Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0075100
Transcript ID	LotjaGi3g1v0075100.1
Lotus japonicus genome version	Gifu v1.2
Description	Glutamate--tRNA ligase; TAIR: AT5G64050.1 glutamate tRNA synthetase; Swiss-Prot: sp\|Q9FEA2\|SYEM_ARATH Glutamate--tRNA ligase, chloroplastic/mitochondrial; TrEMBL-Plants: tr\|V7ALD7\|V7ALD7_PHAVU Uncharacterized protein; Found in the gene: LotjaGi3g1v0075100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:8237245..8259265) extracted from Lotus japonicus Gifu genome v1.2.

CACCACACTTTTGAGTAAAAAACCACACTTTTGAGTAAAAAACTGCTTCGGAAACCTTATTTCCGAAATATTTCGGAAAC TGAGTTTCCGTAACTGGGGTGACATTTCTAATGATTGGGGTGTCAAATCTAATGATTCCTTAACACGCGCCACCTAGGAA ATTCAGAAACCAAAATGATGTCATTATCAACCTTTATCTAGTCGTTTCAGAACTCCCAAGCAACACTCAAACACAGTGAG AGAGACAGCGAAGATGGCGGCGATGTTGGGTGGCGCCACTCCATGGTCCAAGGTTGTTGCTGCTCCCATTTTTCACCAAA CCTACACTTCACGCCGCACCTTCTTCTTCCGAAGAGCCTTCTCAGTCACTGCACATTCTTCACCACAACAACCTGTTCGT GTTCGTTTCGCTCCTTCTCCCACTGGTAACCTTCACGTTGGTGGTGCTAGAACAGCCTTGTTCAATTACTTGTTTGCTAG GTACCTTCCTCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTTCTTCTTCTTCTGATTCTGGGTATGTGTTGTTTTT TTTTTGTTTTTGATTTGATGTTTTTGGGTTTTTTTTCTTGTTTATATATAAAAAACCAATTTTTGATTCTGGGCATGTGT GATTTTTTGTTTTTGATGTTTTTGGGTTATTTGGGTATGTTAATTTCAGGTCCAAAGGTGGGAAATTTGTCTTGAGAATT GAGGATACTGACTTGGAGAGGTCTACCCGGGAATCTGAGGAGGCCTTGCTTCGAGATCTTTCTTGGCTTGGCCTTGATTG GGATGAAGGTGAGGGTGATCATGCAATTTTCTTTTCTTTGTGTTTGTGTTTATCTTTTTATTTGGTAACATTTTGGTTGA TGATTAAGTGTGTGAGTTTTGATGTGATGAACATGCTAGGTCCCGGTGTTGGTGGGGATTATGGTCCATATAGGCAGTCT GAGAGGAATTCTTTGTACAAACAGCATGCTGAGAAACTCCTCCAATCGGGTCAAGTTTATCGCTGCTTCTGTTCTAATGA GGTATTTTGTTCACACCCTCTTGAACTTGTAATGTAACCTTCATTGTTGTAGAATGTTGTTGGGGCAGGTTAAGGGCCAT TTGTTTGTGTTTATTCCCTAGAAAGCATGTTTTAAATATCATAACAATTATGTAAGTTTTTCGTAAACAAAAAGTCAAAA ACCTTGAAAAGAAGCTGGTTAAATGCTTTTCGCAGAAGCTATAAACAATAGTCTTTGATAAGTTATGATAAGGTCACTTT TTAGCTTAAACAAACGGCCAAAAATGAGAAATGATGACTTTTCTAAGCAGATCTGCAAAAAAAAACAAAGGTAAGCAATT ATATTTCCACAATAAGCTAATTGAAGCATGCATTCAATTAAGATATGAAATGGGAACTTGCTTATATGCTTTAAGTTGCG TTGTATTTGGAAGTAGTAGTACTTTAATATTATGTGTTCTTTCTTCAAATATATGTGATCTGGTGGTCAAGATTCCTTAG CTTCAGTTTAGTTAGTTCTTCTGTTGGACAAAGAATTTATTTTGCACCTGAGACAATGGTTTGTGGTTCAGTTTACTGAA AATTGCTTTTCCCTGAGGTATCTTATTTTTGGAATGTGTACCTTTTATGAAGAAGTAGGGTTTATGGAGCTGTGCTGGTG GAGTTTTTTCATCATTTCCTCTGCTAGTTTTGAAGCATGTCTATCCTTGATCTAAATTTACCCAATGTTTCTTGTTTATT CTTATTCATCTTAACAGGAACTAGAGAAAATGAAGGAGGTTGCTAAGCTAAAGCAACTACCTCCAGTATACACAGGTAAA TGGGCCAGTGCGACAAATGGGGAAGTAGAAGAAGAGCTCAAAAAAGGAACTCCTTACACCTACCGGTTTCGTGTCCCCAA AGGAAGTTTAAAAATTAATGACATAATACGAGGCGAAGTGAGTTCTTTCCACCACTTTCCAGTTTTTTATTTCTTATTTA TTCCACCCTCATGGTTTGATTGATGATTTCCTGCTCTGTTGTACTAATAGCACTTCACATCTTTTATTGTGTTAAGTCAA CTAGCATCTTGGAAGTATTTTATTTCATCTCATAGTCTACTATCCACTATGCCTTAGAAACAGCAGATTATGTAATGGCA TAAAAGTAGCATCTGTGTTGCATGTTCGAATGTGCAAATGATGTATACAATTTCTTTTAAATTTACATTGAATAGCTATT AACTTTCTTTGGTAGTGTTGTGAAGGTTGTTTGGAACTTGGATACACTTGGAGATTTTGTGATAATGAGGAGTAATGGCC AGCCTGTTTATAACTTTTGTGTGACAGTTGATGATGCTACCATGGCTATTTCTCATGTCATCAGGTATTGCTTTTAATTT CTTAGCCTGTCAATATGCTTGAGCAATTATTTTCACTAATGTATTGCATAAATTATTTGTAATTCAGAGCAGAGGAGCAT TTACCGAACACTCTAAGACAAGCATTAATATACAAGGTAAAGTGAAAATCAAAGAGTATATCATCTTTTATAGAATCTGT