Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0000200
Transcript ID	LotjaGi1g1v0000200.1
Related isoforms 4	LotjaGi1g1v0000200.2 LotjaGi1g1v0000200.3 LotjaGi1g1v0000200.4 LotjaGi1g1v0000200.5
Lotus japonicus genome version	Gifu v1.2
Description	Brefeldin A-inhibited guanine nucleotide-exchange protein; TAIR: AT4G38200.1 SEC7-like guanine nucleotide exchange family protein; Swiss-Prot: sp\|F4JSZ5\|BIG1_ARATH Brefeldin A-inhibited guanine nucleotide-exchange protein 1; TrEMBL-Plants: tr\|A0A0B2R8L7\|A0A0B2R8L7_GLYSO Brefeldin A-inhibited guanine nucleotide-exchange protein 2; Found in the gene: LotjaGi1g1v0000200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:261409..277953) extracted from Lotus japonicus Gifu genome v1.2.

CGTTTTATAATTTCTCCTTTTCTCTTTCTATCTCAATAAAATTTCTTTTAGAAATGAAAATACTTTTATTTTCATTCTGA GTTTTTATAAGCTTGATTAACCCAACCCGACACTTCGTAATTACGCAATCGTAGTTTCAGGAGCTAGGGGCCCTGTTTGA GCCAGCAAATGACGGACGGAGTTATGCTTATATTGTGCTTCATGGCTCAAATCTGCAGCTGGAGAGGAGAATGAACATAA CATAACATGTGAAGAAGGCATTTGGATTTCAATTCCTTTACTCGTTCGTTCGTTCACAATCAAGCAAATTTGTATGATCC AATCAATCTCTGAAAGAAAATGTCAGCATCGCAATCCCTCGGAGGTCCTTCACGCTGCGGCCGAGTCCTCAGTCCATCAC TCGACAAGGTAATAAAGAACGCCGCGTGGCGTAAGCATTCTCACCTTGTCTCCTCTTGCAAATCCACCCTCGACAAGCTT GAATCCCTTTCTGAGTCCGAATCCCAAGAAGAATCCCCTCTTTCAGGTCTCTCCTCCTCAGATGCCGAAAATGTCCTTCA ACCTGTCTTTCTCGCCCTTGACTCTGCGTATGCTAAGGTTGTTGAGCCTGCTCTTGAATGCACCTTTAAATTGTTTTCTC TCGGCCTTATCCGCGGCGAGATCGATCGCCCCGGCGGCGTTGTCTTCAATATGATTGATGCCATCTGTAGGTCGGGTGGC CTTGGCGAGGAAGCAACTGAGCTGGGCGTGCTCAGAGTTTTGCTTTCAGCTGTAAGATCTCCCTGCGTGTTAATCCGGGC AGATTGTCTGATTCAAATTGTGAGGACTTGTTATAATGTGTACCTCGGTGGCGTCAACGGTACTAATCAGATCTGTGCTA AGTCTGTTCTTGCCCAGATCATGACTATTGTTTTCACCAGAGTCGAACAAGGCTCCATGGATGTTTCCCTTAAAAGGGTT TCTGTTACTGAACTTCTCGAATTCACGGACAAGAATTTGAACGAGGGCAATTCCATTCATTTTTGCCAAAATTTTATCAA CGAGGTCATGGAGACCAGTGAGGGTCTTCCTCTCAAGCCATCTTCCTTATCACCTCCTCCGCCCTTGTCCAAAGAAACGG ATGACACAGCTACCGGCAATGATGCTGCTGGAAGTAAAGTAAGGGAAGATGGTTTTCTTCTCTTTAAAAATTTGTGCAAA TTGTCTATGAAATTCTCATCCCAACAGCACTCTGATGATCGCATCCTCTTGAGAGGGAAAATTTTGTCATTGGAGCTCCT TAAGGTAGTCATGGATAATGGCGGCTCAATATGGCGCACCAATGAGAGGCAAGTGGTATCATAGTTACCGTTTACGTACA AGTACAAGTACAATCACTAATTGTTCAATGCAATATTAATCTCTATGCAGAATTCAGACATTGTGAACTTTTATTCTATT CGGTGATCTTTCCTAATTTGGACTTTCTCTTTCGTAGATATTTGATGGAGAAACTAGTGAATTACAACCACTTGTGTTTT CATTTTGAGTTTGAATTTTGAATTTTGAATTCTTCCGGCATGTTTAGTTGTAAATTCTTCAATGCAAATTCATTTAAAAC TCAAAAGGTTGTTGTTTGTGTCCAAAGTCTCCTCATTAAATATTCTCCAATACAGTTTTGCATGAACGGAAAAACACGCA GAGTGGACTGCCCCACTTCATGCTAGAGAAAATCTTTGTTTAGTTGCTACCAGCTTTGTCAATGCCAATAATCAACTAAA AAAAAAGTGTTTTTAGTCTCTTGTAGGTCCTAAGTTTGGCTACATCTGTAATAGCTTGGTACAAAATCTATAGCTGATTT ATATTTTATACACTCCAATTTAGGGGGGGGGGGGGGTGTAGAAATGGTATATCACTAAAACTACTTATTTCTGACTCAGA TAAATAAATAACAGTTTATGCATACTCAAATTCACTTACGCATCCGCAAAAAATAGTTCTTTCCCCAAGATCTTTCTTTT TTAATGTTACTGATCTGTCATGACGTCAAAATTTTGTTTTACATAGTGCAGGTTTCTCAATGCCATCAAGCAGTATCTCT GTCTGTCATTATTAAAGAACAGTGCCCTCTCAGCAATGGCCATTTTCCAGCTTCAGTGTTCTATTTTCATGAACTTGTTA TCAAAATTCAGATCAGGCTTGAAAAAAGAAATTGGCATGTTTTTTCCAATGCTTATCCTCCGAGTTCTTGAGAATGTTCT TCAGCCCAGTTTCCTGCAGAAAATGACTGTCCTCAACTTATTGGACAAAATATCCCACGATCCTCAGATTATTATTGACA TTTTTGTCAACTATGATTGTGATGTGGATTCTTCAAACATATTTGAAAGGTATAATACTTTTGTGCTATTTTGCTGTTAT TCCTTGACACTGATCAGTTTTCCAGAACAAACATGGGATAATACTTAACAAAGCTGCGATGATAACTAAACTTGATTGCC AAAATAATAAAATTGATTAGTAGCCTTGTTAATGCAGATTCCTTTAGTTTTTCCATTTATTGATAGAAAAAGAATGCCTT