Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0076900
Transcript ID	LotjaGi1g1v0076900.2
Related isoforms 1	LotjaGi1g1v0076900.1
Lotus japonicus genome version	Gifu v1.2
Description	Syntaxin-binding protein 5; TAIR: AT5G05570.2 transducin family protein / WD-40 repeat family protein; Swiss-Prot: sp\|Q5DQR4\|STB5L_MOUSE Syntaxin-binding protein 5-like; TrEMBL-Plants: tr\|K7KAS4\|K7KAS4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0076900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:11084523..11099601) extracted from Lotus japonicus Gifu genome v1.2.

CAAAGCTCCCTTGAAGGTTGAGATCCTACGGTCTAGGTGGCCCTTAAGAGTTAAAGCCTCTCCAATCACCGTCCATTTCA GTAAGAAAATCACAATAAGAAACCGTGCATGATGCAACATACAGGTGATTCACACCGTACCTGAAGCAGAAACAAACAGA AATTCCAAACACAAATTTTCACAGAAGAGGAAGCAAAAGCTCTCACAATTCGATCATCATCAATCAACAATGTTCTCTAG ATTCTTCCAGAAATCTCCACCACCACCACAACAACGTCCACAGCCACAGGTACGTGCATGCTCAATTTCCGCCATTACAG TTTCCAAATTCTCCTAAATTTCCAAGTGTTTGTGAATTGTGAATGCCATTGGTGAATTGAATTGATTCGTGTTTTTCCAC ATGAATTCGAGTTCTGAAACTGATTCTGAATTGTTCAGCCACCGCAGAACGTGGTGGAAGGTAGTTTATCGCCGGCGAAA TTGGATCCGCAAGTTGTGTTTCACTATGGAGTTCCATCTACTGCTTCCATTCTTGCGTTTGATCGGGTTCAGCGTCTGTT AGCGGTTGGAACTAGGTGAGTTATGTTGAAAAACTGCTTCCTTTCACTGTTTTCTACTTTGTCAGAATTCTCCATTTCCA TTTATACCAATGTGAATGAAATACCCAGAAGGAAAAAAACTCCATTTTCATACAAGATTTTGGAACTAGCTCATAAAGTG TTAAACTTTTTTTTGTTTTGTTTTGTGTGCTATTGAAGTTGTAGTTTTTAGCTTCATTAGATGTGGCCCTTTTTTTTTTT TTAAGTTTCTTCATTTCTCTGTTGTGATTATTGAGAAGTAGCTTAGATGTCGGAAAAGAGTTAGTTCCTATGGAGATTGT TCATGGCTTTATGTGTTAACTTTAGCATTTTCTTCACTCTTGTAGTGATGGCAGGATAAAGGTGTTTGGTGATAACAATA TTGAAGGAATATTGACCCCTCCTAAGCAAGCATCTCTCAAGAATTTAGAGGTTTGTAATTTTGGGTAGATGTTGAAATTA GAAAGTAAAGTGTATTTGTCTATCAGTCATTCAATCTTATGCTGGTTATTGTCCTGATAATGTTTGGATGTTTGCATCTC TGGGATTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGTTGGGGGGGAGGGGCATGCATCTGTTGTCCATGTTT GCTGATCAAACATGACACATTTATTGAACTCTAGATGTTAAAATAAATGTTTTTGAAGTATTTCATGAATGTATCTTACC CTTTTCCATCTCTCTGGCAGTTCTTGCAAAATCAAGGTTTTCTTGTTTGCGTCACGAGTGGTAATGAAATACAGGTATCT TATATAACTATTGAAGTTCCTTTAAACTGTCTATGACCAGGAACTCTCTGTGTCTGCTTATTATTATTTTTTACTTTGTG GTATTCCATCTGAGTTTTCTTGCCTTGGATTATTTGTGTATTAAATGGATAGCTTTCATACCTTATTTTTTTTCCTCTCT TATTCTTCCTCATTTCCTCTGTTTCATTTTCTAACCAGCTCAATATGTTTTATGATAATGGAAGGTATGGGATTTGAAAA ACAGGCAAATTGCTTCTGCCTTGCAGTGGGAATCCATCATAACTGCTTTCTCTGTTATTTACGGCACCAGTTACATGTAA AATACTTGTTCAGATGATTTGGAATCTGCATTTGTAATTTACACTTTCTGTTGAAATTTCTGTTCATGAGTCTATAACAT TTTTACCACGTTGAGATTCAGGTATACTGGAAGTGAGTATGGGATGGTGTATGTGTTGAAGTTTGATTCTGAAGACAGAA AAATTAATATATTACCTTATTATGTTCCCACGAATGCTATATCAGGTTAAGTGCTCACTCTTGTATTTCATGCCATATAA CTGCATTTTTGCGCTGACCAAAAGGGCTGGTTCAATAAGCATTGACTTTATTTTTTGAGTTTGTTGTCTGGGAAAGAGAT GCTTTCTAATCTAAACTTCTAACTAAGCTCTCAGGAAACTTTCTTTGGATTCTCGTAGTAACCCGCTAAGCCCTTTTTAA ATTACTTTGTGGTTGGGTATGAAAGAAATGTAGTGATTTCATTTGTCAAGTGTCATCCAGAGAGTTAGCAAGTTTAAGAT GATACCTGCTCTTGAAATAGGGTATAGATGCAAATGCGAATTTGAGAGATCATGGCTGGCCTGGAACTGTATGACCAATC AGTCAAAACATACATATATTCATATACTATGTCAATTCAATTAACTCCAAAATTAGAGCACTAATTATAGCTGGACAGAA AATACATATAAGAGAGTTTTTTATTTACTCTAACCATTAGTAATTTAAGGTTTTAAATTACTAGTGTAGTCCCCCATTGA TGATGTTTTTTGTATACTTATCTTCATGTCTTGCACCATATTGATGCTTTGTAAATTGCAATAGATTTTTACTGATTAGT