Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0309300
Transcript ID	LotjaGi1g1v0309300.1
Lotus japonicus genome version	Gifu v1.2
Description	Peptide transporter; TAIR: AT2G40460.1 Major facilitator superfamily protein; Swiss-Prot: sp\|Q8VZR7\|PTR30_ARATH Protein NRT1/ PTR FAMILY 5.1; TrEMBL-Plants: tr\|O22305\|O22305_LOTJA Peptide transporter; Found in the gene: LotjaGi1g1v0309300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:75138380..75153689) extracted from Lotus japonicus Gifu genome v1.2.

ATAGAATCACAGGAGAATATTGTGTAATTAATTGTCTTTTAAGTCTATGAAGGGGAGAATTGGAATCTGTATATTAACTC AAAACCATGCAACCATAGTGTAGTGTGTACCTTGATCTTCCATCTCTGGCATTGAAAATTAGCTGAGATGGAAGGAAAAG GTTACACTCTAGATGGCACTGTGGATCTTGCTGGACGGCCTGTGCTTTCTTCTCTAACTGGGAAGCAGAAAGCATGCACT TACATTCTTGGTAAATTCTTATCAGCTTTAAAATTATAAGTTTTTTCTGATTAATGTAAGAAGATGTTGGCATTGGTGTA ATGGAATATTGGAATGTACATGTTATCACACCACACACACAGAGACAATATTTGAATGCATTATGCCTCGAATGAGTGAA TTGAATTTAAAGAGTGGACCGTGTATATACTCACCTAATTTATGTTGAAATTCAAGTTTTTATTGGAATGATGAGGTAAT TAGGGTCGAATTCTAAATCACTTGATCATAGATATTCTAATAAATGTTATGGACTAACGCTATCCCAAATCTTTATGAAA GTGGATGGTGTTATAGAATATATGAAAGTTATCACACAACACACATACACAAACAATAAGCATTGATGCATTCTGCCTCA CAATAGGATATCACACTTGAAGCATAGACAATGTATGTAATCACATATTTTGTGCTGAAATTTAATTTTTTATTAGAATA AATAATAATGAGGATAACAAAGATGAAACTCTCAACCACTTAATAGTAGAAATTCTGATGTGAGGACATGAACTAATTAT CTCAAAAGTTTAAGATTAGGTGAAGATACATGAATTTTTTATTTATTATACTTCTAACATGTCTCTGTATTAATGCTAGT TTACCGTGTATTGGAAAGATTCGCCTACTATGGGGTAGGAGCAAACTTAGTGAATTTTATGACAACCCAACTCAACAAAG ACGTGGTATCATCAATAACCAGTTTCAATAACTGGAGTGGCTTGGCTACGTTGACCCCAATTCTTGGTGCTTACATAGCA GATACTTACACTGGCCGCTTTTGGACAATCACTTTTTCCTTGCTCATATATGCCATAGTAAGTTGTAGTTTTATCAAGAG TTGTGTACATACAGTTTTCAGCATACTTCGAACATACACTTTTATGTCCGATGTACGTAACTGAAAACTAAATGGCTACA CATCATTTCCGTTTCCGTGTTATCAATTACATTGTTATTTTCCTTTGAATTATGGACCTTCACATCAAATCTAAGCAGCA TTGAAATTTACACTACAGGGTCTTGTGCTTCTGGTCCTGACAACTACACTAAAAAGCTTGAGACCAGCATGTGAAAATGG AATTTGCAGAGAAGCATCTAACTTACAAGTAGCATTGTTCTACACATCACTATACACAATAGCAGTTGGAAGTGGTGCTG TAAAACCCAACATGTCAACTTTTGGTGCTGACCAATTTGATGATTTCCGCCATGAAGAAAAAGAGCAAAAAGTTTCATTC TTCAATTGGTGGGCATTTAATGGAGCCTGTGGCTCTCTAATGGCAACTCTGTTTGTGGTGTACATTCAAGAGAAAAATGG ATGGGGTTTGGCCTACAGTTTATCTGCTATTGGTTTTCTACTTTCCTCTATTATCTTTTTTTGGGGTTCCCCAGTTTACA GGCATAAATCCAGACAGGCTAGGAGTCCTTCAATGAACTTTATCAGAGTCCCACTTGTTGCTTTCAGAAATAGGAAACTC CAGCTTCCTTGTAACCCTTCAGAACTGCATGAGTTTCAGTTGAACTATTACATTAGTAGTGGCGCAAGAAAAATTCATCA CACTTCTCATTTCAGGTTTGCTCTTCATAACTCAGTTCTTGCTTTTCCTTGAAAAACAGAAATAGATGAATGATTTGTGG GGTTCTTAAAAGAGCCCTGAATGTTGAAGCTTAAACTTTTTAGAGTGAAAGCACATGAATGATTTTTGTATTATTTTTCT AACATAGTGTCTCATGTCAAAGCTCATCGAACTTGAAGCTTAAATCATACATAAACTTGTATGCCTTACGATGAAATTCA ATGTTTAGAAAAATTAGACACAAGAATCTAACTTTATAGAGATTCTCATGTTATGTCATGGTCATGGACCAAATATTTTA GAAGTTTACCTTTTAGAAAAAGACAATCGAATGATTTGGATATTATTTTTATGACTTAAATACTCTTGAGGTCCCTGAAA