CTAGGGTGGTGGATAGTTGCTGATTAAGTTCGAGTATCCCAGGGCTTCGTATTAAATTAATCGTAGTTTTTGGGTACAGG TCTGCTGGGTTTTTTTGAGTGTGGTTGGTGTAAGATTTGAGTTTGTTTAAACACTTTATTTTTTGGATAGGAAGATTAGG AATTTGTTCTGCTGAATTTGTTTTTAGTTATTTACTTGGAGAACGTCTTAGTTGGAAGCTAGAGCATGGGTTTTAGGTCA AACCAGTTTCCTTGCATATTTGTTTAGAAGTTTTCTCATATGATATTCTTGGAGTAATCTCTTTCCAGAAGCTAAAGTGT ATTCGCGACCCAAAGTATGATTTTTTGTTCACTTCTATTTTTTGATTTCTGCTTCTTGTTTTAATATTTAAACTCTTATA ATTCTATCAGACATTTGCAGGATTGTCAATGGCCTTCTGAAAACTGCTCTGGGACCACCTACGGGGTCGACCACAGCGTT GTCGCCTGCACAGGATATTACTTTCCGACTTGAATCTGTGAAGTGCTTGGCCAGCATTATTAAGTCAATGGGGGAATGGA TGGACCATCAGATGAGTCTGGGGGATTCATATCTAGCAAAGAGCCCTGAAAGCTGTAGCATAACAGAAAGTAATCTAACA CTGAATGGAGAAGAAGGAAATGCTTCTGATCATGAGCTACATCCTGATGTAAATTCTGAATTCTCAGATGCTGCCATGCT AGAGCAGCGACGAGCATTTAAAATTGAACTTCAGGTTGGTATTACTGTCTCTGTTGATGACTAAATGTTATATGGTCATC ACGATAAAAAATCATCTTATACTAGCATAGCCCTGGAAAATGACAGCTTCATTTACTTAAAGACAAGCCTCTATTTTGTC TGTTAGATCTTAGAAGTGTGTTTGTAGTCTCAATAGTATGCTGTAGTTAGGCCTAGCCCATTATAGTTGGGTGTTTTGTT ACAATTAGTTATTCTGTTAAAGGATGATTGGGTTTGTTATAAATAACTCACCTGCTTCCGCTTAGAGTTAGTTATGAGAC TCCTACTATGAATGTAATCAAGCTTGTGCAGACTTGAATCCGATAAAATACTTCTTGTGTATTTCATTGATAATACTTGA CTATAGACTACAATATATATAGACTAACAAAGAGATAAAAAGAAACTAAATCTATCTAAACCTATCTCTATTTAAATAGA TTCCATCTCTATTTAAATAGATACTAATCTAAAATAGAGAAACAAAACTTAACTATATCTCTTTGAGATAAGACTAATAA TAAACTAAATCTTAAAAGATATTCAACATGCAGAACAGTTGAGGATAAATAACACTACAATTTAGAATATTTCTCTCTCT CTCTCTTGTTTCCTCACTACGTAGATTTCTAAAATTGTGATAGAACCCCCACATATGGGCCTGAGGGGGGTGGGGGGGGG GGGGGAGTACTAATATGCTGTTTCAATTGTTGATTCACCTTTGAGATGCCCAGGATTTGGCAAGTTTACACTAGGAGGAA GAGAGTGAGGTCAGACGGAGGGAATGATAGTTAGTTAGTGAGCTGGCATGATTCCCATGATTAGTGGGATTCGGATATAT TAGGAGAGAGGAGAGAAGGTTGGGGTGTTCAGTCTAGTAGTAAGAATTCTGTTAGTAGAGAATATCTCTCTGTGGTAGGA GTCTTAGACTCTGGGGAAATTTCCTTATTGTAGAGCTCTTGAGCTCATTGCTTTCTCTATTTTACATAATCTATATATCT GAGTTACCTGTTTCTATCAAATTGTCTGTAAAATTATATTTTCTGTCTCCCTTCTGGCTCTTGTGAATTCAATTTTCATA TTATGTGCTGATGCTTTTTCTGGGTTAAATGCAGAAAGGTATATCACTTTTTAATAGAAAACCTTCCAAGGGTATAGAAT TTTTGATCAGCAGCAAAAAAATTGGTGGCTCTCCAGAAGAAGTGGCTCTGTTCCTGAAGAATACTGGTGGCCTAGATCAA ACCAAGATTGGTGACTATTTGGGGGAGAGGGATGAGTTTTCTCTGAAAGTTATGCATGCATATGTAGATTCTTTTAATTT CAACGGAATAGATTTTGGAGAAGCTATACGATTTTTCCTTCAGGGCTTCAGGTTACCTGGTGAGGCACAGAAAATTGATC GCATCATGGAGAAGTTTGCTGAGCGCTATTGTAAATGCAGCCCTAGTTCTTTTAGCAGTGCAGATACCGCCTACGTTCTT GCTTACTCTGTGATAATGCTTAATACAGATGCACATAATAATATGGTGACAGATAAGGTTTGCCTTTGCGGAATCTTCTA TGTTATGTCTTAGGCAAGGTGGTTTTAGGATCTGCTTTTCGCCATTTCTTGGTGTCCATTCTGGGTTTGGTTTTATTTCT TTTAGACTTAATTGACTTTTGAGTAGTTGATACATCCTATTCCAAATTATGTTCCTGATGAAAATTAAACATAAATTTTA TCACAGAAAGTTATACAAAGCAACGTGACTTGTACATTTTTGTTCTGAATACAACTTTGAAAATATCATTTGTTTCCTCT TTCCATTTCTTTTATCTTCTTATTTAGGAGGGTGGTAATTATGGTAAATTATTGCATTTGTGTCGAGGTTGAGGAAACTC AGTGAAAATGATGAGCTATGTTGTGTAATTTCATTTTGTAAATTAGTTTGAGAAAATTAGTTTGTTTTTAATTCTTTAAC ACATTTGACATTGTAAATTCAGGATATCTTGTTTGTGATTCTTCAATGTCAAATGTGTTTGACCTGGATTTTGTTGTGTA TATTCTGGTTGATTTCTTTCCAGATGACAAAGGCTGATTTTATCCGAAACAACCGAGGCATAGATAACGGGAAGGATTTA TCGGAGGAATATCTTGGGGCCCTTTATGATCAAATAGTTCAAAATGAAATTAAGATGAATGCCGATTCTTCCGCACCTCA GGGTAAACAAGCAAATAGCTTTAATAGATTGCTGGGATTGGAGGGTATACTCAATCTTGTGAACTGGAAGCAGAGTGAGG AAAAAGCAGTGGGTGCAAATGGACTTCTCATTCGGCATATTCAGGAGCAATTTAAATCACAATCACGAAAATCAGAGTAA GCTAAGACATATCTTAATGTATGAATTGTTTTTGTGGATGTGTACTTGGTTTGCAGAGCTAGACCTGCCATACCCTTTCT CTCTTTCTTTTTTTTTTAAAAAGCATTAAATCTCTGATTTATACAGATTTAGAGTTTGCTATGCTACTTTGATATCTCTC