TTATGAAAGCTTATCAGAGCAGATTATTGTGATATATGGTATGTCACTAATGTAACATAAGTTCCAACAAAAACGTGCCA TATGCTTACGTTATTATCTAGTTTTTTTATTTTTTAGGTGGGAAATCACATAGTTTCTATGAGTCTAACATCTAACTTGT TTCAAAATTGCTCACCTGCAGAAGCAGTTGGAATGTCACTTGATAATGTTTCAGTTGTCAGAGTTCTCCATCAACCTTGT TCTGATGGAAAAAGGCAAGACAGAACTAACTTAAAAGTTTCTATGGTTGATTTCCTTCTATTCTATGAAGAAATATCTTA GGTAATTTTGGTTCTCCATGGACAGACTAACAGTTTTCTTGTAAACAATAACTTTGACAAGAACCAACTTAAAAGTTTTC TTGTCACTTAATCCCTTAAACAACAATTTTCTTGTAAAGATCTATTTTTCTCAATTTCTTGATTTGCAAAGATTAAAAAG AGCATTAAGAAAATGACTCTAAATTAGTCGCTCAAAACCTGTTATTATCCTTAAGAAGCAAGCATGAATATTTTGTTACA ATCAACAATTCCCAACACAAATTTTCCTATCAAACTTTAGACTGAAAATTATCTGTAAATTTTCCAATGCATGGATTTAT TCAGTACAGAAACAAGCATATAAGAGATGAAAATTAAATTCAAAGTTAAGTATGGAATCATATAAGATATTAGGTAGTTC AATCTACTTCTAATAACAAGAGAAACTAACTACTCACACTAAAATAAAAGAGAACAAACCTGGAAGAGAATCTTGAATCT TGGAGCCAGACTTTTCTTTGTTCACGAACTTCAGAATCCTTGTCCAACTCTTTTATTGCCATTTTTTGTCATGTTTTTCA GTTGTTTTTATAAGCCTGCCATACATTTCTTCCCTTCACCTCCTGACTTTTGAGTTGCAGATAAAATAAAAAGTCACAAA CGGTGCTGAAACACACTTACGCTAAGGAATACAACCATATAAGGAACATGCCAGGCCGTCTTCCTTACCTACTGGTACTA AAATCCTAACCACAAGGCGGTCTTGATAAGGAGTATGGTCGGGCCTATTTCTTGTTGAAATGATATTCCTGTGCTGAGGC CTGACCATAATGTAGCCATATTACAAAATATTGCAACCCATATTCCTTGCTGGACTTTAACTTTGATCTCTTCTACTGCA ACTTCAGTCTAAGTTTACCAACTCCCTTTGCACTTAAAGTCGTCCTTAATCTCTGTCCGAAATACTCCAACTTGTACACC AAAAGCTTTCATAGCAATAAATGTAACTAAAAAAATTGCTTCTCAAAACTCAGTGAAGATATATAATTCAAAGTGATTCT CATCAAAATTGTTGGAAATTCAATTTAAAATTATTCATATGCCTTCACCCCACACCTTAGACTTTGTAGATTTGAGAATA GGATAAGTGCAGTAAAATTCCTCTTAGAGTTTTCAGGTTAATTGAATTGCATGGCTGTACATGTACGGGGTACGCCCATG TTGAGTTGGCAGTTAGCTTATTATGTGAGGATTGCCAAGCCTTTATGAGGACTCTTTTGGCAATATCTTTCCTCCAACTA AAATCCAACAAGAGAAAAGACTCAATTTACACTAAAAACACGTGAACAACAGACTTCTAAATCAGAACATATAAAAAAAT GAATTAAATATAAAAATTGAATATTCAGTGACACATATTTAAGATACACTGTTATGCACATTATGTAAATAGTTTAGTTT TTCAGAGGGTACTTACTAAGCATTTGAATATTCATCATTTTGCAGACTACTGATCGCATATGATACTGGCGTGATGGTAC TCTGGGATGCTTCTGAAGATCGAGTTGTTCTCATCAGAGGCAACAAGGACATTGAATTGAAAAGAATAAAAATTACTAGT CTTCCAAATGATCCAAAGAATGAAGATTCTGATGATAGATTAGACGATGAAGAAGAGAAGGAGATAAGCTCTGTTTCTTG GGCATCAAATGATGGATCAATTGTTGCTGTTGGTTATGTAGATGGTGATATAATGTTTTGGGATTTGTCAACTGCCAACT CCCCGCCAAATCAACAAGCTGAAAAAGTGCCCAATAATGTTGTCAAGCTTCAATTATCATCAGCAGATAGAAGACTCCCT ATTATTGTCCTACATTGGTGTGCCAATAAATCTTTGAATAATAGGGGTGAGCTTTTTGTCTATGGTGGAGGCGAAATGGG ATCCGAAGAAGTATTGACAGTAAGCTTCTTACTTGTAGGGGCTATTTGAAATTGATGTTTTAATAGTTATTGTAGTAATG AAAAAAGATCATCATCACATCTATTTTAATGTTAACATTTGCAGGAGATTATCCACAAGTGAGAAAAAAGTAAGAAATAA CATAAAAAACGAAAGCAACCAAGCAAATGGTCCTAGATGAATACTATAAAATTAGTAGTTTGGTGTCTATGCTTCTTCTT TATTCTTTTGGTGCTTTGCTTTTGTTATATACATGTACATTCAATATATATCATGTCATCCAAATGGAGTAGAGTTGTAT TGTTAGAAAAAGAAGAAAACTGGCCAAGGAAATTAATGAGCATACACTGTTGATCCTTTATGCATTTTTACTTCCCTTTC TTTTATTGAAGAAGAATTTTTTTTTTGAACTAAATACTGCTACGGAAAATTTTCCCTTTTGCTATATTAGATTTGAAAAG TACCCTGTTAACAGCCTATTACGATTTCATAAATTCAGTTTAGTAGATAATTAATGTCACTGTAATATTTTTTTTTTATG TTCCCAGGTTTTGAGCATTGATTGGTCTTGTGGGATAGAAAGTCTTAAGTGCACTGACCGCATTGATATTTCACTTCATG GTTCTTTTGCCGATATGGTTTTGTTATCTAGTGATTGCCATACAGAGGGAGCCTATGATATGCTGTTTGTATTGACAAAT CCTGGACAGCTGGATCTTTATGACTGTGATTCTTTGATGTCTCGGCAAGAAAAGAAGACTTCTTCTCCCACAATGAAGTA