TTGTCTCCCGTATAAAAATAAGTCCCTGAAATTTTTTTTTCCGATTCTGAATCCTTGAATTTTTTTTAATCAGAATAGAT CCCTACTCTTGTTTCTAGTTTATGTGACTTAATTTGAGTCAATTATTCCACATGACTTTTATATTTTTTTTAAATACACA TGAATTAAAAAATAAAATTAAACATTTAAACTTAAAATTAAAATCCTATTAACCTAATTAACCTTAAATCTAATTAACCT TAAATCCCTTAACCACAAGGGGGTGACACAAGTGGTGAATGTGCATTTCCTTAAGAGATTTCGCCTAGGCTTTAGGCCCG GGTTCGATCCCCTCTAAGGTAAAAAATAATACATTTGTAGCTAGGGACATCACTACCGTATCCCGAGCCAGATTAGTCAC GTGGGGCCCCTTTCCCCCGTGGAGACTGGTGACCAAAGGGAAAAAAAAAAAACCTAAATCCCTAAATCTAATTAACCTAA ATCCAATTAACCTAAAGTTTAATTAGATTAAATTCCCCAAACCCAAACAAGCAGCAAACCCAGAATCAACAACAAAAATA CCTTCAAACAAAAAAAAAAATCCAAAAACCCACCCCCACCTCCAGCAACCTTCACCTTCACCTTCAACAAACCCAACCAC CATAAACCCCATTCATAGAGACACCTCCCCCAAAACCTCAACCCCACCGCCACCCTTAACCACAAACCCCTCAATCTGAG TTTATGAGAGAAGGAGAAGGAGAAGGAGAAGGGGAAGAGGGTGAGAGAGAGGATTTGTAAATGGATTTGTGAACACCGTT TTCGCACCCTAGAACCCCGACCCCACCACCACCTGTAACCGATCGCAAGAAAGGCACCACTGTTTGCAAAGGATCTCTCT TTCTTTCTCTGGATTTTCGTTCTTTTGCTTGGGTTCCTTGGTGGGTTTTTTCGATCTGGATTCAGCACGGTTTCTTGGTT TTCGGTGCAGAGGAGATCGAAGTCGCGAGGGTGGTTGTTGCCGGTGGTGGTGTTTCAGAGATAATTTAATAATTGGTTTT GGTTGTTGAGTTTGGATTGGTGCAGCACTTTTTGCTCACAATGGTTTTCGGTGCAGCACTTTTTGGTTTAGGTTAATATA ATAATTGATTTTGGTTGTTGAGTTTGGATCAGTTAGAAAGGATTTCAGTGCATTTGGGTTTGATTTGTAGGTTATTGTTA TAGTTTCTGGTTTTAATGTTATTGTTTTGGGGTGTGAGTTTGATTATCTTGAGCATATGAAGATGAAAAAAATGAAGAAG ATGGAGTGTCAAATTGGTTTCTGGGTTAATTTTGATTTGGGGGTTATTAAGATTTTAATTTTATATTTAAATATTTTATT TTATTTTTTTAATCCATGTCTATTTAAAAAAAATATAAAAGTCACGTTAAATATTTGACTCGGTAAAAATTAAGCCACAT AAGCTAGAAACATGAGTATGGACCTATTCTGATTAAAAAAAAATTCACGGATTCGGAATCGGAAAAAAAAATTTCAGGGA CTTATTATCGTACGAAAGACAATTTCAGGGACCTCCAGACTCCAGAGTATTTAAACCTATTTTTATAATAGAAAGTAACA TATAAGATTTAGAGGGGCTTACTACCATAAATTTAATGAAAAATCTGTTTGTTACAAAGGAGTAATAGGTGTTAGGTGAG TAGCAAGAAAAGGCACATGTTCTCTTTTTGCCAATATTTTTTGTTGTTGTTTTACTTCGAAATTAATAAACTTATTTATA TAAAAAAAAAAGAGAGGAAAGATTCACATTATCTTTTCTTGCAATTTATGGGATTTGAATTTCCCGCGGTCAAGATATTT TGAAGTCACTGCAGTTATGAATCTTTAACTGTCCAATCTTGATTTGATGACTCAAATTTGAAGAGATCAATTCTATGAGT ATAATTGTCATTTTAAATCTTAGTCATCTGATCTTAGATCCGACGGATACCAAATGATGATTGCGTTGACTTTACGAAAC TTTGACCAGGAACCCAGATCCCATTTCATGAGCCTCCCTTTTGTGTTGTACATCTCTGTTCAAAAATGAATTTTAGAGAG GACATTTTAATGGTTGAGCACGGAGGAATTTTAGTGTATAGACCTCAAGTAGAAATCTCACAAGAACATGCAAAGTGAGT TTGATGGAAGGATACTAGAATGGTTGAGCATGGAATACTCAGAGAAATAGATACTATTTTGAAGCAATCAATGTGGTTGA TAATTGAATCCCAGTTTTTCATTCACAAATTAAACATGCTTGTTAATGGCAAGTTCTAGTACACACACAGACAGCAAAAA TGATTTATTTCTTCGACATTGATTCTCTGAATAAATGACTATACTTACATGGACAAATCTGCATCTTAAGTTTCTTAGAC AGGGCAGCAATAAGAGAAAGCAACACAGATCTCTCAAATCCCCCCTGCACAGTGACTCAAGTAGAGGGAACCAAGCTTGT CTTAGGCATGTTCCAAATATGGTTACTGATGCTAATTCCCACCAACTGCTGGGCACTAGAATCAACCATTTTCGTCAGGC AAGGCACAACAATGGACAGAACACTTGGCCCCAAGTTCCGTTTACCAGCAGCTTCACTCTGGTGCTTTATAGTCCTCACC ACCCTCATCTGCCTCCCCATCTACGACCATTACTTCATACCGTTCATGCGCCGAAGAACCGGCAACCACAGAGGAATCAA ATTGCTCCAGAGGGTCGGCATCGGAATGGCCATCCAAGTCATAGCCATGGCAGTTACTTATGCTGTAGAAACTCAAAGAA