTGAACATGGATCTTCTGTGCTACATCATATGAAAATTACTGAGTTTTCCCTGTAGCAGTAGTAAACACATGCTGGGAA GTTGCAGCAGGCTTATCAAAATACTAAAATTATGAAAACAAGTTTTGGGAAGTTTTAAACCCTGTCATGAAGTAACTATC CCAAATGGTTAAGTTGTTAAGTGAACTCATACGAATGGTTATATATTTATTTCTATCATACTCCTTCATACAACAGTCCT TTGAGCTTGAAGTGTGTATAATGCATAAACCCATAAGCCACTTGGTCATATAGAGGCTTTGATACCTTGTCTTAAATCAA TGATTCCAAAGTTTACGCCGTTATGTGAAGCAACCCAAATGATTTTGTATTTATTGCTAACATGACCCCTTAAACTAGAG CCCTTTGAGTTTAAATCGTGGACAGTGCTCAGGAACACCTATCTTGTGCTTCAATTCAACTTTTTATTTAAAGGAGGGAG TAACAGGGATCAAATTCTAAACCATTTAGTTATAGAGGTTTCATACAATGTCATGAACCAACTGTTCTAAATGTTTACTT GGATGATTTTATTTATTTTTTTACTATTATTTCTAACAAATGATGTGAAGATAGGCTTAGCATCACTGTTCAGTATACTA AAAAGTACTAAGATGGAAAATTCTGGAAACTAAACCATTCCATTGACTGTACCACAAAATGGTCTCAGAGAGAACACTGA CCTTTATATTGTGAAACTAGAAAAATGGATGACACTAACAAATAGTTAGTTGCTAAATTAGTTGTTTGCTGGTATACATG GATAAGTAAATAGGTTCTTTTATAAACGTTTCACCTCTTTTGACCATTTTTCTCAAGGTAACTTTCTGACGTACTCATTG CTCAGAACCAACTATTTTACAAATATTTTTATCATCATTTAAGTCTAATTTATTTAGAATAATCAGATTGTGCTGGTGTA TTATGAAATGTTCTGCTCTCTGTACCAGTTTGCCACCGGTTTACCTAAGTAGATGCCTATCTACTAGTAGTAATAGCTTT TATTTGCAGATAATAAAATATTATGTTGATATATGTTTATTTATGCTACTAGTGCTTGTGAAAATTTCAGCTTACTGCTT ATCATGAGAGTGGCCATGCAATTGTTGCCCTTAACACTGAGGGTGCACATCCAATTCACAAGGCAACAATCATGCCACGT GGATCTGCTTTAGGAATGGTCACTCAGCTTCCCTCAAGTGATGAGACTTCAATAAGCAAGAAGCAGTTGTTAGCTCGCCT TGATGTTTGTATGGGAGGAAGAGTTGCAGAAGAGCTTATCTTTGGTCAGGATTATGTCACAACTGGAGCAAGTAGTGATC TTCATACTGCTACTGAGCTTGCCCATTACATGGTAATATTCTGCTCCCCTGTTTTGTGTCAAGTGCAGTCTGGGTATTTT AAAAAAACTATGTCCCTAATGGTGGATGGCGGTACATGGAGGAAGGCCTAAAATTCGCTATAAAAATGACACGTGAATGT TGGCGGTCTATAGCAGCAGCTATATAAAAGTAATACACACACTCTCACCGTATACCAAAAGGCACTACAGAATGTGGTAA AATAAAAAAACACTAATAACCTACTCAATTGTCAAGAAAAATAAATTAGAAACATGTTTTACTAATTGAAAATCACCAAA AGTATCATAGTTAAGCAACCCTTGAATGATTGAATCACTTAACAAAGAGGATAGAATCCCAAGAATGCAAGAAGTAGGGC AGAGAGTACAGAAGGAAATAGAGAGACATGTAGAGGAAGGAAAAAGTTGTATATAGAGCAGGGACTGAGGCTTAGAAAAT AACGAAATACTAGAAACGAATGGAGGAAGAGAATGGGCCATCCACAGTCGTACCGTTCATTAGGGATAGAAAAGAAATAT GATAGCAGCTGAGCAAGTTTGAGCCTGAGACGAGCAAAGACGTGTGAATGAGAGCAGATAGCAAAGAGGGTTTGACAGGT CATTAGTATTTTGGCTTAATTGCATTTCTTGTTGTTAACCTCAGAGAAAACAGTTTCTAAATAAAGTGAAATGATTTCAT TAAACTGAATGTGTACATGATTACACTATATATACAGTTCAACAACCAGAATTGACTCTAACAGAATGCCAGCAAAGTGC CAGATAGACTAACCACCTAACTAGCTACAAACCTAAACAGTAGGCTTAACAGAAACTAACATACAGAGAATATGTTAAAC AAGGGTTGTTAATTGCGCGTGAAAGAGGTGCTTTCCCGCGAGGGCGAGGGCGAGGGGCGTAGCGGCGCAGATAGGCATCG CAGTGATCACGAGCGCTACCGCGGCCTGATTCGCAGCCATGGGGGTACGTTAGGTTTTTCAGTTCTATTAGTGGGGGTAT TTATTATTTTTTGGGTTCTTAATTCCTATAACCCTAAAGAGACCCTGAAAGTCGAATTAAGACTTGTGCTGCCTCCCTTG GACCGTCGAGCCTCTACCGGCCGCTAACGAGCCCAGCCGCCAGCGAGCCTCGGATGTTCTTCTGGCTTCATCCTCCTTCT TCCTGCTTCTTCTTCGGTGTAGCCACCATCTTGCTATACACTCAATGTTGTGAAAAGCTAGATTCTACGTAGAATCGGAG AGGGGTTCAAAATCGTATAATCGTATAATCGTAAATTGAATCGTAAGATTCTACCATAAATAGAAAAACAAAAAAATAGC