AGTGGAAGCTTTTTTTATCTAACGTATGTCTTTTGGAGGATTTAAAAGGTATAGTTTAGGAAGTAAAGTCAAGAGAAAAG ATTGCCTTTGGAGATCTAAATGTTCTTATGAGGAGAGTGCTGAAAAGTCCCACATTAACTAGAGATATGACCAATATAGC CCTTATATATGGGCATACATTCCTCATCTCTCTTTCCTCAATTTTCCCTAGCAATTTTATGCCACCTAGATTGGGAGCTT GAGAGAATGAATTTCTACTTCTTTGATCTGTTGCATTCTGTCAAACAACCAATTATCCCAAAAGCTTAAGTTGTTGGGTA AGGACTACATGAATGGTTTTATATTAATATTTCTAACACGCCCCTTCAAGAAAGAGCCCTTTGGGCTTGAAGCGTGGACA ATGCACGAACCCACCTACCATGTGCTGAAATTCAACTTTTTTTATTAGAACAGTTGGGAGTGGCAAGGATTGAGCTCTAG ACCGCTTGGTCATAGAGGCTCTGATACCATGTCAAACAATCAATTATCCTAAAAGCTTAAGCTGTTGGGTAAGGGCCACA TGAATGGTTTTATATTAATATTTCTAACACATTCAATGGTATGACGAACATCACGCAAATCTGTCTCAATACTCAAATTC ACCATTTGCTGAATAAAAGAAGTTCCATACGAGGTTTTGGAGTGCATTCAAGTCTATCTTCTTTTTCCGATGACCCTCGA TTCTTGAAATCTGTCTTCTTAGCTTGACAATCCAAACCAATATTTCAGCCCTAATCTCAAATGATCCACATATCTTTCTA ACCTCATCATTGTCACACTCCCAAAAAAATTGACAAAACCTCCCACTGAAAGAAGTCACAATTTTTTTGAAAGCAAAAAC ATCTATACTGATGAGGAAAATGTTCAAGATAGACAACCCTCCTCAGAAGACCCAAAAACCGTCAAAGCCGGCGACAACCC AGCCCAAAAAGGGGAGCAACCAAACTAGACAAACACCAACCAAGGACTCGACGACACCAAGACAACCTCCTAAGACCCAA AACAACCCACAAGCCCACACGATACCCAAAGAAACCACCAACACCCAAGAAAACTACCTTAGCTCCCCCTAGTAGACCTG CGTGCATTGATCTGAGCCTCAATCTGGTCAAAGGCAACGTCATCTGTGCAGACATACTTTATGCCACAACGCTTTCCCAT CAAAACGACACTCCTCGCTCTTGTAAGAACGCCATAAGGCTCCGAGAAATCCTTCGGCAAAACCATCAGCTCCCATGCTC CAGCATCAGCATCAGCATCTTGTCCAGGCGGAAATGAACCCGCAAGCTCTATCTCATTGGCCTGGTCTTCTCCTTCCTAG GTCGCCCTCGGGGACAAGTAGCTTTCTCAGTAGGACGACGGCCCCTAACCATCCCTTGAGTTAGTTAAGAGCATTGATAA TATGTTAATGTTATTACAGAATTTGTGATTTATATATATTTGGCCTTTTCTTGAGTTTATAAAGAAAATAAGTATTTGTT AACTGTAATGTATTGTCTTGTATTTTATTATAATTTATAATTTCTTTTTATACTAAAATTATTATTGATATTTTTTTTTT GCCTATTTTGTAATGGGTTGAATTTGAGAGAAGTAATAAAAGTACAATGGCTTATGTCATAATCCTATTATTCAAAACAT ATTGAGCTGGACATGTTCTTTGTCAGAGAAAAGGTTCAATCCAAGTCACTTGTAGTTGTAGTATATTGCAGCTCATGAAC AGGTTGCTGAAATCCTAACCAGAGCTCTTTCCAAGCAAAGGTTTATAGATCTAGAGCAAAGCTAAAAGTACTTCAGCAGG GTGAATGTTAGAGTTAGTTGAAAAGTATTCCAGCTGGGTGAATGTTAGAATGTGTTTGAGTTATGTAAATTAATATGCTG AGTCAGCATTCTGTTAGTATAGTTCCTGTTCATCTGCTTTGTTATGCTGAGTCAGAATGTTATAACTGTTGAATAGCTTC TACATGAAGCTTGTACAGGCTTTAAATATATCTCTCTCTTGTCATAAATGATTAAGATGAATATACAGTTTATAACACAA ATATACAATAAGATTCCAACTGGAAAATATACTGTCATGAACTATCCCAAAAGCTTAAGCTGCTAGGTGAAGACACATGA ATGGTTTCATATGATATTTTTTTAACAATAACCATCTTCATTAAATATATATTTGCACAATTTGTGATCTTATACCTAGT TTATGAAATAAGTGACTTACATCTAGTCATGAATTTCCATAGTTAGTGTCATGAATCAACTATCCCAAAAGTTTAAGATG TTGGGGGAAGACACATGATGGTTTTATATTTCTAACATGCCTTTTCACACGTTAATGAAAAACCTCAAACTCAAACTTCA GACCACTTGGTCATAGGGACTAATACTTATCCCAAAGTTTAAGCTGTTGGGTGAAGAACATGGATGGTTTTGTATCGTAT TTCTAACAGTTCGGAATTGTATTTACCTATTTTTGCAGATCTGCTTATCATGTTGTCACAGATGTAGCTATACTGAGGTT TATGGTGGAAGTGTGTTGGGGGCCTATGCTTGCTGCTTTCAGTGTAACACTTGACCAGAGTGATGACAGGGTGGCTACTT CTCAATGCTTACAGGGATTTCGACATGCTGTGCATGTTACTGCAGTGATGGGCATGCAGACTCAAAGGGATGCTTTTGTT ACATCTGTTGCTAAATTTACTTATTTGCACTGTGCTGGAGATATGAAACAGAAAAATGTTGATGCTGTCAAGGTGAATGA ATCTTACTTTGGTTTTCATTGACACTTCTCAAAGTCATATCATTTACATCTGCATTCTCCTTCTGCTTGTATTATAAATA ATTTTTGCATAAGCACAGTAACTACTAGCAAACAAATCAAAAGCTTAATAAATGTTAAAGTGACATTTAAAAAAGACAAT GAAGCCCTCACTAAGTTTTTTCAATGTTATCTTGAGTTTTTGATTTGGTATGCCTACGGCTACAATCATTGTGCTCATGC AAGACTATTGTTATTGTGCATCATATATTAACGCTAGTTATTCTAGTCTAGCCACATTGTTCTTATATCAAGGAAGCGGT GATGAATGGGTGACTTTGATTTGACTAATCCTACATATGTAAATAGAAATGTGACTACTGACAAGTACTTTTTTTTCACG TTTATCATGTAAGTGATCGATCTTATTTAATGCTTATATTTTGGTAATATCTTCCACATCTTTATTTTCTACAGGGAATA