TGAGTGTCATAAAGAAGCATCACATAGTTGGGCCTGAAGAAACAGTTCCTATGAGCATATTCTGGTTATTGCCTCAAAAC ATTATACTTGGTGTTTCAAACGCTTTCCTTGCCACTGGGATGCTAGAGTTTTTCTATGATCAATCTCCAGAGGAAATGAA AGGCCTTGGCACAACATTGTGCACGAGCTGTGTAGCTGCTGGGAGCTACATTAACACCTTTCTAGTGACTATGATTGATA AACTGAACTGGATTGGGAACAACCTGAATGACTCTCATCTAGATTACTATTATGCCTTTCTTTTTGTGATATCTGCTCTT AATTTTGGTGTCTTTCTGTGGGTGTCAAGTGGGTACATTTACAAGAAGGAAAATACAAGCACAACTGAGGTGCATGATAT TGAGATGAGCGCAGAGAAGACTGTGAAGTACTGAATTATTGTTTGGAAATTGGAATAGCTTTCAACATAGGCATCTTGTT ATAAGTATCCATCGACATGTCCAAAATGGAAACCGAGTTAGTATGACTCTCTAGCCATGAGTTTGTTGCTGAAGCTTAAC TAATGATGTCTCAGAAACCTGAATTTGTCTCACTCAAAATGTACTTAAATAAATTTTTGGCCCAAAATGGGAGGATTAGA TTAGCTTAACTTCAAAAAATAAAGGAACCTGATGTTTTGGGTTTAATGAATCCTTTAAGGTAGACAATCTTGTACGAGAC AGGAACATTCACATTTTGTCGGGGCTAACTCTCCCATCAACACTTGATTGGCTCCATAGAAAACATTCAAGGAACAAAAT TGAATGTAGTCTAAATTAAATTGATTAAATGTGCAATTGAAATAATAATTATAAAGATTACATGTTTGTTATACACTATC TACATTCCTATTTATCAGTTCATATAGAGTGAACAAACTAATTTTTATTTCTCCGTACATTTATATGTTAGAAGAAATAT TTATTCCTATTTATCTCTCCATATAATAGTTCAATACTTCAATATGATATTAATTATCATTTTCAAAATACTCTCATGCT CATCTAATAACTCGTAAGTGCAATTGTCTGACCCATACCATCTTTTGATGACATAAGTTCTTAAAACATGTTTCAAAAGT GTTTTATGTTAATCATAAGTATGCAGATTTCCTCTCAAAGGCATTCACCTCAGGAAAATATAAAAGTTATTGTCTCTGAT CTTGCAATCTTAGTGTTTGAGTTTCTCAGTGTTACATTGTGTTAGATCCTAAAATTTCTCATCATCTGAGATCGCTAGTT TTTCAAAGTCTGAACTGCATGACCTACACAAAGTCTTCTTCGAATAAAATAAAACATATGTATCAGTATATCTGGATATC CTCACTGTAGGAAAGTCACATATGACACGAGATGATTAACTTCTGTCTCAGAAAGTAAGATAGAGAAATCCTACAAGGAC ACTGATGTTACAGGAAGGGTTGGTGCTTTTCAGAAGAACATTACTTTGGACAAGAAACAGTACTACGCATCAAATGCCAT GTCAGGATGTTCAAATTTAATGAAGGATGCATCGAACAACTACCATTCCTTCTGAGGATATATATAGACAGAGCACAAAA AGAAGATGAAGAAAATGATTTACCAAGCCTTATTTGAGAACACAAAGAAGAGAGGAGTATCACCAAGCGCTAAAACACAT TTTTCACATAAAACTTGGCTGTATCTCAACCGTCCACCTGCTGAACATGTGCCCAGTGCACCATCCACATTTATTGTCTG TCATTCTAGCATCCAACGGTATTAACGGATGCTTCATCTATAGAAGGAGATATCTAACTTCAAAAAGAAAATACATTAAG AAATACTACAAAGTCTCTCTTCTCCCCTACTCGAGTTCTACTCCTGAGCTTTTCATACAAGAAAATCAGTTATTACAAAG TTAAAAGCTGACGCTAAACCCGATTTTTAGCGTTGGCCTATAGGCTCATGAGGTAAAAGCTGATGCTAATGAGGATGAGC TAATTTTTAGTGTCGGCCTATAGGCTAACGGTAAATTTTAGCGTCAGTAAAGCCGACGCTATTCACTTGGCAAGAAGACT AACGCAAATGTAATATTTTTTAGCATCAGTCGTATAGGCCGATACTAATTTATGTTGTAATAATTACTCAAGGAGTAATA ATTACATAGTGTTCCAAAATGACAAATGTGTTGCATTGAATGGATTTGAATGAAGTCCCACATAGAAAGTGGAGTAACTA TTCAAAGCATTTATATATCATTAAATGTCAACCATTCAACAAAGAGACAAAGAGAGGATATAGTGTCACATGTGCATTAT TTGGTGGTCCCAAGCTTTTATGTCACTTGTTCCATTCACACCACCCCTCGCCGGTGGGCGTGGGCGTAGAGGCGTCTTGT AGACGGCACTTTAGCACGTCGCATCGGCGGCGACGCGGTTGCCGTAACGTCCGTTTGTTTTTGCTCGTTTTGAATTTGAA CTTTGCGACTGTTGGGAACAGACATATCTGTTGGTAACAGACACAATATATGAAGGGTCGCAACCTTCTATATTGTTCTA TTTTTGCTTATAAATACAGTACATGTTCAGAATTCCATACATAATCATATCCTCTGTTTTTTTTTCCAGAAAACACTTCG CTGCATTTCGAGTTTTCATTAGTCTTGTGCAAACTCGAAGCAAGGCTGATTATCCTGGGTATTCTTGCATCCAAACTCTA