ATTGATATCTTGTAAGTCACATCATTTAACAAAAATTGGAATAAAAATTCATCAGATTAACATCCATATAAGTCATAATC TCAATCCAAAATCATAAGAGTACTAGAACATGAAATTAAAAGATGAAACAGAGACGTTGAAGAATGAAGGAAAACAAAGA TGTTGAAGAATGAAGAGAAAACATAAGAGGAAGAGACCTAGATAGAGACTACAGAAAACAGAGCATGAATGCGTGATTCA ATTCACTCTACTATGAGTGAATTAAATAGGCAATTAGAGGCATGAAGGTTGGGTCACATGAGTTGATTTTTCGAAATATA CAATCAGTTATTAATTCTTATCAATTAACCATTCAAATTTGGCAACTACAATCAATTAGAGCTTCAATTTCAAAATCCCC TAAATGCTGGGTGGTGGGTTGTTTTTTCCACAAAGTCAAAAAACTCTCTAGTTTCCCCAATTTTAGGAATCAGCTTCAAA AATTAAAAAAATACTAGAATCGTAAGATTCAATAGGATTTTACGATTTTACGATTAAAATCTAAGATTCTACGGGATTCC ACCAAAAAAAAGATTTTGCATGCGTTTTGAATCGGAACAGTGCTGCAAAATCGTAAAATCTTAGGATTTTGCGATTTTGC TATAGATTTTGCTAACATTGTATACACTATACTGCTATATAGTGTTTGTCGATTAACATACTGAAATCTATTAAAGGAGC TCCAGGAAAAGGTTTACTATACGAAAACAAGGGGCATGCACGAGTTATAGGAGCGGGTTCTTCTCCGGATAGGATATCTG CCTCTGGGTATTGTGTTTTCCTTGGTGATAACTTAATTTCCTGGAAGAGTAATAAAATAAGTGTAGTGGCAAGATCAAGT ACGGATGCAGAATATCGAGCCATGGTTACAGCTACTTGTGAACTTATATGGCTCAGACAACTTCTTCACGACTTGAGATT TAGGGACGTTCCACAGATTACACTTATTTGTGACAATCAGGCAGCCTTACGCATTGCCTCTAATCCAGTAAATAAGTAGG TCTTTAATTAAATTTGGCTCTTTTATTAATTGTAAATAGGTAGCATAATCATTGAAAATAGGGTTACAATGACATTGTAC ATTTATTTCTCCTATTATATATAATGGTGTCCGCTGTGTGATTGAAACACACGGATTCAATCTAAGTTGTCTCTCGGGTT CTCCTAATTTTATACTTTCGTTTTTAAATGAGCTTAAAATCCAATGCTTGACTCTGTTTCTAATTTTCCTCTCCACACAA GGTATCAAATTGTGGGATGAGTGATGCAATCGGGCCAGTTCATATAAAGGAGAGACCAAGTTCTGATATGCAGTCACGTA TTGATGCAGAGGCAAGTGCTATGAATCTATATCCTTTTATAACGTGTTGATGATGAAAATCATGTTTGGTTTAGTTGATT TTCTCTCTAAAGAATACCTTAGAAAACATGAAATCTATTGGATTTAAGTTTTGTTACCTGTTCTGCAGGTTGTTAAACTC CTTAGAGAAGCATATGATCGAGTGAAAGCCCTTCTGAAGAAGGTTTGTCAAATTAAATTAGCTGCTTAGCATGGTTTAAT ATTTGTTGGCTATCTCGGATTATGCAATGTTTGATATCTACTAGTGTTTGGCATCTGAAAAGTCATAACCCTAGTAACAT TTTGACCTTTCTTCAGCATGAGAAGGCATTACATGCGCTGGCAAATGCATTATTAGAGTATGAGACACTTAGTGCAGAAG AAATCAAGCGATTACTTCTCCCACATCGGGAAGGAAGACTTCCAGAACAACAGGAACAAGAAGAAGCAGAAGGGGAGCTT GTACTGGCGTAATCTTTTTCTGTACTTCCTGTCCATTACTGTACTAATTATAGGGGAAGCTCTGTACAGTATACCTAGAA GTCCTACAGGTATTTTTATTAATCTAGTTTCTGCCAGTTCCCCTCTTTGTGCATACTATTCTTTGCAAAAGATGGTTATA GGAAGTAAGTTATATGTTGTAACCTTTGAATATCTCTGAAGCAACTACTCCCATTAGAGTATGATTGCTCTTTGTGAGGG CAATATTTTTTTGAGAACTGTATAATTTTTAGGAAGTAACTTATTGGACATTTTGAGAATTGTGTTTAGTAGCCTATTCA TTCTTCATTAGTAAGAATTTCTTTATATTATGGAGTTCCAAGTTTTCGTTGGCAAGGTTAAATTGTGAATGGAAGGGTTG ATAGAAATGAAATGCTTGCACACAATGAGCTGAAATTTTCCCCAACCCCAAATTCCTGAAACCGGGCCTTGATCATTGTT GATGATCTGAACTTTGAAAATGTAAT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0171800.2) 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 ATGCAGTCACGTATTGATGCAGAGGTTGTTAAACTCCTTAGAGAAGCATATGATCGAGTGAAAGCCCTTCTGAAGAAGCA TGAGAAGGCATTACATGCGCTGGCAAATGCATTATTAGAGTATGAGACACTTAGTGCAGAAGAAATCAAGCGATTACTTC TCCCACATCGGGAAGGAAGACTTCCAGAACAACAGGAACAAGAAGAAGCAGAAGGGGAGCTTGTACTGGCGTAA