TTTTTGTTAAAATTAGTTAGTTCACCATCGATTGCTCTTCAATGCAATCCGACACCAAATTAAAGTCTGAGTTCAATTAT TATATTGTGAAGTGAAGTTGGTCTTCGTCTGCTCTTTGAATTTGTCCGTACACGTATAGACCATTGTCTATGATGTTATC CTATCAAATGCCAGTTTTATTGTTGAGAGGTGACTCATATATTGTCTATAGTCCAAACCAATATTCTATATTATTGCTTC GGAAACTGGCACTGTTTTGGGGACTTGATGCTATAGAGAGGGAGGCAGGTGAAATTATTGAGGTATTTGGTCTGAGTTGA ATAGCTTTCATTACTAACAATGCAATGAGATGTGCTTTACTTTTTGCTGGAATGGGGAGTTGGCAGAGGTAATAAATTGA AGGAAACAAACTATTAGAAGTGGGAAATCTTATGCTCTCAGATTATGGGAGTGACAGAGCCAAAGTGGTTTGATGATGGA GAAAACTGGATTTGTTTAATAGCAAACAGTGGTCTCGGGCTCTAGGCATGATAGAACCGAACTTAGTGACAGTATTTATA ACGGAGGTTTCATACGCATCTACCACTATTTAATGAGGCCAAAGGGGGAAAAATATCTTATGTAGTAGAGGCAAATAAAT TTGCAACCCCAGTGATGGACAATATAATACAAATTTCAAATCATAGAATAAAGTTGCAAAAGTAGGTTAAGTTCTAAATG GATGATTGTTTGAGATTGAGTATGCAAAAAGTGTCTTTGTTCAAGTTGTATTGATTTGCTGGTTTACAGTGTATTTTCTC TGTATTACTTGTCAGTTTATACTAGCTAGATGAATTTCCTGATTTATTGGTTTTATTTCATTTCGTTATTTTTTTTTTCT TTCTAAAATCTGTCGTTTCATTAAAATGGGGTTTTTCATTGGGATGAGTTGGGAGGTCCAGATTGAGAAATTCCAAATTA AGGGCTCGTTTGGCACGCCGTATTAGACATGATAGTATAAGCTTATACAATACATTATGAGTTTATCCATTGTTTGGTGA TGACATTGTATTGTATAAGCTTATCCATCAAAGTCTCCTTATACGTTAAAATGACGTATAATTTAATCCATCATGTGAGT GAAGGATAAGGCATGATAAGGTTGTGACTTATAAGTCACCATCACCACCCTCCATTGCTGCCAACTTACACCACCATTGG CACCACCACCGCCACCGGTGTTGCCGCCACCATCCGATCACCACCGTCGTCGCCACCACCGCCCTACCGTCACCACTGGT GTTGCCACCATCGCCACCACAACCACCACCCTATCGCCACCGCCACCATAATCGCCGCCACCACTCTATTGCTACCACCG CCACCACTAACACCACAACCACCACCCTATCTCCACCACCACCACCATTGCCTCCACCCTCCACCGTCGCCACCATAATC GCCGCCACCACTCTATTGCCACCACCGCCACCACTGACACCACAACCACAACCCTATCGCCACCACCACCACCATTGCCT TCACCCTCCACCGTCGCCGCCACCATACTGCAGCCGCCACCGCCTTACCACCACCCTATCGTCGCCAACACCACAACCAT CATCGTTGCCACCATCGCCACCACCCGATCACCACCACTGCCACTGCCACCACCGCCTTACCACCACCGACACCACAACC ACCACCCTATCGCCACCACCACCACCACCCTATCGCTACCACCACCACCATTGCCTCCACCATCCATCGTAGCCGCCACC GCCTTACCTCCACCACCACCCTATCATCGCCACCACCACAACCACCATCGTTGCCACCACCACCACCAACCTATCTCCAC TGTCACCACCACCGCCACCAACACCAACCTACCACCATTGCCACCACCACCACCAACCTACCACTACTTCCATCACCACC GCCACCACCGTTATAATCACCTCCATATTTGATTTTTATTATATATCATTATTCAATACTTCACTAAACATAAAATTGCA TTAATTTAAACGATATGGTAAATTATACAGAGTATGGCCAAACGCTGGATTGTATAAGAAAGTTATCAGGGCTTATACTA TCAGGCCTAATACTATCAGGTCTTATACTATCAGGCCTTATACTATACGTCGCACCAAACGGGCCCTAAGGTAATATAAC CAATAGAGTGATTGATTCTGAGTGAATCTAAGCTTCTGTTTTTTGAAAAGCACATTTCTTAAAGCATTTTTTGAAATTTT GATTAAAAGAAAAATCCAAAAAATTCAGTTTCGTACTTATTTTCAGAAAAAATAATGAGTAGGTTCTCAAAAACATTGGA TTGGTAAGTTAATGTATGGCTAACCCATTGACCAAGATATTGCTTAAATTTTTCCTCGTTTAAAATGTGTTTCGACTTTC TAAATTGTAAATCTTGTTTTTATTTTCTTCCTTGGATTATGCAATGATCTAGGTGACTGATTATGGTTTGTTTTGCATAT GCGCTTGGATGCGTTTACAGGCACTAGAATTTCCCATGCCTCACTTTGCACATGTTTCCTTGATTTTAGCTCCTGATCGG AGTAAATTATCAAAAAGACACGGAGCAACATCAGTGGGTCAGGTAAGGTTAATTCATCATTTCCATATTTTATTCATCTT AAAGTTATGAGGTCTCACTTGACACTTCTCTTTTCAACATCAGTGGGACAGGTAAGTTTTAATGAAGCTGGTCTCTTGTA GCTTAAGTTATTCGAACTCTAATATCTGCTTTCTCACAGTTCAAGGAGATGGGATACCTACCTCAAGCAATGGTGAATTA CCTAGCATTATTAGGTTGGGGTGATGGGACTGAAAATGAGTTTTTCACTCTTGATCAACTTGGTTAGTGATTTTTGTTTG AACTCCACTTTTTTGGTATGCTATCATATAGAATGCCACTTTATTTTTTGAAGACATAGAAAACTTAGATGGTTTGTTTC TAAACAGGAAATTTTCTCGACAATTTTCTTACTGAAGAATGCTTTTCTTGTGTTATTCAGTTGAAAAATTCACTATAGAA