AGACGAAATCAGAGAGTGCTTGAAATACTTTAAGGAAAGTGATTTCATCACGATCAAGCCTATTCAATTTCGAAACAATT TATCGACCCTGGCCAACTGGAAACGATTAGTGGTGGTTTAAAACAGCCACAAACTGCTTGTACTGCTTGCAAAAGAGCTC TCTAGATGTAAAAGAAACAGGGAAAAGAAAAAGCAGAGGAAAATAAAAAGAAAAACTTAATGGTGGACATGGTAGCTTAG CAAAGTCCTGGTTCTGGACGTAACTAGAGCAATCCAGGTAGTGTTATAACCTCCTTTACAAACATAGACAAAGTCATTTC CTGGCCGAGCAAACCCACAAAAATCACCACTAGCCTCACAACAAGTGACACCACAAAAGTATAAGCACCACAATCCATGG CCCTCAAAAGCAAGATTTGAATCATATGTTGTTTCATATTCAAAAGGAAAGAAACCAATGAGATTAGAGTTACCTTAAAG AAATCTGGTTCATTCATATCCTTCCATTCTGCATGGTTGACAGGCTTATCTCTAACAACCACTTGCCCATGCTTGAGTCC TTCTGAAAACCATTGTGTACATGGAGAGAAAAACAGAAAAGCATATAGTTGCATCATGATTGAAGTGAAAATAACTCAAG GATGATTGAAGTGAAAATATTTCTGAAGGAAGAGGAGATTTAAAGCAAGGCCGTGCCTGCATACTCAGGGGAAAGGTATC CAAATGTCCAAGAAAGCAAATAAACCATTCCTATATTCACCAGTCCACAACCAAACCCTATTCACTTTCCATTCCCAACA CCACAACGCCATTCCTTCTTCATCTCCACATCCCTATGTGTTATGGTGTGAGGAGCATCTCTCACTGTTATAGCATAAGA GGGAGGTATCTACTACACCTTAAAAGAGAGACAAGAAATTACTATTCCTAAGAGAACTTGCAATCTGGGCCGTTTATTTG ACTCTCTCTCCATTTTCACTCTTTAATCCTGGCCCTTCATCTGTGAGACTTTTTCTCCTCTATTCTACTCGAGCTTGACG TCACAGAACGCGTTGATGGAGTATGTGAAGAAGGATAGGAGTGTGTTCATGGTTTGATTTCGTGGGTAATCATCATCCCT CAGGCCCTGTCTCTGTAGCGTGAGCGACGTCCTCTGTTCCAGTGGTTAGGTTTAGGTTTGGTTGCAGAAGGAATCAGGAA TACGCACTGTTGAGCACAATTTTGTGTCACCATGACCCATGTTTCTTCAATCCTTTCCGTGTTAGGTGAAAATCAGAAGG AAGATAATAGATTATTCAGGAAATTGTTCAATTTGTTGTCAGAAGCTGAGCGAAATCGGAAAGAGTTCCTATTTCTTCGC CAGTTGAAGCTTCCTTAGATGTCAGGTTAGTACAAGAAGGTTGGTATCCAGTCTGTGCCAGCCTGTTTATTTGTTGATTT CAATTTGTTGAGAACAATTTCAATCATGACTGGGTTTCCCTTCCAATTGTCTATAAATACTCCTATTGTTTGTTGTATAT GTGTGCTTGCTTATTCATTCCTGTTGTTGCTATTTCTCCTACTATCTTATAATCGCTCTCCCCTGCAATCTTTGAGATTA GTTGATACTTGATTGAGTCCATGCTCATGCTACATTTGTTTACTGATATGAGATCAAGCAATCTATTTGCATGGTTTCTG CTATCGTTGTGTTGCTATTCTCCATTTATACAAACTAAAGGGGTTCCTTTTTTAGGCTCTACCTACTTCCAAAGGCCAAG CTCTTGCACATGAGTATGGTATCAAGTTCTTTGAGACTGTGAGTAGCAATATGCTTGACAATAAGTTTCATTAATTTACA TGTGATTTCTTTTATATTCATATTAATTAAAAAACAAATGCAGAGTGCAAAAACAAACTTGAATGTGGAGGAGGTTTTCT TTTCAATAGCAAGAGACATCAAGCAGAGGCTTGCAGACACATATTCTAGAGCTAAGGTTTTTTTTTTACTCTTTATTGTC TGTACTTCTTTTGAGTGTATGCATGAACTGAGCCTTCTCTCTATCTCTATCTCTAGATTTTTTATCAGTTTATAATGATT ATGCAGATGATTCTAATGAATTGGCAAAGAATAATGGTGATGGAGAGGATACTTTCAAGCTGTCCTATTCTGATGCTGAG TGAAGAATTAGAGGAAAAGAACCTTCAGAAAAGTTTTGTTCCTTGAACAAACCTCAAAGATGGATGAGGTATTTTGCTTG CATTTGAATTTGGGGCTGAGGTATTAATTTATGGTTGAGAAAAGAGGTGGGGGCGGTAGTTGTGGACTGAGGTGATGGTT GTGGTATGCAAGCAGATGCTTAAGAAAGGGTGAAGGGTTCCATAGTTGAGGGAGAAGGAGGTGTCGCGGCTGTGTGTTTT GGGTTAGGGAAGGAGAAGGTTGAGTCAGTGGTGGCGGGACACTATTCAGGAGAGAACTTTTTTTGTTTGTGTTCCAATTA TTTTTTGGCCCAACTTATCCTAGCCGGTTCATCCTATTAATTTTTTTAGCCTAGCTTTTTGTTGGCCCATGTCATGTTAT AGGTCATCTTTTATCTTTTTAGTTTACCACTTGTCCTTCCCATTAGTCTACCGTTTAACAGTGAGGAAGGAGAAGAGAGG ATGGTGGAAGGTGATGGAAAGGAATAGCAAGAGTGAGAAGAGAAGATGATGGAAGGGAAAGGACGATTTTTGTCATCCAC CGTAGATAGGGTGAGAATTAGAAGGAGAAGAGAAGATGATGGAAGGGGAAGGACCAAGTGTACGGTTAGGGGATGACCGA