ATATCAATTGCCATTGAAGATGGTGATCATCTGCAAGAAGCATGGGAACACATCTTAACATGCCTCTCCCGAATTGAGCA TTTGCAACTTTTAGGTGAGGGCGCCCCAAGTGACGCGACCTTCCTCACTTCATCTAATTTTGAATCAGAAGAAAAAGCAC CAAAAACATTAGGTTTGTCTTCTTTTAAGAAAGGAACTCTCCAGAATCTAGCCATGGTGGCTGTTGTTCGTGGTAGTTCG TATGATAGTACAAGTGTTGGGGTTAACGCTTCTGCATTGGTAACACCAGAACAGATAAATAATTTCATTTCTAACTTGAA TATACTGGATCAGATCGGGAACTTTGAATTGAACCATGTGTTTGCTCATAGTCAACGGTTGAATGGTGAAGCAATAGTAG CATTTGTGAGAGCACTTTGTAAAGTTTCCATCTCAGAGTTACAGTCTCCAACAGACCCTCGTGTATTCGGCCTCACTAAA ATAGTAGAAATTGCGTAAGTTTCTGTCTCCTTATATAAGATAGGTGTGCTCTTTTTTCTATATTAAACCCTCTCAAATAT ATTTACGTCATATGAGCGGAACTTGCTTAGTGAATATTAACCACGTGATTTTATTAAGGTCTCACATTGACTAGAGATAT GCCCAAATAGGTCATTATAAATGGTAGGGCAAACCTTACCTTGTGAGCTAGCTTTTGAGGTTGAGTTGTGTACTTATTGG AGGAAACTTGATTTCGTGGAAGAGGAAGAAGCAAACTGTTGCAAGATCTAGCACAAAAGCAAAGTATCTTGCTATAACTA ATGCTACTTGTGAATTTTTGTGGTTAAAACACCTGCTCCAAGAATTGAAGTTTTGTGATAGGTCCGAACTTGCTTGTGAT ACTCAGTTAGCCATTAGACTAAATATATAGAAGTTTATTTTCACTTCATCTGAGAAAAGATCCTCTCATGTATCATCAAG GCTTCTAATGTGAACTCTAGGGAGCAACTAGCAGACATGTGGACTAAGTGCTTACGGGGTCCTAGGATCACATATATCTG CAACAAGTTGGATGCATGGCATATACCCTCCAGCTTGAGTAGGAGTTTTGATTATAATATTATTTCTAACATATATTTGT TGTGTGGTTTCCTTATTTAGCATATTCTAATCCTCAGTTTAGGGATTGGTTTCCTCATCCTTGTATATAACTACTGTACA AATCATTTGAGAAATGCAAGAAATTTTTTCAAATGTCTCTTATTCTCAAACGAGTTAATAGCACTCAGCAAGCATCATAT TTTCATTCAACTGCAATTTCCAACATACATGAACCTAAAGATACATGGATCTGATTATTAAATTTCGCTTATGTTTCCAA TCTGATTTTAAAATGCTGCTTCTACTATCGACAATTGTTACATTTGCAGGCATTATAATATGAACCGTATCAGATTAGTA TGGTCACGAATGTGGAATGTTCTCTCAGATTTCTTTGTGTCAGTTGGATTGTCAGAAAACTTATCAGTTGCAATCTTTGC GATAGACTCACTACGACAACTTGCGGTGAAATTTTTGGAGCGTGAAGAGCTAGCTAATTATAACTTCCAGAATGAATTTC TTAGACCATTTGTTATTGTTATGCAGAAGAGCAACTCCACAGAAATCAAAGAATTAATAGTTCGTTGTATTTCACAGATG GTCCTTAGCCGTGTCAGTAATGTGAAATCTGGCTGGAAAAGTGTTTTTATGGTATGTTTAAGTTCGCTAGATCTTGTTGT TACCCCTTTTTGTCACGGTTTTAACTAACTTGGTTGAACACCCATGTCTGGACCTCTAAGTGTTGCTGAATTATTTCTGT TTATTGGCAAAAGCAAACAAATTTGAGATGACAAAGTTGTGATTGTTTATCATTCTTATTACTTGCATGTAATTTTTCTT TATTTGGGCATTGTTGAAGGTACAAAATACAAATGTGTACAAAGAAGCTTTAGGAAGAAATCCTTTTTATTACACTTCTG AGAACCTAAGATCAAGAATGTAGATTCTATATTCTGATGGTACCCTCATCATAGCTAGAAAAATAGGAGAGTGAGGATAT TACTCCTAAGCAATAGTAGCTAACAATCAGGATACAATTAGGAGATTGAAATTAATTTATACTATTTATAGCTAATAACA TTAACTGCTAACTCCTATCACCGAGATTCTCTCCAACAAAATGCTTGTAGGGGATGTATTTAGTAAGTGTATTTAGTAAG AAATACGTTCTTCTTTGAGAGTGTGAGAGGAGTAAAAATCTTCAGGATACAATCATAGAAAAGTTATTTAATGGTCACAT GGCCACTTAAGAACGCTTTTCTCATGTGATACATCCCCACACACACAAACACACACACACACACACACACACACACACAC ACATATATATATGGATGTATCATATATAATTTTTTAATTCATTAAGACGGCAATATATAATTTTATTTTATTTTTGTTGG TAATTTAGGATGTCCAAAATACATTCTCATGATCTTTCAGATAGGAACCTTAATTCTCAAGTTATTAATCCAAGTTGTAC CCTGTTTAAAAGGGAGTACAATATTGAGGGTTTTCAACAATCTAAACTGATACAGAATTTTAGTTTCCCAGCAAATTGTT GATATAATGAGATGTAGTATTTTTCCTATTACATCATGCTCAGATACGAGCTTCATAGATGTCATCCCTTCCTTCCAAAG AAGACCAAAACTAAAAGGATAGGCATGTCTTATTGCTAGCATTTGAGAATTGAGACCATAGAATAATCTTGACTTGCCAT GCTGTGTTTTTGGCTCTCAGGTCTTTACAGCTGCTGCTGCTGATGAACGGAAGAATATTGTATTATTAGCTTTTGAGACG ATGGAGAAAATAGTGCGTGAATTTTTCCCTTATATTACTGAAACAGAAACAACGACCTTCACCGATTGTGTTCAATGCCT TTTGACATTTACAAATAGCCGATTCAATAGTGATGTTAGCCTCAATGCAATCGCATTTCTTCGTTTCTGTGCGGTTAGAC TTGCTGATGGAGGACTTGTTTGCAATAAGAAGAGCAATGTTGATGGCTCATCAGTTGTAGTAAATGGTGTTTCAGATGTG CAAGCTCTTACTGACAATGACAATGATGATCATGTTTCCTTTTGGAATCCTTTACTATCAGGTAATATGCCTTCAGATGA TGTCCAAAGATATTTTGGATAGTGGCCAGGCTACTACCCATGATGGACAAAGAAGCATATTTTTGCCTAATAAATGTATG