CGAGTCAACAAAAGTGGTGCTGTTTTCGATTCCACAAAGTTAAGGTAACTATTGCATGTTGCCTACTTTATATGAATAAA ATCCTGTATGTTTTCCGTAGCATTCCTATGTCATGAAATGGTTCAAATTTCTCACACAATTGCTTCTCTGAGTTATGACA ATCTTAATTTTATACAAATGTTTACTTATTTCAACCGCTATATGTCTTCCACTATTTGTCCGCAATTTATCTGCTATATG ACATAGCGAATTTTCGGCTTTCTGCTGATTAACAACACTGTATGTAGCATACCTGTACTTTAATTTTTTTTTTTTATAAA TCTCATACATCGTACCCACATTTGTATTGTACCCCATACTGTATCCATAACTGTGCAAACATAGGTTATGGGATACATGT TTCATTTTCATTGCATATGATTGCTGAGTGTGATTAGTTAACTTGTTCATATTATAAAATTGGAGTTTTTTTAGGAGTTC TTACAAGGCTTTGCTGCTAATAATGAAAAATAAAAATACAATTAGTGCCCTTGTAATTTGCGTTCTGCCTTATATTTAGG TGGATGAATGGTCAGCATTTAAAAGCACAGCCATCAGAGGAGTTGAAAAGTCTTATTGGAGAGCGGTGGAAGACATGTGG CTTGCTTAACGAATCAACAGGGCCCTTCATAGATGTGAGATCCAATTGCCTGCATCCTTGATTTAGTCTCCTTATAAATA GCATTGGTTTAGCTTCATTTCTTAAGGCACTTTGATTTATTTATTTATTTTAATGTTGTCACATCTTGTAACACTGGACT CAGAAGCAAGTGATAATCCATGGTTGACTTACAGGAAGCAGTTCAACTACTTAAGGATGAGGTTTACTTGATAACTGAGG CAGACAAGTCACTTGCTAACTTGCTGTCTTATCCTCTACATTCTACTTTGCAGAGGTCATGCTCATATTCTTCTAATAGC TCACTGTTGTTGGCTATAAATTGTAACATGTATTGATCATAGTAGTCAATAGCGGCAAATAGCGGCGCTATAGCGGCGTA GCGGAGCGGAGCGGCTCCCTGCCGCTATTGAGATGAAATAGCGGCCAACTTCACAATAGCGGTCGTAGCGGCGCGAATAG CGGCCAAAATAGCGGCAGATCGCGGCCAATAGCGGGAAATAGCGGCGCTATATGAATGAAGGAGAAAATGACTCAAGCCC ATTCGTTTTAAATCGTTGGGGAACCTTTTTATGGGCATGTTAGGACTTCTCAGGGCCATTATAGGTCAAAATTGAAAGAA TTAAGCTTCATTCTTCATTCAGATTTGCAAATTCGACTTCTTTACCTTGCTTTTAAGAAGTTATTAGTTGTGTGTTATTG TTCAAGACTTATGATTTTTATTTCTATTATGAATGTTATGAATTTTAGGCAATATTTGACATTGTTTGCTATTTATATGT ATATAGTATTAAACTATTAATGATATAAAATTACATAAAAAAATTCAGAATAGCGGCCATCCCGCTATGCGCTATCACGC TATCCCACTTTTGGGGCCAGCCGCTACGCGCCGCTATCCGGGATTGACTACTATGGTATTGATACCTGATGATATATGCG ATATGCATTATTGATTGTTCAAACGTTCTACCTGTTTGTGGCAGCAATGAAGCAGAATCTGTCATACAAGATAATCTTTC TGATTTCTGTGCTAGCCTCTTGGCTGCCTATGATAGTGGTGATCTGGTAGCTGCACTTGAAGAAGGCCCAGCTGGGTGGC AAAAGTGGGTGAAAGGCTTTGGTAAATCACTTAAGCGCAAGGTGAGCTGAATTGGGTAATCACTGTTTGAGAAATCTCAC ATTGACTAGAGATATGACCATATAAGTGTTTATGAAGGGTATAGCAATCCTCACCCCTAAGCTAGCTTTTGGGATAGAGT TAGGTCTAACCCTGAATTCTAATATGGTATTAGAGTCTATCCTAGATCCATTTAATTGAGACGACCCATATATGGGCCAT CCATAGATGTTAGTTCCTGCAAATTCCACGCTCCAGATGTCTTTCTCTGAGTGTGAATGTGTGTGTTGAGAAGTCTCAAA TTGACTAGAGATATGGCGATATAAAGTGTTTATGAAGGGTAGAGTTAGGTCTAACTCTGAATTCTTATAATCTCAAACAT CACTTACATTCTGTTGAATACATTATATTTTCAATTGTCATTGTGTGTTCATCCTCGTGCTATAGGGAAAATCACTTTTC ATGCCGCTCCGGATTCTGCTGACTGGGAAACTACATGGACCTGATATGGGAGCTAGTGTTGTTTTACTCCATAAAGCTGG TACTACTGATATCATAGCTCCTGAAGCTGGCTTTGTGACAGTGGATGAAAGATTCAAAATACTTAGGGAAATTAACTGGG AAACATTGTCCAAGGATATTCCTGTGAAGGAGACTGCTGCTTCAGTCTAACTGAGAATTCACTTTCAAGGTTTTACACTT GTGTTTGTAGACTTAATTTTTTATTTTGACAAGAGAAGACTTATTTGTAATTTTTTTGAGGAATCTTGTTTAGTCATAGT TTCATATTTTTTTGGAGTTAAATTCAGGTGTTTACTTTTAGGCCCATTATTTTGAATTGGAAACATGAATGTATACGAGT TAGTTACCTTCCACGTTTATTTTTGTGCTTTAAAATGTTATGGCATCATGCCAGTTTCGGTATCCTAGCCTGAAGTTTGT GGGAGCATGATAGAGTATTATCATTTTGTTGTATTCTTCTATCATTTTCATTTAGTTAGGAGATATTAGTTTATTGGTTA CTTATTTGTAACTATGTGAAACAACTACCTGTAAACAAAAGCCAAAGAATAGCTCCTTATGTAAGTAAACTCTTCATTGT ATCCAATACTCGATGAAATAATTTAGAAGATTTATATATTAGAAATTTGATTTCTCTCTCAATTCCCTTCAAGCCCTATT CCACTTTCTATTACGAAATAACATTCAGAACCATTATAAATCAATTTTTTTATCAGAAAAACCTTAAAAACTAATTATTT