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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0076900 |
Transcript ID | LotjaGi1g1v0076900.2 |
Related isoforms 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
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
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
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 | 1 | 29 | 29 | - | – | |
SMART | 34 | 74 | 41 | 22.0 | ||
PANTHER | 35 | 1106 | 1072 | 0.0 | – | |
PANTHER | 35 | 1106 | 1072 | 0.0 | – | |
Gene3D | 36 | 169 | 134 | 5.5E-11 | ||
SUPERFAMILY | 49 | 644 | 596 | 2.01E-28 | ||
SMART | 75 | 115 | 41 | 73.0 | ||
SMART | 247 | 288 | 42 | 0.63 | ||
ProSiteProfiles | 255 | 297 | 43 | 9.072 | ||
ProSiteProfiles | 255 | 297 | 43 | 9.138 | ||
SMART | 470 | 516 | 47 | 380.0 | ||
Gene3D | 485 | 736 | 252 | 1.4E-13 | ||
SMART | 530 | 569 | 40 | 3.0 | ||
SUPERFAMILY | 586 | 865 | 280 | 2.62E-6 | ||
SMART | 597 | 636 | 40 | 8.5 | ||
MobiDBLite | 733 | 759 | 27 | - | – | |
MobiDBLite | 1005 | 1033 | 29 | - | – | |
Gene3D | 1039 | 1099 | 61 | 6.0E-11 | – | |
ProSiteProfiles | 1042 | 1106 | 65 | 10.815 | ||
SUPERFAMILY | 1046 | 1099 | 54 | 7.85E-8 | – | |
Coils | 1057 | 1081 | 25 | - | – | |
Pfam | 1062 | 1103 | 42 | 2.3E-7 | ||
CDD | 1066 | 1100 | 35 | 8.34058E-13 | – |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
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). | ||
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. | ||
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. |
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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