AAATATGACATATGTTGCTTCATTGAAGCAAGAAGGAGGACAGAAGAAGGTTGAAGGAGAAGAGAAAAATTCCACTGTTT GATTATCAGGTCTATGTAGTAACCTTTCTGTCTTAACTTGTATTGTGGCAAGGCTGATATGGGTGCTATTCCTTTTAACC AACTTTGAATTTAGATCTAGCTAGCTACCATATGTCAAGTTATATCTAATTGTTTGTAAATGGTATTATAAAACCAATCA TTGGTTTGCAGTATGATAATGTTTTGTTTTGTTTGATACATGTGGTGCCTAGAAGGTTATTATCAAAGATGTTGCTGCTC CGAATTACACATCTAGAAAGCCAAGTAAATAAGTTGCAGGTAACTGTATGTCTTAGTAATCTTTGGTATACTATCCAAGT CTAATCAGAAATGTAAATTCTCATTGACCTATTCATCAATGAGTTATTTAGTTAATCTTATTTAAGAATGTATTTGACCA CATTAAGAAAATTGATTTTTTCTCATCCCATGACATTGATATATTCTGTTCATTTTTCATACGCATAAAGTATGATAAGT AGCTTTAGTTAGTGATTGTCATTTTGAAAGGTTGCATACAACTTTCTTCCAAGTAATTTAATAATGAATTATTTCATGGT AAAATGGCAGCCTTCATCCTAACCAGGTAAGCATGATTAGTAACTAAAATATATGTTTTCTGTAGTTGTTAAACTTCAAT CCCTTTTGCAATCAGGGGTAAATAATGATAAGTAAGAAATTATGGTTTGGTTTTATGCTGAACATGATTAGATTTGTTAT TGAACTTCACTTCTTTTCCTTGCTTTCCAGGTTCCGTGACTACTTTGTATTTTTTCTATCCAAGAACTTACTTTTACATA AAAGTTTGTGATAGAAAAGTCTGTTATTTCAAATCAAATGATATTATTTTGGTCAACTCAACTCAAAGGGTTGGAGGGTT TGTCTCAAGAAGAGCTTTTTCTATGGCAACCTGTGAAGGATATCATTGTAAATGATCCATGATTAGGTCTCATTCTCATT GATATTGGTCTTGCCTATAAACAGCTCTCTCTGTCTCTCTTAGAAGTTCCCCCAGTTTGCAGATCCTAAGGTAACTGTCT CTTTTGTGTTTGTGTATTTATAGCTGTTATTTATTGATGATAACTTCAAATTTGAATAGAAATCACTATGTAAAAGAATA TGCATGCTATTTTCATCTCATCCATTATAATTTTGAACATAGTAATTTGAATCAGTTTCTTCTACTTAGAATCAATTCTG ACAATTGAAGCTACTCATATCAATTTCTCCTCATAATTAAGTTGTCTTTCAAATCAACTATTGAAGAATTTTGAAACATA TAATGAGACCGAATGTATTTCAATTCTCATCTATTTTAGCTTCAAAGATTTTGTTTTGCATGTAGAATTTTGATTTAAAA GTAGAATGTGGTGTGCAGGTCTTTCAAGGAATATTGAAGGAAGGAAGAGCTTTGGTTTTCTAGATCTGAGATAAAAGTTT ATTTAGTTGAAAAGATGTCTTCTTCTTTTCCCTTCCAATTTTTTTTAAAGATATAATTATGTGGTGTAATGTGCATATAG TAGATAGATACTATGAGGCTTGTGACTTAATTAGAAAGCAGTTGAGAGGGGGGGGGGAGAAACTGATAGAGGTGTTCGTT GTAAAAAAGTGTTTTGGCAATCTTGCGAGCAGCTTTTTTCTGATATTGTAGGTATCATATCATTTCTTTCTTTCCTTTTA TGTTTTCTTTTCACCTTACTAAGAGGGAAATTATTCTTTGAAACTAAAGCCTACTTGGCTTTGCTCAAAATACTCACAGA AAGTTAGTCACTGGTGTTGATTTTTCTTGCAGTTAGTTAGTCACTGCGGTTTTTTTTTTCTAGTGATTTAGCATCTCACT TTTTCATTGTTATCAATGTATTTGTCGCTTGCTACAGAAACCTTCTAAGTGAAACTTGGGCCCCTAAATGAGCAAACTAG CAAAGAACATGAGCAACTTGAAGTCATTCCTCTTCCAGAAAAATCTATGGATGTTGAAAGGCTAGGACCTGGAAATTAGT TTTTCAAGAGAAGGTGGAAAAGGAGGCCAGATTGTAGACAAAGTTGAAATTGCAGTTCAAATTACACACAACCAAACCGG TGTCACAATTCACTGAACAGGTTATTTTTCCTCTTTTCATACTTATTTAATATGTGAACCCATCTTCCATGTTTCTGAGG CTTCTTTGGAACATAACATAGTTGGAGACAATTTATATTTTATACGTTAGAAATATATTTTAGTCTCATGTTAAGAAGAT CCAAGATTCAAACTTAACTCACAAAGTGTTTCTTCTTTAGGAATTATTATCCCCACTTAACTCTTCCTAGAATCATAACC TGAAATACTGATTAAGAAATCTTAATCCTGATATTAGTATACAATTGAGAGGCATTTATTTCATAGTTTCTTAAATCCTC ACAGATTAACACTATGGATTTTACTGCGATAAATTCACACCAAACTCATGCAAATGAGAATTGAAGTGCATGGTTAAAAG GCATTATGTTAAAGATTCCATGACAATGATTTTGATTATTGGTGTTGGCCTGGTCATCCTCCTAACTTGACACTTTGAAC CCAGAGATTAGATCCTTGTGGTATGCTAAGTTTTATTTTCAGACTTCTGTTGGTTCCACTCCTCTTTCCATATGGAATGT GCCTTTCGTCTTCAATGGTCTTGAGGTTTGTTAATTTTTTCAAGGTTTATTTATTTATTTATTCTTGTGGTTTTTATCAT