TGGTAATTTCATTTTTTTTTCACAAAGAATATGATACATAAACCAATCGTAATAACTCCAAAAATAGCTTAAACTTGATT CAGATGATTCTACAAAATTTTATCAAAGATTCCACCAATTTTGTAATGAACAATTTAATTTCAATCACATCATAGGTTTT TCTTGTCAAAGCACAATCTACAATCCACATAAATTTGCTTAATTCTGAAAAAACAGGTTTACACCCAAGCATGTACTTGA ATTCTTGGAAACCCATCAAGATCAAAACAGTAAAAGTGATAGAAATCATTTTTGATTGCTATACGATTAAGCTGTATTTT ACATTAATACATTGACATGCTTCTGAAGCGAAACTCTTGCTTATCTTCAGAGTTCACAACTGATCAACGCTTCTATCGGT ACTTTAAGGAAGAACATCCTCAGAGAAGATGAAATACTTAGTCGCGCCAAAAATGCTGGCCAGTTGCTGAATTACACTTT GATATGAGTGACTGACGGGCAGAACAGGCGATGGAAGAGAAGGGACACATGTTGGAAGGAATTCCTTTTTATTATAAACT GGTGCATACCTGGCCAACACTTCCTGGCAAAATATGAATCTGCAAAAATGTCGGTTTGGTTAGTTTGTAAAACTACAAAA AAAAAAAACTCTACTTGTTTAGGGAAGCAAAAGAGAACAAACATAGTATGTACGACAAGAAAATTAATGAAGTTAAACTT ATAAACACAAGTATTTCAAGAGCATAATACATTCCTCAGCTGGTCTAAAAGTAATTCAGCGCTAAGAGACCTTTCAACAT AATTTAAGATATTGTTTGAGTTTTGAGTTGGTTGAGCTAATTAGTAAGTCTCATTTCTGAGGCAGAAAACAGAATGTGTA AACTCCCAGTTATTCATTGTTAACGAAAAACAAATTGTAGTCTAAGGTTGAGTTTCGTTCAGATAATTGAGCAATAATAA AAAAATTAATAATAATAATACAAATATTCAAACAGAAATGAAGACAAGTTTTACCTCAAAAGAAGTCTCCTTATGAAGGG GTCACCTAAAACCTGTCCCCAAACTGAATCAAGTGTCTCTGATGTTGCCAATGCAAGTCCCCAGTTATTTAATGATGATG AGAGAAGCATTTCAGCTTTGTTGTATATGTCCTGAAATCAAATTTAAGTTGCTGAGGGACTGAGAGGAACTTCCCACATC CAGAAAATATTAAAAAAAATAGAGAAACAAAAATAGCTTGCTATCATGAAGAAAAGGAGGCATTTATATCAGACCAGATC ATTATCAGTGCCTTGATGTCCTAGTAGCAGACAGAAAGCTTGCAGAGGAGCCGTAAGAAACATGGTGAATAGGCTCCCAT TTGAATGATGAGAAAAGTCAAATTCAACAGGAGGCGTACAGCTTGGAGAAAGGAGCATGGCTACTGGCTTTCCCTTTTCT GCTTCTGCTATGACCTGCACGTTTTATTGATTACTTGTTAAAAGACCTAATGTAATCTACAAGGTCATAGTATGTGAAGA AGGCAGATTTTAGTCAGGAATAACAAAACAATTGTTAAACTTACTTGAAATAACCAATTGTATCATACCTCTTGCCTCTA ACTGAATAAAGATAACACTCAATTTACATACACTTCATATTAAAGCATAGTTGTCAATTCCAAAACTAAAGTGGATAGAG GATAGCAGGATGACCACCAAATTGATTATTAATTTATCATAGAAACTAAATAAATAATTTACACTACACATATATAAATG CTCAAATTCATTTTGCTTCGCGAGGGAAATATAAGTTGTGTTTATTCCTTCATGTATTTAAATATCAGTCTGCTAAGTCT AAACCACCCAAGCAACTTAGTAAAATTGTTTGTTTTTAAGTGATACAACTGGGAGTGAAATTGAAAGAAAAAGATTGAGC TTATTGAAGAAGAAAGAAATCAATTATAATTTATTTTTTCCAAATTTTTATTATCACCTATCAGCACCCAAGAATTAACT TTTATGCTTAAAACTTTCAGTAACAAGTATGATATTGCAGCATCGTTACTTCCAAGCTTTTAAAACATTAGTGATAAATT CAATAAAAAAAATTGTTCAAAATTCAATAGATAATTGAATGAAGTGGAAAGGCTTGCCTTAAAAGCTTTGCTGTTGTCAT TATCAATGACTAAAAGAAGCGGTCTTCTAGTAAACGGCAGAAAATCGGATGGATATATGCAGTTTGACCCTGAAAAAGGA TTGGGTTAAAGTATTCTGCAATTCCGAAAAATAAAACATGTATAATATGAGCACTCATAATATCATTGTATGAGCTGGAG AACTACTAAGATACTAGAAGATATATTCAATCTATACCTATGACCATAATAAATATTAAATCCATGGGTTGTAAGTCCTC CCTTCAATTGCTTGGACCAATTTCAGCAAAATTAACATAGCCAGTGACTTGAGGCTATTTACAGAAGGGACCAATTTTAA AAAACTAAGATAAAAAATTTCACATTGTGTGAGTTCAAAAATACCCTCTAAGGCCATCTGTTGAAAAAATGTCAAGAACC AATTCTCCTAAAATCTTAAGAAGGGGGGGAGACTAAGAACTGTTTTTAATCCAAAATACAACCCCCTTATGTAAAAGCTA TTTGGGCTTGAATGTGGATAGTGAACAAGGTCATTTTACTAATGAAAAATGCAGGTAAAAATGATTGAACCACTTGGTTT CAACCCTGTCTCTTTAATGATGCACATGAATAGAATAAAATCCTAGTCCAAATGCATTGTGCCAACAACCAAGCAGCATT CTTCCCTCTTCTAATCACGTTTTTTTAATGTTTTACAACTTTTCTCCACATTTTACATCATTTTGGCAAAGGTTCAACAA GCTTTACCCAATCACTTCAAATAACACCAAGTCTAGAGGCTTGGCATCCACACCATCAGAGATTACCAAACAGCTCCAAA TGGCTAGATCTGGACCTCCAACCATTGTCCAACATGCCAATATGCCATCTTAATGCATGGATGCTATATTTTCCAGTGCA