TCCCATCATCATACCTACTCTTGAACCGCAGATGACAACAGCAAGGCTTGATATGGCATGCCAAGATGTGAACTCATTCA AGAAGCTGTCTGAGGTAATCCATATTTATTACTATTAGGTCTAAATTTCTCTTTTTTATTCTAAGGCTAGTTGTTATTTC TATTGTAACTTATGTGTGTGTTATGTAATATGTTTGCAGTGCAAATGTTGCTAAAACTTTTAAGGATAAAAACTCAACTT TCACCACTCACTACTAATGGCAAATGATATCTGTGTAGTTTCTCATAGCAGCAAAGCAGAATTCAGTACAAAATCAGACA AATATGGGTACAAAGTGGCCTTTGACTGGTGGTGTTCCAAGTAATCTTTTCAAAGAAGACCATCCTATCATTCAAATATA CATAGCAGGTTACCAAGATGGATCTGTTAGGATATGGGATGCCACATATCCTACTTTGTCACTTGTTTACAACATCATAT CTGAGGTTAGACATTAGCATACTAGACAAATTTTAAACTATTGACTTCTGCCTTTTCCTCCAAGTTTTTCTATATTAAAC CAAACACATATATTGAAGACTTATTATACTAACCAATCATATGGAAAACTAATTCTGCAATTGGCAGGTGAATGATGTCA AAATTGGCGGTGCTAGTGCACCGGTTTCAGCATTGGATTTTTGCTCTGATACTCTACGTCTAGCAGTTGGCAATGAAAGT GGTGTTGTAAGATTTATTAGTACTGTAATGTTGCATTTCTCCTTTTCTTATTCAATGAAGTTTTGAATCCCTAATCACTT TATCCTCGGGAATATGTAGGTCCGTCTGTATGGGTTAATATGGAATTCAGATGACATGACTTTGAACTTCGTGACAGATA ATGGAACAGAAGGTTTGATATTCTTTCTTTTATATTTGAATTAAAACAGAACCTCTCTTCATATGTTTCTAGTATCAAGC AAGTGTTATAATGATTTGTTGAAGAAAAGCAAGAAATATTGTTAAAGGGGCATATCAATATTTGGAATCTTTCCAATAAA TGATTACGGGAAATTTTATGTATAATAGGATGTGGATTACTTGAAGGTTGAACCTAGAAACAAATTTAGTTTGCATTTCC ATTTGTGAATTGTGATAATTAAAAATTGCCTTCCAAATCTTGGGCTCATTGCCTGCTGTTGAGAAGTCTCACATTGACTA GAGTTATGGCTACATAAGTGTTTATAAAGGGTAGAGCAAACCTCACATATAAGCTAGCGTTCGGGGTAGAGTTAGGCCTA ACCCAAATTGTAATACCTGCTATCATTTTCTCACAGCTAAGTGTAGGAACTCTTCAAAATTCATTGTTCAGACAAACTTT GTAGATAACATAAAAGTTCAGCTTCCACAACTCTTTGGAAGGCTAAGTTTCTATAGTAAACACTTGTTTGATTTCCAATG AGCAGAAGTTGGTCCTTTCCCCTAATTCATTTTATATTCCTCAAAAGCTCCATAGCCATCACATATTGACATGTATGGTG GAAAAAGTTGTTTTCATTTTATTTGTTTATTTGTGGACATGTCTTCCTAGCTTGGAGATTATATTTTCAATCTTGTCTGA GGGGCTATCAGTAACATAGGAGACTAAGGTACTTTGGCACTTGCGTATTTTTTGATGGAGCATGGTGCATCTGATTGGAC TGTAAAGTCTGAGTGGAAGATGTATTAATACCAAATCACCCTAAGTGTTAAAAATATAATATAAAACAATGCATTTGTCT TATTAGAGATAATTAGTATAACTGTTATTTTATATTAAAATAAATATCTGTAGCCTATGTGGCAGCTAGGTTATTTGTAG CCTCTGTGACGGCTAGGGTTAGTTAAGATAAGCTTGCTGTGCAAGCCTTCCAGCCTCCAAGGTCTCTATATAAAGAGAAC CTCTCAGCTGTATTTGACACGTTAAATTAATAGAAAATAATTTCGTTCCTTTTCTTTTCACCCTATTAGGGTTTCTAATA TGTCTTCATTCAAAAGCTTAAGCTTTTAGGATAGTTGGTCCATGGCATGGAATCGGAGTCACTATACCAAGTGATCTTAG AGTTCGCTACTTGTTGTCCCCATTTACTTAATAAAAAGTTAAATTTCAGTACAAAGTAAGTGGGTTTATGGCAATGTTCT CGTTCAAGCCCCTTCGGTGAGGCAGAGTGTTAGAAATACAACATAAAACTATTGAAGTGTTTTCACTTTTCACCCAACAA CATAGGGCATTGGGTATATATGGACATGTGATATCATGTCCACTCTTGTGGTCTGTAGGTTGGCTCATTGGCCCTCTGCA TTTCGGCTCGACCAGATCAATAACAAGTGGTATGGGAGCCTATTCTTAATTCGGTATTGGGCCAACTATGATGGGCTTCC TGAAAATTACCAAACTAAGTTACCTTACATGTATCTCTTTACAGTTCACACTAAAAATCATTTGATATTTCTAATCACTG ATTGTAACCCATTTCTATCTATTGAGACAGTTCATAATACGAATCATGAGGATGGACCTCATTGCAAAACAGTGTTTTCC CTTCAAAATTCTTCTGTGTGCGGCCTACAGTTTGGAAACCTTGGAGGGAAGCTTGCTGTTGGATATGAAAATGGGCAGGT GAGATCATCCATGAATTTGTTTCCTTTTAAAAGGAAATGGTCTAATTCTTGTCGATTCAGTTGTTGAGTGGCATACTGGA TTGAACTTTCCAACTTATATTTTCTAATCCACTTTGCAGGTTGCTATGCTTGATATCAGTACATCATCAGTTTTGTTTAT TACAAATACCGGATCTAACCCATCTTCAACAGTTGTTTCTCTGAATGCAAAATTTTCAGACAGTTGTAGCTTGAACATTC CACAGGAATCTGAATCTGATATTTCTGACAATTCTGGAAAGGGGCTAGTCTTTGTAATGACAAGGGATGCACACTTTTCT GCGGTAGATACTGCAACAGGGAATATGGTTTGCAGTAGGACAATGGGCCCAAAAGTAAAGTCAAATGTAATTTCAATGCA