TATTCTGTTTGATTGATTGCTTGCATAAATCTCAAATTGCTCACAACCATGTTGACACTGCCCTGTATATACTGTATCCA TAAGCTCTGTATTTTGTTTTTCGCTAAAATCTTGAGTGATGTCTGTCGCAGTTTTTTAACACATTTCTTTTTCAACAAAA TTGCATATTGTACTCTTGATAGATGTAGCAAATCTGTGTATATTTCAAATCCCGACACGCGGCGGAGAAGCTACGCGCAA ACCACCCACATTACAAATTATTTGTAGAGAATTTTGAATGATTTTCATACACTGAATAATGGAGTGCAACCATATTTATA GAAGATTCTTGCTTTTGAGAGATGCTGTACATCTTTATTAGAACTAACAGCAACTATAGCTGACTTGTGACGACTAACAG TTTCTGTTAACTCTGACAGGCCTTACTATGGTTAGCTATTGTTAACACAAGGATCCCTCCTTAAAATCAGGGTTGTTGTG AGTGTAGCATCCTGAGTTTGTCTCTTTTGTGATGAAATCTGGGCTTTGATAGTAAAGACATCAACTATTTGATTTGACCA TAGCAACATGAGAGGCAATGATTGATTTATTCATGACTTTTTCATGGACTTGTACTCCCTCCGTCCCTAATTATAAGCTA ACATTGTAAAAATCACATTTATTAAGAAAGCCTTAATTGATGCATTGGTTTTTTAAAAAATGGTACAATCTTCCATATTT ACCCCTATTTAAGTGGGTAGTACTAGGAGGAAAGAATAAAAGTGAGTTTCAATTTCAAAATTTTGGAATTGGAAAACCAA TAAATGCAAGGACAAATATGGAAAAAAATATTAGCTTTTGCATAGTTAGCTTATATTTAGTGACACCACATAGGTCTCAA TGTTAGCTTATAATTAGAGACGGAGGGAGTAGTTACTAACAAAACCCTGACTGACTTGTAGCCACTTACAACGTTGTTAC CTCAATCAACCTTACTATTGTTAATTATTGATTACAAAAGGCTGCTGAACTAGAACTGCATTCCACTATTATACATCTAT CACGAGTTAGGATATGTAAGGCATTTTTTGTGTAAACCTTGTCTGTTGTTTCATTTCAGGGTTGTCAAAACTAACTTCTG ATCCGAGATCAGCTATCAGAAAGAGTTCTTTGGAGGTGCTTTTTAACATTCTGAAGGATCATGGTCATCTATTCTCATGC AATTTTTGGAATAACATTTTCTGTTCTGTTATATTCCCTATATATAACTCAGTATCTGGAAAGAATGATATGAATCTCCT AGTGGATCATAGTTCACCATCTTCAGTATCTGCACATTCTGAAGGAAGCACATGGGATTCTGAGACTTCTTCAGTAGCAG CAGAATGTTTAATAGATTTATTTGTCACCTTCTTTGGGATGGTGAGGTCTCAGCTACCAGGTGTGGTGTCAGTATTGACA GGGTTCATTAGGAGTCCTGTACAGGGTCCAGCTAGTACTGGAGTTTCTGAATTAGTGCGTCTCACTGGTGACCTTGGTAA CAAGCTTTCAGAAGAAGAATGGAAAAGTATTTTTCTATGTTTGAAAGATGCAGCTACATCAACTGTGCCAGGATACATGA AGGTCTTGAAAACCATGAATAATCTTGAGGTGCCCAAAATTTCAGAGTCTTCTACTTACCTGGAAAGATCTTCTGATCAT GACTTGACAAATGATGAGTTTGATGATGACAATCTGCAAATGGCCACATACGTCGTGTCAAGAACCAAGAACCATATTGC TATGCAGCTACTTATTTTACAGGTTTACTTCTTGCTCTGAGTGCTAAAATAGGATGATAAGAGTTAAATATAAGCACCAC ATTTCCTTTAATTGGCATCCACTGATTTGGTTCTTTTCTTTTACTCTTTTGTCATTATTTTTCCTCTACTCTCCTTTTTT TCAGCTATGGTATGAACTCAGCTGGCTACTTTCATCTAATATCCATAGGAACAAAGTTGAGCTTCCCTTGTCATTACCAC TGCAATGATTTTCTCTTGTTCTCTCTCACATGGTCCCTTCTTAGGGCCCGTTTGTTTAAGATTATAAAAAAAGTTATTTT TAACTTAGTAAAAAAGAGATTTTTTTTGTGTTTGCTTACAATTATAAAAAGGTGTATTTTTATTTGACTGTAACCTCTCT CATATTGCATATTACTTTATAGAAGCTACTCAAAATAGCTTCTGATTATACTATAAAAACTTATTATTTTGAGAAAATTA TTATTAAAAAGAGCTTACTCAAACGCAAAAAAAAATCATTAAAAGTGATTTTTTTTTTAATATTAAAAAAGAGATATTTT TATTAAAAAAGTTATTTTTTATTAAACATGTTTGAACAGATGGCCTCTATTTCTTTCCATTAATATGTGTTCTTATATTT CTTAGGTAGTCCAAAGCTGTTAATTTTAGGGATAAAATAACAATTACGTTTTACTTGTAATATTTTGTACAAATGCTCTT GAAATCAATACAATATACAATAATTTCATATTATTCAAGTTGGTACCATAGCTCTGTAGTCAATTCTACCTTTTCTTTTC ATCTCATTCATCATTTTGGTTCAGAGCTTCAGCCTCTGCAAGCGCTGGCTGATTGTCAGTAGTTGTTCAGTGTCTAAGAT GAGACCCCCCTCCCAGCTGTATCAGAGGTCGCTGATGGGTGGTTCACAAGCTCACACATGCAAGCTTTCAAGCCATTAGT GTTGGGTTTGTGAAGTGCACTCACTGTCTTACATTGTTTAGCATTTTAGCAGAATGTCGGATGTGCCAATCATCGGAGCA ATTTTTCATAACTGGCTTTAATGGTTCTGGTAGAAGTGAAGCAGCTAATTTTTTCTGACAATCTGTCATTTGGGATAGGA TTAGGCAATTGATGATTTTAATGGATTGCCCCCCCCCCCCAATAGATATGCTGAGGTCTAGTAGCTTTGTTTCATTGTTG TTTTTCATTGTTCTTTGATGTTTGCATCTTATTTTTCTTAATGAATTTCTTTATTAGAAAATAAGCCAAAAGTTCGATAA CTTGATCTCTCAAGGTAGATGGAAAAATTTGGACTCTTGATTCTTCTGGTGCTTTCTCGTGCAAGTCTTTCTTTCAGCTA CTTACCAATAATTGGTTTAGATCCAGAATTGAAGTTCTTCCTGTAAAATATTCAATGTTGTAAGTTTCAACTTTGAATGA GTTCATCTCGATGATATATTTTCGTGTTCTGATCACAGGTTGCAACTGATATGTACAAAAGGCACCAGCAATCCATATCA