TAAGGGCACATGCCTTCAATATTTGGTCAGTTAACTCCAAAGAACCAGTTGAATCCTTCACTTTGACCACAGGTATTTAT CATTTAATTCAAATTCCTTACCTAGTTTCCTCATTCAATTGCACGCAATAAATTAGTTAAAATAGGAACAGGGGTTCTTT ATTGTTCCTTGAGCATATTGTATATATGCATGTATGCCAGAAACATGCATCAATATTTTTTTTCCAGGTTCATTTGTACA CATAGTAGTTGGCCCATTAGCCCATATCTTGTAATAATTGTAAACTCATGTATTTACTAGTTTTGTCAGTTCAAACAGCC ACTATAAAATGTATGGATTAAGTTTCTCAAAGCTCCTCAGGTTAGTTACAATCATAATCATAATGCCTAGCTGCCTTCTG CATGTGATTTACATACCCCATTATGACCTATTAGCTTAGATATGATTTTTAGTCCGTATACATTTGTGTTCTGACATATG GAACTAACATACATGCATAACCAATAGGACCTCTCAGTGTAGTGATAGACACTAAATTACCCAGAAATCAAGGGTTTGTA TCCATAATGCTTTCTCTCTTTTCAAGAAGGATTTCATATCTTCCAATCTTAACTTTCCTCCTTTTAACTAACTTTTTCTA ATCCAAAAAGAAGAAAAAATAAAGAAGGAGCATGATAAAAGAATTTGTCATCTGATAGAAAAATCTTACAGTCGAAGAAA CAATGATCAGAATAAAAATTTACAATCACAATGTTGATTTAATCTTTTTTCCATAGAAGTGGAGCAGAAATGAAGAAAAT CCAAAACCCAAGGGAAGGAAATGCATCAATACTGAAAATTAAAATGCTATATATAAAACTTTTACATATGTTATTCAGGT CAAAGTAGCAATATACAGTTACAGTGGGCAAAGCACTGTCATTTGAGTATCTATATTAACATGATCTCTAAGCACATTAA AATAGTTTCAACAAAAGCAGAGCAAAAAACATAGGACGCAGTACAGGAATGGAAGTGCATGAAAAATTCCTCTAAAATGC ACCTTTATCTCCATGGGGACCAAAGGGTATGCAACCAGATTCGTTCTGTGCAGCAGCACCACCAGATCCTGCATTTGATG TAGATAGTAAGAGATAAGCATTCTATATAACCTACACCTTTGCATATTTGTATTCCTAGTCAACAGAAGATATCTGGCTT ATCAAAAAAAAAGTCAACAGAAGATATCTAACCTGAGGCTGACAGATATACCAGGACAATACCATCAGAAGGAAGCTCCT CACAAATTGTGGCAAGAACCTAATAATCAAAAGGAAAACAAAATTATTTTAATAATCAGGAAATTTCGAAGAAAAAATAA TAATGAAGAAAATAGTCACTCTGATGCTAATTATAAACACTTTTATTATTAGCTCCAAATTAAGAAGGAATGTCCAAAAC CACCGCACTTCACACAGAATAGATGGTCCAATCCATCCCTCCTGTTCATCTATCTTTTCTCTTAATCATGTATCATAAGA CAAAGTGCTCTTTCTAATGACATGTTCAATCATCCTCCCTTGAGCTAGCTTTTCGGAGTGGAGTGAGATTGATTCTGACT CTGGCCAATACTGGATTTCTTGCTAGAATTATCAGTACAGGATTCATTTTTTCTTCTTAATTCTAAACAGTTGTATCATA AAATAAGAGAAAAACGAGACCTGACAAATTGTCCTTGACAATCATTAGAATTTATTATATTATAAGGGTTATTTAGACCT GCTCTAGTTGTACTACACTTGCTCTTGACCTAGATCACTAGTATAACAGGGATATAAGATCAGTGTTATGTATTACAGAT TTACAGCGCATATCACGATTTTTTAGTCTCGTCAATGAAATATTTTATATTTTACATTAAATCCCTGAATTGCCATCATG GAATCAAATCCCAACTCAATCCAAGGACCAGTACGTTATGGGCCCATGGAAAACTATTGAAAGTATATGTTAGGTACCAG AAAATAACACTGAACTGAGAATGCAAATGTATTAGATAGCACTGAATCCTCTGGAGAAATTCCAGAAGCAGTGTTTAGGG AATTTGCAAATAACAGAGGAAATGAAAAGACAAAGATGAGCAAATTCGAGAGTGCTCCTTCTCTCCTAGTCCTAGCCAAT TCCAGCCTAAAACAATACTCTCTCCATAACTAACTTATATTCTCTCAGCTGGTACAATGGTCCCCCCCTTCCCCTCTTGA TTGCTGCCACCTCACCAGGAGGTTATTTAGGAATACTACATTCTAGAAGAGTGATCATTAGGTGATTCTGCTGGCATCAT CTTGGGCCTCCTATTGTAGACGTTGCCAAACCTGGGCCTGGTTCTTGGGTTTGCAACATCTCTCCCTCCTTGAAGAATCA GCTTGTCCTCAAGCTGATGATCTGGGAATTGTTCCAGTAGTTTGTTGAAATCTTCCCAGGAATCCTCAAATTCTGGCAAG TCCTTCCACCTCACTAATACCTCTAGGTCTCCATCAGTTTTTGCTCTAGAGTCTTGAATTGATTCTGGTTCAACCTTGAG CTCCCAGTCTTCAGTGAGAGAGACAGGTAGTGGTTGGCTGGTGGCTCCTGCATTCAAAGCCTTCTTGAGCAGGGAAATGT GGAAAACTGGATGCGCTTGACTGTCCTCTGGTAGCTTCAACTTGTAAGCTGCAGGATTAATTTTTTCTATGATTGGAAAG GGTCCATAATATCTAGGGCTCAGTTTCTGGTTCTTCCTCCTGGCTAAACTCTTGAGTTTGTAAGGTTGTATTTTAAGATA CACCAAATCCCCAACCTCATACTGCACATCCCTCCTATGTTTGTTGGCCTGCTGTTTCATCCTATTTTGTGCCTTCTCTA AGTTTTCCTTCAATTCATCAATTATCAAATTCCTTTCAGCAGTCATTTTCTCTACTTCATCCACTGAAGTCAAGGAATCA TTTCCCCTGATGATTACAGGAGGCTCCCTCCCATATAAAGCCTTGAAAGGAGTGGTTTTGATTGCTGAATGATAGTTTGT ATTATACCAGAATTCTGCCCAGCATAACCACTTGGGCCACTGCTTGGGTTTTAGCCCTGTCACACATCTCAGATAGGTCT