CATCACAGGCAAGTATTTTGGTTAAGAAAATCAGATTCTATAATCTGCCAATAATTTTATTACTCATGGTGCTGTGTTAT TTCAGATTCTGCTTCTGAACTATCTGCTGAAAAACTTCCATCCAACTCACCTCAGGAAAGTGATTCTGAAATTCAAGCTG ACGTTCAATCTGAAAATGCAGAAGTTGAAGTTGAAACTGCTACTACCGCAGAGAATTCATATTTAGGGCAGATAGTATCA AACTCACTCATCTTACTTTGTTATGAGAATGAATTGAGCTTACACTCCCTAATTTCAGTGATTGAGGTTCCATTCTACAT GTCCATTATCCTTTTAATTTTAATGTATTCTTCTCTACCGATTAAAATGTAGTTGCCTAATTACAGGGTAGCAGTAAGTA CATACAGAAGGTGACCCTTGTACAACGCTGCTGCTGGACTACAACCTTTAAGAAGGATGACAAAGAACGTGTTCTAGTTC TTTATCAAACTGGGGACATTGAATTAAGGTTAAATGCTTCGAAGATTATGTGTTCTAAATATTAATTTGGACATGGTCAC ACTCATAATCAAATTTTAGATTGGCATATTATAAATTTAGAATGAGAAATGCTAGCAACATACACTTTTGAACACACTCG CACACACACTCTCCATGTGGTTGGTTAATTTTTGCAAAAGTCAAAACATTTTTAATAAGAGAGAGAAATAAATTGACTAT TTTGAAAATAGACCAATCACAAAGAGTGTGTGAGAGAGTGTGTTCAAAAGAGTGTGTTGGTCGCATTCCTCATTTAGAAA TCTAATCAAACAATTGGTATTATATATGGAGGCTCATCAATTTTATACTAGTCTTGACTGGTACTTGTATTCCCCCTTAT CCTAATATTAGAATCTTAGTCTTGTCGCCTAAAAAATCTATATGTTTTTTATTCCTGATTGATTATAATATCTGAGAGAA ATAATACTCTTCTGACTCTCAGGCTGTTACTTATTCTAGTGCATTTTTTCTGGTGGTGTTGTGTCATGCTGCTTTTCAGG ATGTCATGTTCTACTTCACTCTATTTTCTCCTCTTTTTTATAAGCTTTTGATGGACGTTTTGTCACTTCATGCAGGTCCT TACCAACTCTGGAAGTGTTGGGAGAAAGCTCTTTAATGTCAATCCTAAGATGGAACTTCAAGACCAACATGGAGAAGACA ATTTGTTCTTCATCAAATGGGCAAATAATTCTGGTTTGAAATTTTTCTCGTTTTTCAAATGAAGCTATTTTATTAGTATA TGCTGCCAAAACTAATCTGATTGGTCTATTTTATTAGTATATGCTGCCAAAACTAATCTGATTGGTCTGTTGTTGTCTTA AGCCTAATATGTCACTTTACTAATTTTAGTATGGTGAGTTCATTATATATCACATTTAACCCATAACCATGCAGGAAATA TAGTAAATTGAACTTCCATTTGGAAACAACGACAGCAAAGTTTTCGGTTTCTTCCTTTTTTTATTTTATTTTCTGTTGTT ATGTTTGTCAAACTTTATCTGATTTTCTTCTAAGAATCATCTATGTTCATGTTTAGCAATGATATAAATAAACTAGCTTT CGTACCTCTTACCAGTTAACAGAACAACTTTTGCAACATAATGTGATCTAACTGCACTAACTAATCCTTGTTGGACATAA AACCATTCATAAGTCTTCGTTTAACAATTTCAACTTTCGAATAAGTTAATTCCTTTATAGTATCATAGCTTCTTTGAACA ATTGGTCAAAAGGTTAATCCGTGCTACTTCCATTATTCTAATTAGTAAAAGATGGAATTTAAACACAAGAAAGGGTTCAC TTGTGCAGTTTCCTGCTTCAAATGCAAAAGCCTCTTGAAATAAAGGATGTGTGGGATATAAAACTATTTCATTAGTTTTC ACCTAATAGTTTAAAATTTTAATTTTAAGAGAGTCCGTTTATAACAGTCCACGACTAACACTAACATTTAAAAGGTTACA AAAGAAAAGAAAATTTGTTAAACCCACTGCATTTATCTTTTAGTGTCTTGGATCCTTCAAAAGCATTTTAACTAAAAGCT GCTAGAAGATATATTGCATGAGTAAATCTTTCTTCTAACAAATTAGATAAGTTCCAGTTGCTTTTAATTTCTTAATCAGA ATCGTGATCATCTTGTTTTATAGGTCAATGGAAATGAAGCTGCTTCCATATTACTGTTCTTTGGTGAAAATGAGTTCTGG TAACTTTTTGGTTCCTCCCTTCACTCCACGAGCTTTTTTTTTTTTTTTGAAAGAGTTTAGAGCTCTATTTTTCATATTTG AAGTATTGGATAAATTATTTCCACACAACACAGCTTTTTATGACATTTTATAGAAAAAATATTTGAAAGCTCCTATAAAA GAGAGCCGCGGACAAACTACAAACCACGGGTGGTTGCTGAATGTGATCAGCCTCTCCACAAAATGTCCGAGAAAATTATA TGTAGTATCATTAACTATTAGAATTATGGTTTCTAACATGGTTTTTCTAATTATTGTAGGATTCCAGAGTCTTTTCCTTG TCTTCATGATGAAGTCGTTGCAGCTGCAGTAGATGTTACTGCTATCCCATCTCCGAACCAACATGAAAGACAGGTCCAGT TTATTCTGGCTTGCTGTGCTTCTGTTTCTCATATTAAACTTTCCAGGATCTGTAATTCAACTTATCTTGCCATAGGGACC ACCTTCTATCTTCCTAAATGCTGCCAAGATCTTTAAAGTAGGGAAAGCGAATCAGAATGCAAATCAAGCTGGTCACGATA ATTATTTGGAAACTTTGGAACAACTATTCTCCAATCCTCCTTTCTTAAAGCCTTCCTTAGGCACAGAAGATAAGCAAGAT GCTTTTGATTTTGACATAGGTCTGTCCTTACCATCTTTCTACCCCATGCTATTACTTCTTTTCTGAAAATATTTGCCGTA TCTTCTGCAGATGAAATTCATATTGATGAAAAAGTCGTCGTTTCATCTCCTAAAAAAAGCAATATTGATAAGAGAGGTAC