GTTTTTGGACTTGGAATCTTCGTTTGCAAAGTTTTCAAAGCTAACACTTTCATCTCATGCATTCGGTTTAGGGAAAAGGG AAATAAATGATGTGCTTTGTAAGGAACTCATTATCACCAGCATCCATTTCCATGATAATGATTGATGATATGCATGCAGA CCTTATGGCCCAAGCATTTATCGTATATGCTGGAGAAATCATTAGGATATATAATTAACAATTTATCCACATGGTGACTC TAATCATCAATGACCTCATAATTTGGGATTATCTATCACACAAATGTTTTCTCAAAGCACTATGTCCAGCAGCAGATAAA ATACATGTTGAAAATTAATAGAGGCCAGTATCATCCCACCTATAGGTTTCACCCAGAGGCTAGAGTAGTAGCTTGGTTGT TGTGCTTGTGCCAAGTTGGACTTGAGAAGAAGGAGGATGGGAGTATGATGAAAAATAACAAAACACTCCTGAGTGAAGAT TCAACTAATGTAAGAAGATTTTGGAATTTGGCAGCTTCCTATGAAGCTAAACCGTCGTGGTATTTAATTACTTATTGCAG GTCCATGTCTCGAGTTGTTTGCTTTGGCATCTGAAATCTTTGTATTTATTCATTTTTGGAGAACTCTAAGAGGTAGCTAC TAGGGTGATGTGTTTAGTCTTTAACTTTGTAATTGTCTTTGATTTACTCGGAAGTTTCTCATGACTAAAGTGTGCCTAAT TGCAGGTACTTGCCTAAAGTTGGTTTGGTATGAACTTTGCAGGCCATCGCTTAGTGGTAATATCATCTATTAGGATATTA TCATGATTGTGTTGATTTTTTAAAAATTCATAAAATAGAGAACAACTTTCATTCAGGTGCTATTTGGTATTGGTGATTTA AATTGTAACTCAGTCATGATTTTGACTTTGGACATACAATTCCTATATAGAAGTTGTAGGAAATATATGTTAAGATTTTA TTTTAGTTAATTTTACCTTAGGAATGCTAACCATTGATCCTAAATTTAAGTTGGTTCTACTATTTATATTTTTGAAATAT TTTATATCTAAAGATACAAAACTACAGTTGAGAACTGTTTAGTACCTAACTATAAAAGTCAGTTTGTTATCATCTAAAAG CAATGGTATTTCATAAATAAATTACAATAGAAATAACAAGTTATATTATTTTTACATACATTTAACACTTTCGTTTATTT AAAAACATTATTAATCATAATTTTTTTTGTTTTTTTTTTTAAATTAATTTTTTTTGTTAATAATAGACATATATGATATG GTTTAGTAATGTATTTTCAATTTCAAATCTTACCAATTTTGGTTATTGTGTAATGGGCATCCGTCACATAAAGTTATTTT GTTGACTACGTAAATTTAGAGATTAAACATGATTGCATAACAATAGAATTATGAAAACGCGTTTTGTAAATTTTTTTCAT ATAAATTCATAATAGAATATCTTTTTACTTTTTATCAATAAGTAATTTTAACTTTTAAAATTATGGGGCCCTTCTTTTCC TATGTAACCAAAAAATTATGGAGGGTGGATTTTCTTTTTTGTCTACCAATGCACAAGGAGTATATTAAACTTTGCAGGGG TATTTTAGAATTTACTCCTTCCCTTTTATGGATGTGTACCACTTTGCATCTCCTTCCCCCTCTCTCCCGCCCTTTAAACC TACAATATTCCACCACTGGCTAGCCCTTGCCTCTCTTCTCAACTTTTTTTTTTAATCATTTATGCATTTCTAACTAAAAC GATAACGAAGTTATTATATAAATTATTAGAGAAAAAGTTTCCTGCACCGACATTGTAAAGTTTTTTTACAACGTCAACCA ATCAGATTTCATGAATAATAATAAGACAGTAAAAACCCACATACATGTGTTTTATATACATTAAAGCTATTAATTGTTTT AGTGTCACCTGTATACTGACAAAGATAATA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0309300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAAGGAAAAGGTTACACTCTAGATGGCACTGTGGATCTTGCTGGACGGCCTGTGCTTTCTTCTCTAACTGGGAAGCA GAAAGCATGCACTTACATTCTTGTTTACCGTGTATTGGAAAGATTCGCCTACTATGGGGTAGGAGCAAACTTAGTGAATT TTATGACAACCCAACTCAACAAAGACGTGGTATCATCAATAACCAGTTTCAATAACTGGAGTGGCTTGGCTACGTTGACC CCAATTCTTGGTGCTTACATAGCAGATACTTACACTGGCCGCTTTTGGACAATCACTTTTTCCTTGCTCATATATGCCAT AGGTCTTGTGCTTCTGGTCCTGACAACTACACTAAAAAGCTTGAGACCAGCATGTGAAAATGGAATTTGCAGAGAAGCAT CTAACTTACAAGTAGCATTGTTCTACACATCACTATACACAATAGCAGTTGGAAGTGGTGCTGTAAAACCCAACATGTCA ACTTTTGGTGCTGACCAATTTGATGATTTCCGCCATGAAGAAAAAGAGCAAAAAGTTTCATTCTTCAATTGGTGGGCATT TAATGGAGCCTGTGGCTCTCTAATGGCAACTCTGTTTGTGGTGTACATTCAAGAGAAAAATGGATGGGGTTTGGCCTACA