CCACACAACGATTGACCACTTCAGTTTGCCCATCTGTTTGGGGATGGTAAGCTGAGCTAAATTTCAGCTTTGTTCCTGCT AGTTTGAACATTTCTGACCAGAAGGTGCTAAGGAAAACTCTGTCCCTATCAGAGACAATAGAAGTGGGGAATCCATGTAA TTTCACCACTTCTCTTACAAATAACTCAGCTACTTCCTTTGCATTGTAAGGGTGAGCAAGTGCAAAGAAGTGTACATATT TTGTGAATCTGTCTACCACAACTAAGATAGTATCCTTTCCCATAGCCTTAGGTAACCCTCCAATAAAGTCCATAGAGATA TCTGACCACCCTTGAGAAGGAATAGGTAATGGCTGAAGGTAACCAGCTGGTTTTAGAGCCTCATATTTGTTCCTCTGGCA CACTTCACACTTTTGGACATAGTTTTGAATATCCAACTTCATTCCTTCCCAGAAGAAAAGGGCTGAAATCCTCTTGTATG TTCTGAATATACCTGCATGGCCTCCAATAGCAGAATCATGAAATTCCTGGAGAATTGTGAGAATTTTCCCAGATCCTTTA GGGATGACTATTCTGTCTTTGTATAACAGCCTTCCTCTGTGCAATTTATAACCAGCTGTAGTGTGACCTTGGGTGGCCAA CTCTTGCATGATCATTTTGTACTTGTCATCTCCTAAGATTTCAGCTTCCAAATCTTCCCATTCTGCACACTGTACTGATG AAATTGCTGAGAATTGCATCTTTCTTGATAAAGCATCAGCTGCCTTATTTTCAATTCCTGGTTTGTATTTTATCTCAAAA TCAAACCCCATCAATTTGGATACCCATTTCTGTTGTTCCTCCCCCATTAGCCTTTGCTCTGCTAAAAACCTCAGGCTCTT TTGGTCAGTGTGTATGATGAACTTGCTGCCCAGCAGATAGTGCCTCCATTTTTGAACAACAAATACTACAGCCATCAGCT CTCTCTCATAGACTGATTTGGCTTGGGCTCTGTCTGATAAGGTTTTGCTCATGTAGGCTACAGGCTTTCCCTCTTGCATG AGGACAGCTCCTAATCCTTTCCCAGAGGCATCAGTTTCCAAGATGAATGTTTTATCAAAATTGGGAACAGCAAGCACTGG TACTGTTGTCATGACCTCCTTAAGCTTCTCAAAAGCTTTGGTTGCTTCCATACTCCAGCTGAAACTATTTTTCTTTAGTA ACTGGTTTAGGGGATGAGCCAATTTACTATAGTTCTTCACAAACTTCCTATAGTATCCAGTCAATCTCAGAAATCCCCTC AACCCTTTTACCTCTTTAGGGATTGGCCAATTTAGCATATCTTTGATCTTACTTGGATCAGCTGCAACTCCTTCTTTAGA GATAATATGTCCCAAGTAAGCAATCTCACACTGCCCAAAAGAACACTTCTTCCTGTTTGCCACTAGGTGATTGTCTTTCA GTACTTGCAATACTACCCTCAGATGTTCTGTATGCAACTCTTCAGTCTTGCTATAGATTAATATGTCATCGAAGAATACC AGAACAAATTTCCTCAAATAAGGTTTCAAAACTTGATTCATGAGGGCTTGGAAAGTAGATGGTGCATTAGACAGCCCAAA TGGAAGAACCAAATACTCATAATGCCCTTCATGGGTTCTAAAAGCTGTTTTTGGTATGTCTTCTTCCCTCATCCTTATTT GATGATACCCTGATTTTAAATCTAATTTAGAAAAGACCATGGCTGACCCTATCTCATCTAACAATTCATCAATAATAGGT ATTGGGAATTTATCAGGAATTGTTAACTTGTTTAGGGCTCTATAGTCTACACAGAATCGCCATCCACCATCCTTTTTCTT TACTAAAATTGCAGGACTGCTAAAAGGGCTAGTGCTAGGTCTAATAATCCCTGATTTCAGCATGTCTTTAACTAACTTCT CAATTTCATTCTTTTGGTAGAAAGGATACCTGTAAGGTCTGCTGTTTGGAATAGTGGCTCCTTCTTGTAGTAAAATGGCA TGGTCAGTGTCTCTCTTTGGGGGCAATCCTTGTGGTTCTTGGAACACAACAGGGAACTCAGCTAACACTCTCTTTAACGC ACCTGATGTCTCAACTTCTGCTCTTGGTTCTTCACTCAAACAGCCATAAGAGTAAAAATACCCCTCAGCCTCTCTCTGTT CTGTCATTTTAATTGATTTCCAGTCAGCTGCAACCCCACACCAGGATGGTTCTCCTTGTAGTGCCAACTTCTGTCCATTT GACTCCCACTGAATTATGAGTTCCTGGAAGTTTGCCCTGATGTTCCCCAAGCTTGCTAGCCAGTCCATTCCCAAAACTAA CTCAGTTCCCCCCAATCCGAGAATGAAGAAATGTTGGGTGATTTGTATGCCCTGAACTTCCAGTTTCAAGTTCTTGCACA CCCCAGAGTTTCTCTCCTTGGCACCATTTCCCACTTCCACCACATACTCAGAAGTTGCTATGACTGGAATTTCTAGCTCT GCTACTAGTTCCTGGGAAATAAAATTACTTGTGGCTCCACAGTCAATAAGGATCAGAATTTCCCTGTCTTTAATCCTTCC TTTCACCTTGAAGGATCTGTTTGAAGTCAGTCCTTCCTTACTGTTCAGTGACAGCTGTAGGACCTTGCCTTCCAGCACAA ATTCTCCATCTTCAGCTTCCTCAAACACCTCTTCTTCTTCTTCTTCATCTTCTACTTCCACCAAAATCAACTGGTAATTT TTCTTTGCACAGATGTGCTCTTTTCCCCATTTTTCCCCACATTTAAAGCACAACCCCCTCCTGCTTCTCTCCTGCAACTC AGATTGGGAAAGTCTCTGCCCCCCATTCCATCTTCTCTCTGGTGGTTTTCCCTCCTGCACCTGATTCCCAGTATTCCCCT TGTTCATAGGATTTTTCCCTTCATTATCCTGATTTCCAGCTCCTTCTTTACCCTGGTAGCCCACTGCAGTACTAGGAAAT CTTCCCCTGTTTTCCCCATAACTAGAGAGATTTCTCCCTCCCCCACCCCCTTTTTCCTTCCATCCCCTTTTGTCATCCTC