GCAGCCAACATCAAACTCCTTATTGAATTATATTCATCTATTGCTTTCCATGCTCGACAATTGAACAGAGAGTCAATCCT GCTGAAGAAGTTGCAGAAAGCGTGCTCCATCCTAGAACTATCTGCCCCGCCTGTGGTTCATTTTGAAAATGAGTCCTTCC AGAATCACCTCAACTTTCTACAAAATTTGCATGTCCAACATGTTGTGCATGATGAAATAGACCTAGAACAAGAGTTAGTA GCAGTATGTGAAAATGTGTTGGACATATACCTAAATTGTGCTGGTCCGGTATCCGCATTTCACAAGTCAGATACCCTGCC AGTGCCACGTCGAAAGCTCCCTTTGAGCTCAGCAAAGAAAGAGGAAATAGCTGCTAGGACATCTCTAGTCATCTCAGCAT TGCAAGGGTTGGCTGGTCTGGAAAAGGATTCATTCAGGAGGTATATTCCTCGGTTCTTTCACTTATTGGTAGATCTTGTG AGGAGCGAACACACCTCTGGAGAAGTTCAGCTTGTCCTCAGTAATATGTTTCGTTCATCTGTAGGCCCAATTATAATGGA ATGAGTTTTTAGTTTTGGCCTACTTTATTTTTGGGAAGTCGCTGGATATCAGTCAGCATTTTCTTCATATGCTGAAGCAC AAGCCATTGCATAGTCATATCCTAGATTACTTGTTAGTTCTGCCGTGAAGAGTTATTTTGGGATTTTTTTGATTGTTTTG GTAAATGACAAATCTATATATATATATGAAAATAATGTTTCCTTCTAGAAGCCTATGCCACATGGCACCCCCAAATTCTT CCAATTTCCCTCCAAGAAAAAAAAAGACATCCCACTTTTTTGTTACAACATATTTCATCTCTCAC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0000200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCATTTTCCAGCTTCAGTGTTCTATTTTCATGAACTTGTTATCAAAATTCAGATCAGGCTTGAAAAAAGAAATTGG CATGTTTTTTCCAATGCTTATCCTCCGAGTTCTTGAGAATGTTCTTCAGCCCAGTTTCCTGCAGAAAATGACTGTCCTCA ACTTATTGGACAAAATATCCCACGATCCTCAGATTATTATTGACATTTTTGTCAACTATGATTGTGATGTGGATTCTTCA AACATATTTGAAAGGATTGTCAATGGCCTTCTGAAAACTGCTCTGGGACCACCTACGGGGTCGACCACAGCGTTGTCGCC TGCACAGGATATTACTTTCCGACTTGAATCTGTGAAGTGCTTGGCCAGCATTATTAAGTCAATGGGGGAATGGATGGACC ATCAGATGAGTCTGGGGGATTCATATCTAGCAAAGAGCCCTGAAAGCTGTAGCATAACAGAAAGTAATCTAACACTGAAT GGAGAAGAAGGAAATGCTTCTGATCATGAGCTACATCCTGATGTAAATTCTGAATTCTCAGATGCTGCCATGCTAGAGCA GCGACGAGCATTTAAAATTGAACTTCAGAAAGGTATATCACTTTTTAATAGAAAACCTTCCAAGGGTATAGAATTTTTGA TCAGCAGCAAAAAAATTGGTGGCTCTCCAGAAGAAGTGGCTCTGTTCCTGAAGAATACTGGTGGCCTAGATCAAACCAAG ATTGGTGACTATTTGGGGGAGAGGGATGAGTTTTCTCTGAAAGTTATGCATGCATATGTAGATTCTTTTAATTTCAACGG AATAGATTTTGGAGAAGCTATACGATTTTTCCTTCAGGGCTTCAGGTTACCTGGTGAGGCACAGAAAATTGATCGCATCA TGGAGAAGTTTGCTGAGCGCTATTGTAAATGCAGCCCTAGTTCTTTTAGCAGTGCAGATACCGCCTACGTTCTTGCTTAC TCTGTGATAATGCTTAATACAGATGCACATAATAATATGGTGACAGATAAGATGACAAAGGCTGATTTTATCCGAAACAA CCGAGGCATAGATAACGGGAAGGATTTATCGGAGGAATATCTTGGGGCCCTTTATGATCAAATAGTTCAAAATGAAATTA AGATGAATGCCGATTCTTCCGCACCTCAGGGTAAACAAGCAAATAGCTTTAATAGATTGCTGGGATTGGAGGGTATACTC AATCTTGTGAACTGGAAGCAGAGTGAGGAAAAAGCAGTGGGTGCAAATGGACTTCTCATTCGGCATATTCAGGAGCAATT TAAATCACAATCACGAAAATCAGAATCTGCTTATCATGTTGTCACAGATGTAGCTATACTGAGGTTTATGGTGGAAGTGT GTTGGGGGCCTATGCTTGCTGCTTTCAGTGTAACACTTGACCAGAGTGATGACAGGGTGGCTACTTCTCAATGCTTACAG GGATTTCGACATGCTGTGCATGTTACTGCAGTGATGGGCATGCAGACTCAAAGGGATGCTTTTGTTACATCTGTTGCTAA ATTTACTTATTTGCACTGTGCTGGAGATATGAAACAGAAAAATGTTGATGCTGTCAAGGGAATAATATCAATTGCCATTG AAGATGGTGATCATCTGCAAGAAGCATGGGAACACATCTTAACATGCCTCTCCCGAATTGAGCATTTGCAACTTTTAGGT GAGGGCGCCCCAAGTGACGCGACCTTCCTCACTTCATCTAATTTTGAATCAGAAGAAAAAGCACCAAAAACATTAGGTTT GTCTTCTTTTAAGAAAGGAACTCTCCAGAATCTAGCCATGGTGGCTGTTGTTCGTGGTAGTTCGTATGATAGTACAAGTG TTGGGGTTAACGCTTCTGCATTGGTAACACCAGAACAGATAAATAATTTCATTTCTAACTTGAATATACTGGATCAGATC GGGAACTTTGAATTGAACCATGTGTTTGCTCATAGTCAACGGTTGAATGGTGAAGCAATAGTAGCATTTGTGAGAGCACT TTGTAAAGTTTCCATCTCAGAGTTACAGTCTCCAACAGACCCTCGTGTATTCGGCCTCACTAAAATAGTAGAAATTGCGC ATTATAATATGAACCGTATCAGATTAGTATGGTCACGAATGTGGAATGTTCTCTCAGATTTCTTTGTGTCAGTTGGATTG TCAGAAAACTTATCAGTTGCAATCTTTGCGATAGACTCACTACGACAACTTGCGGTGAAATTTTTGGAGCGTGAAGAGCT AGCTAATTATAACTTCCAGAATGAATTTCTTAGACCATTTGTTATTGTTATGCAGAAGAGCAACTCCACAGAAATCAAAG