ATCTAAATTGTTTTATTTTCTCCTAAAAGTGTTTTATCTTTTGACTAATGAGTGTTTGGCGAGCAGATAAAGGGAAAGAA ACAGAAAGGCAGAAATTATTCGAGGATGCAAGCACTGACTCGAAACCGAGAGTTAGAACGGCTGAAGAAATTAAGGCTAA ATACAAAAGGACGGGGGTAAATCTTAGATCTGAAAATACTGTAATTTACTCATTTTAGCTCACACGTCTTGACCTGGTCA CTGGTTTCAGGATGCCTCGGCAGCAGCTGCACTTGCAAAAGATAAGCTATTAGAGCGGCAGGAAAAACTCCAGGTAGATT ATTGAGCACCATTTTTTTCACACCATTTTCGTTCATGCTTGGATACATTGTGGAAAACCACGGTGAAACCAAAATCCCGG TGGCCAGAAGCAACTTCCCTTAGCTTTTGCATCTGTCCACCATGATTTTGGTCTCACCGTCCACCATATATTCAAACATA CACAAAGTGAGACCATTACATTGTAGCCTATACCAGTACACCTTCCTCACTTGTAGAGTATCCCCTATACCAGCATTGAA CAAAACATTTTTCATTATATTTGATGCCATTCTCCATTACCTCTATCCTGTACTGTCACAATTTCCAACCTCATCTCCTT TCTAGAAAAAATATAATAATTCTGAATCATCAAAAAGACAAAAAAAAAAAAAAAACCCTCCATTGTTAAGAAGTTTCTAG AAATAGACGTTTCATGTATGAGTTCAGTGGATGTTAGTTTGCGCTCATCTTAATATTTGTTTATTATGATTATATCTAAC TATTGCTTCTTTATATTTTTACTAGCTGCTCAACGAACGTACTGAAGAGTTGCAAAATGGGGCACAGGACTTTGCATCCA TGGCAACTGAACTCGCTAAAAGAATGGAAAATCGTAAATGGTGGCAGTTATGACAACGTTGCATGATTGTTGTCCTGCTA TGCTCCTTTTGAAGTTCTGCACTAGTGAACTGCCTCACTTGCTTCAAAAGGTATCTCTGATCCGTTGCTTATTTACTGTT TGTAAACATATTTCTTCCCCCACAGGCGCATGCTAGTATCATTTTATATTTTGTCTCAAGCATGTTAGTATAGTTTAATA ATTGTGTTACCCTGTACAGAACATTATTTTGTATATATCAGGCTGAATAATTGCCTAATGCATAAAGCATCGTTAAGTTA AATTACCCTTTAGCTTTTTAATGGGCATTCAGCATTACCCTTTCTGAATTCGCATAGCTAATGTCTAAATCCACTCACCG TTTTTTCCATCGTTCTAATGACTCAACTTCATCTTGGGTCCTTGTCAACCCCATAATCCTCTAATCTGGATAGCAATCAT TCGCAACACGACCCTCGTTCATTTCTAAGTTGTATCTTTCTTTACTAACGATACACATAATTTTGATGTTATATATAGTT AATGGGAGTGTTTGTATATACAACATTGTTTTTTCAAACAAAACTCATAGACTAGTTTTAACCATTTTTTTCATCCTTCT TTATTCTAAGTCATCAATGACTTCTATACAATCTGTGTAATATATGCCCATATGGTATTTCTGCAGATAATAATTTTTTT TTTTTTTTTTTCAGAATATACTTCCACCTTATAGGAAATAGACTAATCTCATGGAATAGCGTAGATGCTAAACTGGAGAT CACTCTCGAGTGTTTTCTCAAAATGCATGAACCTAAGAATCAAATCCACGACCACAAACTTGAGACCTTTTCACTTCAAC AGGTAGTGAAGATATTTTCATTTTAAATGGTAAGAGGGAAGTGTTCTCCGCACTTGAAAATTGATCTGTTTTAACTATTA ATCTATTCCATTGCGTCATTTGCCAGGAAGCACTAGGTTTTTAAAGACCCTGCTGTTTCTAAAGTGTAAGATGTAACTAA TCAAAGGGGAATATTACTATTAACTTTTCTTTCAAAAAAAAAAAACTAATAACTTTTCCTTAAATATATTAAAGGCAAGT TCACATGCATTTTATTAGTTACTTACTGCTTATATTTTATAGAATATTGTAAAAGAAGTGGTTGGTAAATGTTTGAAAAC TCATTCTAAATTAAATGCTTGTGAACTTTGCCCATAAGCATGAAGAAAAGTTCACATGCATTTTATTAAAGGCAAGTTCA CATGCATTTTATTAGTTACTTACTGCTTATATTTTATAGAATATTGTAAAAGAAGTGGTTGGTAAATGTTTGAAAACTCA TTCTAAATTAAATGCTTGTGAACTTTGCCCATAAGCATGAAGAAATGAGCTGACTTCATATACACTCTGATATTAGGGGT TCGGAATCATCCTGCAAATCAGGCCAAAATAAAAACATGAATTTGTTATAACACGCAAAGCGTATATAAGCATATCTTGT TACATCTCTTAGTTTTCCCCTCCTTCAGACAACACGAAGCCAATCAAGTTGGCTGAGCTTGTGATTTTTTCCCCTAGTGG TGCAAACATTTTTTTTGGTGGACAAATAATTTGGGGCATGCAGTGCTGTAGTTAACTGAGGCCTCCCATTCCTTGCATTC AATAAATAAGTACAATTTTGCAATTATTAATAAAACTACGATACTTATAAAAGGGGGCATGGAGGGGGAGAAGGAGGCAA AGATGGTGTTGGTGATGCTCCTCCATATCGACGTTGTGATGCCCCATACCCATCTTTCGAGGCCCTCTTGCATCTTTGCC CACACTTCGTGCTGGAACGACTTGTGCAAAGGCATTTTGATGGGCACGGAAGAGATGTTGTGGAAGCGAAGGAGAAGCTT CAACATTCTCAGCTTCTTTTCAGCGGAGAACGAGTCTTCCACGAATTTTGAGTCATTCTTGTTCCACCATTTCATCGTTC TGTTGAAAAAAATACACAACCAAGAGGGAGAAGGGGGCATGGAGAGAAATTTGTGATGCTCCTTCGTATCCCTGATGTGG TGTCCCCCCCCCCTACACGTTTGGGGCCCTTTTGCATCTTTTGCCCACGCTACGATATGCTGCAATAACGTGTCGACAGG