Download CDS Sequence

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

MATLQASLLFKPPLPFLSPNHAAAFSLHHHLSFHPTRLRPRVHCTFRPDSAASSRPEPPEEPSVDAAAEAVVNSSSDGDA TVAVSDSDSNESRLEVIGDLEGEEKIGNDLNEKKEVEVEAVVAGDTRLPLLVFLVGVWARAREGVERVVSEFYGWWPFWR REKRLARLISDADANPQDAAKQSALFVELNKHSPESVIKRFEQRDRAVDSRGVAEYLRALVVTNAIAEYLPDEESGKPSS LPILLQELKQRASGSTDEAFLSPGISDKQPLHVVMVDPKVSNKSRFAQELISTILFTVAVGLVWFMGAAALQKYIGSLGG IGTSGVGSSSSYSPKELNKEVMPEKNVKTFKDVKGCDDAKQELEEVVEYLRNPAKFTRLGGKLPKGILLTGAPGTGKTLL AKAIAGEAGVPFFYRAGSEFEEMFVGVGARRVRSLFQAAKKKAPCIIFIDEIDAVGSTRKQWEGHTKKTLHQLLVEMDGF EQNEGIILMAATNLPDILDPALTRPGRFDRHIVVPNPDVRGRQEILELYLQDKPVADDVDIKALARGTPGFNGADLANLV NVAAIKAAVEGAEKVTTTQLEFAKDRIVMGTERKTMFVSEESKKLTAYHESGHAIVALNTEGAHPIHKATIMPRGSALGM VTQLPSSDETSISKKQLLARLDVCMGGRVAEELIFGQDYVTTGASSDLHTATELAHYMVSNCGMSDAIGPVHIKERPSSD MQSRIDAEVVKLLREAYDRVKALLKKHEKALHALANALLEYETLSAEEIKRLLLPHREGRLPEQQEQEEAEGELVLA

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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
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	24	24	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	289	289	-	–
Hamap	MF_01458 View details on MF_01458 Search for proteins/transripts with this domain View external data on MF_01458	8	790	783	31.722	IPR005936 Show description in modal box View details on IPR005936 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR23076 View details on PTHR23076 Search for proteins/transripts with this domain View external data on PTHR23076	62	797	736	0.0	–
PANTHER	PTHR23076:SF106 View details on PTHR23076:SF106 Search for proteins/transripts with this domain View external data on PTHR23076:SF106	62	797	736	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	797	486	-	–
TIGRFAM	TIGR01241 View details on TIGR01241 Search for proteins/transripts with this domain View external data on TIGR01241	323	773	451	2.7E-179	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	4.9E-64	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	349	616	268	1.61E-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	1.36404E-27	–
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	2.8E-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	2.4E-24	–
Pfam	PF17862 View details on PF17862 Search for proteins/transripts with this domain View external data on PF17862	538	580	43	5.3E-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	778	187	1.8E-70	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	772	176	6.9E-60	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	773	176	8.24E-63	IPR037219 Show description in modal box View details on IPR037219 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	730	764	35	-	–

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

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0171800.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0171800.2