AATTAATAGTTCGTTGTATTTCACAGATGGTCCTTAGCCGTGTCAGTAATGTGAAATCTGGCTGGAAAAGTGTTTTTATG GTCTTTACAGCTGCTGCTGCTGATGAACGGAAGAATATTGTATTATTAGCTTTTGAGACGATGGAGAAAATAGTGCGTGA ATTTTTCCCTTATATTACTGAAACAGAAACAACGACCTTCACCGATTGTGTTCAATGCCTTTTGACATTTACAAATAGCC GATTCAATAGTGATGTTAGCCTCAATGCAATCGCATTTCTTCGTTTCTGTGCGGTTAGACTTGCTGATGGAGGACTTGTT TGCAATAAGAAGAGCAATGTTGATGGCTCATCAGTTGTAGTAAATGGTGTTTCAGATGTGCAAGCTCTTACTGACAATGA CAATGATGATCATGTTTCCTTTTGGAATCCTTTACTATCAGGGTTGTCAAAACTAACTTCTGATCCGAGATCAGCTATCA GAAAGAGTTCTTTGGAGGTGCTTTTTAACATTCTGAAGGATCATGGTCATCTATTCTCATGCAATTTTTGGAATAACATT TTCTGTTCTGTTATATTCCCTATATATAACTCAGTATCTGGAAAGAATGATATGAATCTCCTAGTGGATCATAGTTCACC ATCTTCAGTATCTGCACATTCTGAAGGAAGCACATGGGATTCTGAGACTTCTTCAGTAGCAGCAGAATGTTTAATAGATT TATTTGTCACCTTCTTTGGGATGGTGAGGTCTCAGCTACCAGGTGTGGTGTCAGTATTGACAGGGTTCATTAGGAGTCCT GTACAGGGTCCAGCTAGTACTGGAGTTTCTGAATTAGTGCGTCTCACTGGTGACCTTGGTAACAAGCTTTCAGAAGAAGA ATGGAAAAGTATTTTTCTATGTTTGAAAGATGCAGCTACATCAACTGTGCCAGGATACATGAAGGTCTTGAAAACCATGA ATAATCTTGAGGTGCCCAAAATTTCAGAGTCTTCTACTTACCTGGAAAGATCTTCTGATCATGACTTGACAAATGATGAG TTTGATGATGACAATCTGCAAATGGCCACATACGTCGTGTCAAGAACCAAGAACCATATTGCTATGCAGCTACTTATTTT ACAGGTTGCAACTGATATGTACAAAAGGCACCAGCAATCCATATCAGCAGCCAACATCAAACTCCTTATTGAATTATATT CATCTATTGCTTTCCATGCTCGACAATTGAACAGAGAGTCAATCCTGCTGAAGAAGTTGCAGAAAGCGTGCTCCATCCTA GAACTATCTGCCCCGCCTGTGGTTCATTTTGAAAATGAGTCCTTCCAGAATCACCTCAACTTTCTACAAAATTTGCATGT CCAACATGTTGTGCATGATGAAATAGACCTAGAACAAGAGTTAGTAGCAGTATGTGAAAATGTGTTGGACATATACCTAA ATTGTGCTGGTCCGGTATCCGCATTTCACAAGTCAGATACCCTGCCAGTGCCACGTCGAAAGCTCCCTTTGAGCTCAGCA AAGAAAGAGGAAATAGCTGCTAGGACATCTCTAGTCATCTCAGCATTGCAAGGGTTGGCTGGTCTGGAAAAGGATTCATT CAGGAGGTATATTCCTCGGTTCTTTCACTTATTGGTAGATCTTGTGAGGAGCGAACACACCTCTGGAGAAGTTCAGCTTG TCCTCAGTAATATGTTTCGTTCATCTGTAGGCCCAATTATAATGGAATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0000200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAIFQLQCSIFMNLLSKFRSGLKKEIGMFFPMLILRVLENVLQPSFLQKMTVLNLLDKISHDPQIIIDIFVNYDCDVDSS NIFERIVNGLLKTALGPPTGSTTALSPAQDITFRLESVKCLASIIKSMGEWMDHQMSLGDSYLAKSPESCSITESNLTLN GEEGNASDHELHPDVNSEFSDAAMLEQRRAFKIELQKGISLFNRKPSKGIEFLISSKKIGGSPEEVALFLKNTGGLDQTK IGDYLGERDEFSLKVMHAYVDSFNFNGIDFGEAIRFFLQGFRLPGEAQKIDRIMEKFAERYCKCSPSSFSSADTAYVLAY SVIMLNTDAHNNMVTDKMTKADFIRNNRGIDNGKDLSEEYLGALYDQIVQNEIKMNADSSAPQGKQANSFNRLLGLEGIL NLVNWKQSEEKAVGANGLLIRHIQEQFKSQSRKSESAYHVVTDVAILRFMVEVCWGPMLAAFSVTLDQSDDRVATSQCLQ GFRHAVHVTAVMGMQTQRDAFVTSVAKFTYLHCAGDMKQKNVDAVKGIISIAIEDGDHLQEAWEHILTCLSRIEHLQLLG EGAPSDATFLTSSNFESEEKAPKTLGLSSFKKGTLQNLAMVAVVRGSSYDSTSVGVNASALVTPEQINNFISNLNILDQI GNFELNHVFAHSQRLNGEAIVAFVRALCKVSISELQSPTDPRVFGLTKIVEIAHYNMNRIRLVWSRMWNVLSDFFVSVGL SENLSVAIFAIDSLRQLAVKFLEREELANYNFQNEFLRPFVIVMQKSNSTEIKELIVRCISQMVLSRVSNVKSGWKSVFM VFTAAAADERKNIVLLAFETMEKIVREFFPYITETETTTFTDCVQCLLTFTNSRFNSDVSLNAIAFLRFCAVRLADGGLV CNKKSNVDGSSVVVNGVSDVQALTDNDNDDHVSFWNPLLSGLSKLTSDPRSAIRKSSLEVLFNILKDHGHLFSCNFWNNI FCSVIFPIYNSVSGKNDMNLLVDHSSPSSVSAHSEGSTWDSETSSVAAECLIDLFVTFFGMVRSQLPGVVSVLTGFIRSP VQGPASTGVSELVRLTGDLGNKLSEEEWKSIFLCLKDAATSTVPGYMKVLKTMNNLEVPKISESSTYLERSSDHDLTNDE FDDDNLQMATYVVSRTKNHIAMQLLILQVATDMYKRHQQSISAANIKLLIELYSSIAFHARQLNRESILLKKLQKACSIL ELSAPPVVHFENESFQNHLNFLQNLHVQHVVHDEIDLEQELVAVCENVLDIYLNCAGPVSAFHKSDTLPVPRRKLPLSSA KKEEIAARTSLVISALQGLAGLEKDSFRRYIPRFFHLLVDLVRSEHTSGEVQLVLSNMFRSSVGPIIME

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