CGCGGAAGAGATGCAGTGGAAGCGTTTGTGCTTGAGAGAAGCATCATTGTTTGCTCCTCTTCGACTGAGAATAATTTTTC TACGAATCTTGAGTCATTTTGTTCCACCATTTCGTGTGTGTTTGGATTTCAGTTACTTTCAACATGAAAGTGCTTTCAAC TCAATGAAGGAAATTGTTACTTCTACTTTTGGTGTCTTGGAATGTGCGTAAAGTTGGTTAGATGCACTTGAACTGAAATC CAAACATAGCCGAAATCGTTCTGTTGGAAAAATACACAGCAACTGAGAAGTCAAGCTTTTGGTCTTCGTGGTGCTACCAA AAGCCTGATGATGGCAAAAAGCTGGCTAAGTTTTTGGTAGCCGTATTGCTTCTCTACCGCTGAGATTTGATCTGATTCTT CACGTTTGAGAGGGCGGTAGGGAAGGCAGTGTGAGAGAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0076900.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTCTCTAGATTCTTCCAGAAATCTCCACCACCACCACAACAACGTCCACAGCCACAGCCACCGCAGAACGTGGTGGA AGGTAGTTTATCGCCGGCGAAATTGGATCCGCAAGTTGTGTTTCACTATGGAGTTCCATCTACTGCTTCCATTCTTGCGT TTGATCGGGTTCAGCGTCTGTTAGCGGTTGGAACTAGTGATGGCAGGATAAAGGTGTTTGGTGATAACAATATTGAAGGA ATATTGACCCCTCCTAAGCAAGCATCTCTCAAGAATTTAGAGTTCTTGCAAAATCAAGGTTTTCTTGTTTGCGTCACGAG TGGTAATGAAATACAGGTATGGGATTTGAAAAACAGGCAAATTGCTTCTGCCTTGCAGTGGGAATCCATCATAACTGCTT TCTCTGTTATTTACGGCACCAGTTACATGTATACTGGAAGTGAGTATGGGATGGTGTATGTGTTGAAGTTTGATTCTGAA GACAGAAAAATTAATATATTACCTTATTATGTTCCCACGAATGCTATATCAGAAGCAGTTGGAATGTCACTTGATAATGT TTCAGTTGTCAGAGTTCTCCATCAACCTTGTTCTGATGGAAAAAGACTACTGATCGCATATGATACTGGCGTGATGGTAC TCTGGGATGCTTCTGAAGATCGAGTTGTTCTCATCAGAGGCAACAAGGACATTGAATTGAAAAGAATAAAAATTACTAGT CTTCCAAATGATCCAAAGAATGAAGATTCTGATGATAGATTAGACGATGAAGAAGAGAAGGAGATAAGCTCTGTTTCTTG GGCATCAAATGATGGATCAATTGTTGCTGTTGGTTATGTAGATGGTGATATAATGTTTTGGGATTTGTCAACTGCCAACT CCCCGCCAAATCAACAAGCTGAAAAAGTGCCCAATAATGTTGTCAAGCTTCAATTATCATCAGCAGATAGAAGACTCCCT ATTATTGTCCTACATTGGTGTGCCAATAAATCTTTGAATAATAGGGGTGAGCTTTTTGTCTATGGTGGAGGCGAAATGGG ATCCGAAGAAGTATTGACAGTTTTGAGCATTGATTGGTCTTGTGGGATAGAAAGTCTTAAGTGCACTGACCGCATTGATA TTTCACTTCATGGTTCTTTTGCCGATATGGTTTTGTTATCTAGTGATTGCCATACAGAGGGAGCCTATGATATGCTGTTT GTATTGACAAATCCTGGACAGCTGGATCTTTATGACTGTGATTCTTTGATGTCTCGGCAAGAAAAGAAGACTTCTTCTCC CACAATGAAGTATCCCATCATCATACCTACTCTTGAACCGCAGATGACAACAGCAAGGCTTGATATGGCATGCCAAGATG TGAACTCATTCAAGAAGCTGTCTGAGTTTCTCATAGCAGCAAAGCAGAATTCAGTACAAAATCAGACAAATATGGGTACA AAGTGGCCTTTGACTGGTGGTGTTCCAAGTAATCTTTTCAAAGAAGACCATCCTATCATTCAAATATACATAGCAGGTTA CCAAGATGGATCTGTTAGGATATGGGATGCCACATATCCTACTTTGTCACTTGTTTACAACATCATATCTGAGGTGAATG ATGTCAAAATTGGCGGTGCTAGTGCACCGGTTTCAGCATTGGATTTTTGCTCTGATACTCTACGTCTAGCAGTTGGCAAT GAAAGTGGTGTTGTCCGTCTGTATGGGTTAATATGGAATTCAGATGACATGACTTTGAACTTCGTGACAGATAATGGAAC AGAAGTTCATAATACGAATCATGAGGATGGACCTCATTGCAAAACAGTGTTTTCCCTTCAAAATTCTTCTGTGTGCGGCC TACAGTTTGGAAACCTTGGAGGGAAGCTTGCTGTTGGATATGAAAATGGGCAGGTTGCTATGCTTGATATCAGTACATCA TCAGTTTTGTTTATTACAAATACCGGATCTAACCCATCTTCAACAGTTGTTTCTCTGAATGCAAAATTTTCAGACAGTTG TAGCTTGAACATTCCACAGGAATCTGAATCTGATATTTCTGACAATTCTGGAAAGGGGCTAGTCTTTGTAATGACAAGGG ATGCACACTTTTCTGCGGTAGATACTGCAACAGGGAATATGGTTTGCAGTAGGACAATGGGCCCAAAAGTAAAGTCAAAT GTAATTTCAATGCACATCACAGATTCTGCTTCTGAACTATCTGCTGAAAAACTTCCATCCAACTCACCTCAGGAAAGTGA TTCTGAAATTCAAGCTGACGTTCAATCTGAAAATGCAGAAGTTGAAGTTGAAACTGCTACTACCGCAGAGAATTCATATT TAGGGCAGATAGTATCAAACTCACTCATCTTACTTTGTTATGAGAATGAATTGAGCTTACACTCCCTAATTTCAGTGATT GAGGGTAGCAGTAAGTACATACAGAAGGTGACCCTTGTACAACGCTGCTGCTGGACTACAACCTTTAAGAAGGATGACAA