GTTTATCTGCTATTGGTTTTCTACTTTCCTCTATTATCTTTTTTTGGGGTTCCCCAGTTTACAGGCATAAATCCAGACAG GCTAGGAGTCCTTCAATGAACTTTATCAGAGTCCCACTTGTTGCTTTCAGAAATAGGAAACTCCAGCTTCCTTGTAACCC TTCAGAACTGCATGAGTTTCAGTTGAACTATTACATTAGTAGTGGCGCAAGAAAAATTCATCACACTTCTCATTTCAGTT TCTTAGACAGGGCAGCAATAAGAGAAAGCAACACAGATCTCTCAAATCCCCCCTGCACAGTGACTCAAGTAGAGGGAACC AAGCTTGTCTTAGGCATGTTCCAAATATGGTTACTGATGCTAATTCCCACCAACTGCTGGGCACTAGAATCAACCATTTT CGTCAGGCAAGGCACAACAATGGACAGAACACTTGGCCCCAAGTTCCGTTTACCAGCAGCTTCACTCTGGTGCTTTATAG TCCTCACCACCCTCATCTGCCTCCCCATCTACGACCATTACTTCATACCGTTCATGCGCCGAAGAACCGGCAACCACAGA GGAATCAAATTGCTCCAGAGGGTCGGCATCGGAATGGCCATCCAAGTCATAGCCATGGCAGTTACTTATGCTGTAGAAAC TCAAAGAATGAGTGTCATAAAGAAGCATCACATAGTTGGGCCTGAAGAAACAGTTCCTATGAGCATATTCTGGTTATTGC CTCAAAACATTATACTTGGTGTTTCAAACGCTTTCCTTGCCACTGGGATGCTAGAGTTTTTCTATGATCAATCTCCAGAG GAAATGAAAGGCCTTGGCACAACATTGTGCACGAGCTGTGTAGCTGCTGGGAGCTACATTAACACCTTTCTAGTGACTAT GATTGATAAACTGAACTGGATTGGGAACAACCTGAATGACTCTCATCTAGATTACTATTATGCCTTTCTTTTTGTGATAT CTGCTCTTAATTTTGGTGTCTTTCTGTGGGTGTCAAGTGGGTACATTTACAAGAAGGAAAATACAAGCACAACTGAGGTG CATGATATTGAGATGAGCGCAGAGAAGACTGTGAAGTACTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0309300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEGKGYTLDGTVDLAGRPVLSSLTGKQKACTYILVYRVLERFAYYGVGANLVNFMTTQLNKDVVSSITSFNNWSGLATLT PILGAYIADTYTGRFWTITFSLLIYAIGLVLLVLTTTLKSLRPACENGICREASNLQVALFYTSLYTIAVGSGAVKPNMS TFGADQFDDFRHEEKEQKVSFFNWWAFNGACGSLMATLFVVYIQEKNGWGLAYSLSAIGFLLSSIIFFWGSPVYRHKSRQ ARSPSMNFIRVPLVAFRNRKLQLPCNPSELHEFQLNYYISSGARKIHHTSHFSFLDRAAIRESNTDLSNPPCTVTQVEGT KLVLGMFQIWLLMLIPTNCWALESTIFVRQGTTMDRTLGPKFRLPAASLWCFIVLTTLICLPIYDHYFIPFMRRRTGNHR GIKLLQRVGIGMAIQVIAMAVTYAVETQRMSVIKKHHIVGPEETVPMSIFWLLPQNIILGVSNAFLATGMLEFFYDQSPE EMKGLGTTLCTSCVAAGSYINTFLVTMIDKLNWIGNNLNDSHLDYYYAFLFVISALNFGVFLWVSSGYIYKKENTSTTEV HDIEMSAEKTVKY

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	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	69	69	-	–
Gene3D	G3DSA:1.20.1250.20 View details on G3DSA:1.20.1250.20 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1250.20	2	558	557	2.7E-167	–
PANTHER	PTHR11654:SF155 View details on PTHR11654:SF155 Search for proteins/transripts with this domain View external data on PTHR11654:SF155	5	559	555	3.9E-246	–
PANTHER	PTHR11654 View details on PTHR11654 Search for proteins/transripts with this domain View external data on PTHR11654	5	559	555	3.9E-246	IPR000109 Show description in modal box View details on IPR000109 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd17417 View details on cd17417 Search for proteins/transripts with this domain View external data on cd17417	27	550	524	0.0	–