TCTACTTTTACCCCCTTTTACTGCCAGATTTTTCTCTTCCAACAGAAGAGCTCTGTCCATTAGCTCTGCCAAATCCTCTG CAGGATACAACTTCATCTCTGCCTTAATCTCTTCTTGCAACCCGTTCAGGAAAACGCCTTTCAACACCTCTCTATCAGCA TTCCTCATCGGTGCTGCCAATAGCTCAAAGCTCTCCCTGTATTCCATCACGCTTCCCTTCTGTTTTACACTAAGCAAAGG TCCAAAGGGATTTTGAACCAAAGCAGGTCGGAAACGACGAATCAGAGCTTCCTTGAAGGGTTCCCAAGCGCGCACAGGAG CTTGTTCCTCCCACCATTGGAACCAACTCAGAGCTCGCTCCTCCATAGCAATCATCACGAGTTCGATTTTTTCTCCCTCC TCGATTCTGCTGAGGCGGAAAAATCTCTCAACCTTGGTGAGCCACCCGTAAGCATCTTCACCATTGAACATCGGAATGTC TACCCTCCTTCCAGTCACCGCTCTCAAATGACTACGATGATGGTGGGGTTCGAAACGCTCGCGACTCCGTGTTGTAGAAC GCGACCCGGTTCGCGACCCGGTTCGTGACCCACCGTGTGTTCTTACGGCAGAAACGGAACCCAGATCTCGCGAAGTCCTC CTATGACGAGGGGTGTTGGAGCGTCCTCTGGTTCTCCTCTGGTCGCGGCTCATGAAGAGTCGCCGGAGTTCCTCAAACTG CTCGTGAGCCACCTCCTTCATCTCAGTGATGGTGCGTTCAAGACTGTCAACTCGAGATTCCATGGCGCTGCGGGTAAGCA CCATACAAAGCTCCCTCTGGATCGGGAGCTCTGATACCAATGTTAGGTACCAGAAAATAACACTGAACTGAGAATGCAAA TGTATTAGATAGCACTGAATCCTCTGGAGAAATTCCAGAAGCAGTGTTTAGGGAATTTGCAAATAACAGAGGAAATGAAA AGACAAAGATGAGCAAATTCGAGAGTGCTCCTTCTCTCCTAGTCCTAGCCAATTCCAGCCTAAAACAATACTCTCTCCAT AACTAACTTATATTCTCTCAGCTGGTACAATGGTCCCCCCCTTCCCCTCTTGATTGCTGCCACCTCACCAGGAGGTTATT TAGGAATACTACATTCTAGAAGAGTGATCATTAGGTGATTCTGCTGGCATCATCTTGGGCCTCCTATTGTAGACGTTGCC AAACCTGGGCCTGGTTCTTGGGTTTGCAACAGTATATAAACAATAACATATATCTTTTCATACTTAATTACTTACAGCTA TAAAATGAGTCAGTGAAGGACGGTATAATATAGTTTTCCGTGGATTTGCTGGTAAGGTAGGATCAGCAATATCTTGGATG TAACTGATACGAGTAGTCCCAGTTGCCCCATTCTGACTAGGTTTTGAACCACTAGCCTGGTAAAATGAACCACTAGGTTC CCACTCCAGACACTGAAGCATCCTAAAAGTGTCAATTGTGAGCTCTGAAAACTTAACCTGTTTAGGAATGACATTGGAAA ACAATAATGAAAGGCCATATCATTTTACAGAATAATTTACAAGCAGTAAAAGAACTACCTTATTAAGTTCATCATTTCCA ACAAATATTGTTCTACATTCTACAATAAAAGGGAAAAACCAAGAAAGTGTCCTGGTCCTGGATGCCTACCTCATTGTGAT GGAAGCTACTTAATACAGCGTCTTGTAATTTCAAACTTCGCTTCGTGATGGCTGCAGACGTCTGTGGTAAAGTATCGGGA TGAGGGTCCAAAACTAGACTATATCTCAAGGGTCTGATATTCGTAAAAGCAGTGTCAGCTTTTAAAAATCTGACTATTTC CTGAACCACCAGCTTCCACTCTTTAAAGTCACTTTCCTGTAACAAAATTGTTTGAAGGTCACTTCCAATATGTCTGCAAA TGTAAATCTATCAAAAACATATTCTTGAGAGCATCATGGTTTTTAAGGAACACTCCAATTAGAATCTACTACAATGTAGC CTGGTTATTCAATCTCTTTTTTATTGTCAACAGGTTATTCAATCTCAAGATGCAGTACTTTGATATTGTTGTGAAGCTGT GCAGTTAGTTTAGATGTTTAGTTACCAAAAACCATAATTAATTCATCAAAATTAAAGACAGCAGAACAATGTGATATATA AAAGCATTCATGTAAGCAAGGACGGAACTAGGAACCTTATAAATGGAGCAGTCGCCCCCCAGGAGAAAAGATTTCTTTAA TAGTATTCCAATGTTGTATTTGCCCCCTCAAAAATCTTATATAGCCTCCTCCAATAAATCATCGTTAATTTTGCTTAATA TGTGTTAAATTTCTGCCCCCCCTTACCTATACTCTCTGGTTCTATCCCTGCATTTAAGTCTTCAACTACTAGCTTAAGCT TTTGGGATCCCTGACATCGCACTGAAGCCTATTTAACCAAGAGATTAAAAGTTTGGGTTACCGATAATAACAACGAGGGC ACGCATGACCTATACGGCTATACTTAATCACTGTTGAGGATTTACAATAATTAGTCTCCAACTCTCGCTGTCACCAAAAT TACAACATTGAAATGACATAGTATATTGAGGATCACCGAAGCCTTTTCCATACACACAGTTAAAGATTAAACCACGGTTG TCAATAGCATGCTATCCGTAGCAGTGCATAGCGGCCCTTGGCCACTCCTAGTTGTTGCGTAGCGGTGCACTTCAATGTTG CGGCCGCTACAGTAGAGGAAATAGCCGCCATAGCGGCGCTGTTTAGTGGAATTGATAAAAGCCCAAAAAAAACCCAAATA CTTCATGTTAGGGCATTTTGGGGAGGTATTTCAGGGTTTCTGCTTCGGAAACATACTGAAAATGGTCTAATTTGAGGAGG AAGTGATAGAACTTTCATGCTTTTATGCATTTTAGTTTAGGAAATTGAGACTTAAACCTCTTGGATTTTTTTTGATAGGC AAATGTTAGTGGTTAGTGGTTAGTAAGTTAGAAAATCCATTCAAATTTCCCTTCCAGGATTCGAACCCTGGACCTTCCCC