AGAACGTGTTCTAGTTCTTTATCAAACTGGGGACATTGAATTAAGGTCCTTACCAACTCTGGAAGTGTTGGGAGAAAGCT CTTTAATGTCAATCCTAAGATGGAACTTCAAGACCAACATGGAGAAGACAATTTGTTCTTCATCAAATGGGCAAATAATT CTGGTCAATGGAAATGAAGCTGCTTCCATATTACTGTTCTTTGGTGAAAATGAGTTCTGGATTCCAGAGTCTTTTCCTTG TCTTCATGATGAAGTCGTTGCAGCTGCAGTAGATGTTACTGCTATCCCATCTCCGAACCAACATGAAAGACAGGGACCAC CTTCTATCTTCCTAAATGCTGCCAAGATCTTTAAAGTAGGGAAAGCGAATCAGAATGCAAATCAAGCTGGTCACGATAAT TATTTGGAAACTTTGGAACAACTATTCTCCAATCCTCCTTTCTTAAAGCCTTCCTTAGGCACAGAAGATAAGCAAGATGC TTTTGATTTTGACATAGATGAAATTCATATTGATGAAAAAGTCGTCGTTTCATCTCCTAAAAAAAGCAATATTGATAAGA GAGATAAAGGGAAAGAAACAGAAAGGCAGAAATTATTCGAGGATGCAAGCACTGACTCGAAACCGAGAGTTAGAACGGCT GAAGAAATTAAGGCTAAATACAAAAGGACGGGGGATGCCTCGGCAGCAGCTGCACTTGCAAAAGATAAGCTATTAGAGCG GCAGGAAAAACTCCAGCTGCTCAACGAACGTACTGAAGAGTTGCAAAATGGGGCACAGGACTTTGCATCCATGGCAACTG AACTCGCTAAAAGAATGGAAAATCGTAAATGGTGGCAGTTATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0076900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MFSRFFQKSPPPPQQRPQPQPPQNVVEGSLSPAKLDPQVVFHYGVPSTASILAFDRVQRLLAVGTSDGRIKVFGDNNIEG ILTPPKQASLKNLEFLQNQGFLVCVTSGNEIQVWDLKNRQIASALQWESIITAFSVIYGTSYMYTGSEYGMVYVLKFDSE DRKINILPYYVPTNAISEAVGMSLDNVSVVRVLHQPCSDGKRLLIAYDTGVMVLWDASEDRVVLIRGNKDIELKRIKITS LPNDPKNEDSDDRLDDEEEKEISSVSWASNDGSIVAVGYVDGDIMFWDLSTANSPPNQQAEKVPNNVVKLQLSSADRRLP IIVLHWCANKSLNNRGELFVYGGGEMGSEEVLTVLSIDWSCGIESLKCTDRIDISLHGSFADMVLLSSDCHTEGAYDMLF VLTNPGQLDLYDCDSLMSRQEKKTSSPTMKYPIIIPTLEPQMTTARLDMACQDVNSFKKLSEFLIAAKQNSVQNQTNMGT KWPLTGGVPSNLFKEDHPIIQIYIAGYQDGSVRIWDATYPTLSLVYNIISEVNDVKIGGASAPVSALDFCSDTLRLAVGN ESGVVRLYGLIWNSDDMTLNFVTDNGTEVHNTNHEDGPHCKTVFSLQNSSVCGLQFGNLGGKLAVGYENGQVAMLDISTS SVLFITNTGSNPSSTVVSLNAKFSDSCSLNIPQESESDISDNSGKGLVFVMTRDAHFSAVDTATGNMVCSRTMGPKVKSN VISMHITDSASELSAEKLPSNSPQESDSEIQADVQSENAEVEVETATTAENSYLGQIVSNSLILLCYENELSLHSLISVI EGSSKYIQKVTLVQRCCWTTTFKKDDKERVLVLYQTGDIELRSLPTLEVLGESSLMSILRWNFKTNMEKTICSSSNGQII LVNGNEAASILLFFGENEFWIPESFPCLHDEVVAAAVDVTAIPSPNQHERQGPPSIFLNAAKIFKVGKANQNANQAGHDN YLETLEQLFSNPPFLKPSLGTEDKQDAFDFDIDEIHIDEKVVVSSPKKSNIDKRDKGKETERQKLFEDASTDSKPRVRTA EEIKAKYKRTGDASAAAALAKDKLLERQEKLQLLNERTEELQNGAQDFASMATELAKRMENRKWWQL

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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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	29	29	-	–
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	34	74	41	22.0	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10241 View details on PTHR10241 Search for proteins/transripts with this domain View external data on PTHR10241	35	1106	1072	0.0	–
PANTHER	PTHR10241:SF34 View details on PTHR10241:SF34 Search for proteins/transripts with this domain View external data on PTHR10241:SF34	35	1106	1072	0.0	–