SUPERFAMILY	SSF103473 View details on SSF103473 Search for proteins/transripts with this domain View external data on SSF103473	35	544	510	3.4E-17	IPR036259 Show description in modal box View details on IPR036259 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	63	85	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	70	88	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	89	93	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	94	114	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	95	114	20	-	–
Pfam	PF00854 View details on PF00854 Search for proteins/transripts with this domain View external data on PF00854	95	511	417	2.0E-93	IPR000109 Show description in modal box View details on IPR000109 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	115	180	66	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	181	203	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	181	203	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	204	208	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	208	230	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	209	230	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	231	328	98	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	329	351	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	329	347	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	348	366	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	366	388	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	367	384	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	385	403	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	404	425	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	408	425	18	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	426	456	31	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	449	471	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	457	475	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	476	486	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	484	506	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	487	505	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	506	524	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	525	544	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	526	548	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	545	573	29	-	–

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: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
GO:0022857 View details of GO:0022857 AmiGO InterPro QuickGO	Molecular function	Transmembrane transporter activity	Enables the transfer of a substance, usually a specific substance or a group of related substances, from one side of a membrane to the other.	Subterm of View details of GO:0005215
GO:0055085 View details of GO:0055085 AmiGO InterPro QuickGO	Biological process	Transmembrane transport	The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other.	Subterm of View details of GO:0006810

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0309300.1, 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…

LotjaGi1g1v0309300.1