PANTHER	PTHR10663:SF108 View details on PTHR10663:SF108 Search for proteins/transripts with this domain View external data on PTHR10663:SF108	1	1340	1340	0.0	–
PANTHER	PTHR10663 View details on PTHR10663 Search for proteins/transripts with this domain View external data on PTHR10663	1	1340	1340	0.0	–
Pfam	PF12783 View details on PF12783 Search for proteins/transripts with this domain View external data on PF12783	2	82	81	9.4E-20	IPR032691 Show description in modal box View details on IPR032691 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50190 View details on PS50190 Search for proteins/transripts with this domain View external data on PS50190	184	371	188	44.157	IPR000904 Show description in modal box View details on IPR000904 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.220.20 View details on G3DSA:1.10.220.20 Search for proteins/transripts with this domain View external data on G3DSA:1.10.220.20	185	265	81	1.2E-27	–
SMART	SM00222 View details on SM00222 Search for proteins/transripts with this domain View external data on SM00222	188	373	186	6.2E-94	IPR000904 Show description in modal box View details on IPR000904 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48425 View details on SSF48425 Search for proteins/transripts with this domain View external data on SSF48425	188	379	192	1.83E-74	IPR035999 Show description in modal box View details on IPR035999 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01369 View details on PF01369 Search for proteins/transripts with this domain View external data on PF01369	192	373	182	5.8E-72	IPR000904 Show description in modal box View details on IPR000904 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00171 View details on cd00171 Search for proteins/transripts with this domain View external data on cd00171	192	373	182	2.61876E-83	IPR000904 Show description in modal box View details on IPR000904 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1000.11 View details on G3DSA:1.10.1000.11 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1000.11	266	386	121	6.5E-51	IPR023394 Show description in modal box View details on IPR023394 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	684	1340	657	1.58E-13	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09324 View details on PF09324 Search for proteins/transripts with this domain View external data on PF09324	740	822	83	6.7E-32	IPR015403 Show description in modal box View details on IPR015403 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0005086 View details of GO:0005086 AmiGO InterPro QuickGO	Molecular function	ARF guanyl-nucleotide exchange factor activity	Stimulates the exchange of guanyl nucleotides associated with the GTPase ARF. Under normal cellular physiological conditions, the concentration of GTP is higher than that of GDP, favoring the replacement of GDP by GTP in association with the GTPase.	Subterm of View details of GO:0005085
GO:0032012 View details of GO:0032012 AmiGO InterPro QuickGO	Biological process	Regulation of ARF protein signal transduction	Any process that modulates the frequency, rate or extent of ARF protein signal transduction.	Subterm of View details of GO:0046578 Regulates View details of GO:0032011

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0000200.1, 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…

LotjaGi1g1v0000200.1