Gene3D	G3DSA:2.130.10.10 View details on G3DSA:2.130.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.10	36	169	134	5.5E-11	IPR015943 Show description in modal box View details on IPR015943 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50978 View details on SSF50978 Search for proteins/transripts with this domain View external data on SSF50978	49	644	596	2.01E-28	IPR036322 Show description in modal box View details on IPR036322 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	75	115	41	73.0	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	247	288	42	0.63	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50294 View details on PS50294 Search for proteins/transripts with this domain View external data on PS50294	255	297	43	9.072	IPR017986 Show description in modal box View details on IPR017986 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50082 View details on PS50082 Search for proteins/transripts with this domain View external data on PS50082	255	297	43	9.138	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	470	516	47	380.0	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.130.10.10 View details on G3DSA:2.130.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.10	485	736	252	1.4E-13	IPR015943 Show description in modal box View details on IPR015943 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	530	569	40	3.0	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50998 View details on SSF50998 Search for proteins/transripts with this domain View external data on SSF50998	586	865	280	2.62E-6	IPR011047 Show description in modal box View details on IPR011047 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	597	636	40	8.5	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	733	759	27	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1005	1033	29	-	–
Gene3D	G3DSA:1.20.5.110 View details on G3DSA:1.20.5.110 Search for proteins/transripts with this domain View external data on G3DSA:1.20.5.110	1039	1099	61	6.0E-11	–
ProSiteProfiles	PS50892 View details on PS50892 Search for proteins/transripts with this domain View external data on PS50892	1042	1106	65	10.815	IPR042855 Show description in modal box View details on IPR042855 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF58038 View details on SSF58038 Search for proteins/transripts with this domain View external data on SSF58038	1046	1099	54	7.85E-8	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1057	1081	25	-	–
Pfam	PF00957 View details on PF00957 Search for proteins/transripts with this domain View external data on PF00957	1062	1103	42	2.3E-7	IPR001388 Show description in modal box View details on IPR001388 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd15873 View details on cd15873 Search for proteins/transripts with this domain View external data on cd15873	1066	1100	35	8.34058E-13	–

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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0016021 View details of GO:0016021 AmiGO InterPro QuickGO	Cellular component	Integral component of membrane	The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane.	Subterm of View details of GO:0031224
GO:0016192 View details of GO:0016192 AmiGO InterPro QuickGO	Biological process	Vesicle-mediated transport	A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane.	Subterm of View details of GO:0006810

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0076900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0076900.2