TCCCCAACCCTTATGTCCCCTAGCTCTTACCACTTGAGCTAACCCTCGGGGACCTTAAACCTCTTGGATACCTTGACTTT TGTTGGTACTAGTATGTTTTCTTTAAGACACTTATGACTTATTAATGCTAATTACGAGTGTCATGAATTTTGAGTATTTT TGTATCATATATATGTAAGTAGTTATATTATGTAAACTACACAAAAAATCAAGCATAGCAGCTATCTCGCTATGCGCTAT ACCGCAACAGCATTTTTGTTGTCGGCTGCCATCCAAGATTTTTAAAACCCTTATAACTTATAAGCATGCTTAGACAAACC AGTTATCTACCAATAAAACCTCAACTCAGGTTAATTGTTCTAAATTCAAAACAACACACGGAAATGCAATGCGAAAAATA TATCATCAAATTGAGCAAGAAGATTAGAGAGACCTGGAAAGTCCTCTTGCATTCATCAACCAATACTTTAAGCTGATTAA CCAGCTGGTGCACCATCTCCCACCGGTTCAAAACCAAACAAACCATGAGAAACCGCGCGAGGAACCGCAATTGCTTGTTA GCAATATTCACATCCTGAAACAAACCCTCCTTGAAATACTCTCTAGTCAGTATCGCCTCATAGAACACATACGACTCCAA TAGGTAATTGGAGTCACTGGTCCTCATGTACTGCCCGAAATACAGTTGCCCGATTCGCGACGCGATCTCGCCAATCTCCC ATCGCTTCAGCCCCGCTTCCACCAGCTTCTGCCGATTCTCCTGCTGAAACTTCCATAGCTGGGTGTACACCTTGAAAACC TTGTAGAAATAGGTGTCATGCCTGTAAACAACAGAAGAATGAGAATTCTGAATCTTGATTTTGGAAATTGAATGGTGGAA GGAAAGGGAAATGGAGGAGAATTGAACCGAACCTGCTTCGTTGGTAGTAAGGGAGGTCTCTGATCTTGGAGAATTTCTTG TCGGCTTTGTCGACGAGAGTCCAGAACGCTTCGCTCACTGGGATGTTGCTGTTGAGCTGCGACATTCTTGCTTCTTCTTC AACCACGACGGCGACGCCGTTTCAGCCACCGTGCAAGAAGACTGTAATCGACTGCGTGCTTATACTGTGGTCCTTCCTTG TCAGAGATGCATTTTCTTTTT

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CDS sequence (LotjaGi3g1v0075100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGGCGATGTTGGGTGGCGCCACTCCATGGTCCAAGGTTGTTGCTGCTCCCATTTTTCACCAAACCTACACTTCACG CCGCACCTTCTTCTTCCGAAGAGCCTTCTCAGTCACTGCACATTCTTCACCACAACAACCTGTTCGTGTTCGTTTCGCTC CTTCTCCCACTGGTAACCTTCACGTTGGTGGTGCTAGAACAGCCTTGTTCAATTACTTGTTTGCTAGGTCCAAAGGTGGG AAATTTGTCTTGAGAATTGAGGATACTGACTTGGAGAGGTCTACCCGGGAATCTGAGGAGGCCTTGCTTCGAGATCTTTC TTGGCTTGGCCTTGATTGGGATGAAGGTCCCGGTGTTGGTGGGGATTATGGTCCATATAGGCAGTCTGAGAGGAATTCTT TGTACAAACAGCATGCTGAGAAACTCCTCCAATCGGGTCAAGTTTATCGCTGCTTCTGTTCTAATGAGGAACTAGAGAAA ATGAAGGAGGTTGCTAAGCTAAAGCAACTACCTCCAGTATACACAGGTAAATGGGCCAGTGCGACAAATGGGGAAGTAGA AGAAGAGCTCAAAAAAGGAACTCCTTACACCTACCGGTTTCGTGTCCCCAAAGGAAGTTTAAAAATTAATGACATAATAC GAGGCGAAGTTGTTTGGAACTTGGATACACTTGGAGATTTTGTGATAATGAGGAGTAATGGCCAGCCTGTTTATAACTTT TGTGTGACAGTTGATGATGCTACCATGGCTATTTCTCATGTCATCAGAGCAGAGGAGCATTTACCGAACACTCTAAGACA AGCATTAATATACAAGGCACTAGAATTTCCCATGCCTCACTTTGCACATGTTTCCTTGATTTTAGCTCCTGATCGGAGTA AATTATCAAAAAGACACGGAGCAACATCAGTGGGTCAGTTCAAGGAGATGGGATACCTACCTCAAGCAATGGTGAATTAC CTAGCATTATTAGGTTGGGGTGATGGGACTGAAAATGAGTTTTTCACTCTTGATCAACTTGTTGAAAAATTCACTATAGA ACGAGTCAACAAAAGTGGTGCTGTTTTCGATTCCACAAAGTTAAGGTGGATGAATGGTCAGCATTTAAAAGCACAGCCAT CAGAGGAGTTGAAAAGTCTTATTGGAGAGCGGTGGAAGACATGTGGCTTGCTTAACGAATCAACAGGGCCCTTCATAGAT GAAGCAGTTCAACTACTTAAGGATGAGGTTTACTTGATAACTGAGGCAGACAAGTCACTTGCTAACTTGCTGTCTTATCC TCTACATTCTACTTTGCAGAGCAATGAAGCAGAATCTGTCATACAAGATAATCTTTCTGATTTCTGTGCTAGCCTCTTGG CTGCCTATGATAGTGGTGATCTGGTAGCTGCACTTGAAGAAGGCCCAGCTGGGTGGCAAAAGTGGGTGAAAGGCTTTGGT AAATCACTTAAGCGCAAGGGAAAATCACTTTTCATGCCGCTCCGGATTCTGCTGACTGGGAAACTACATGGACCTGATAT GGGAGCTAGTGTTGTTTTACTCCATAAAGCTGGTACTACTGATATCATAGCTCCTGAAGCTGGCTTTGTGACAGTGGATG AAAGATTCAAAATACTTAGGGAAATTAACTGGGAAACATTGTCCAAGGATATTCCTGTGAAGGAGACTGCTGCTTCAGTC TAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0075100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAAMLGGATPWSKVVAAPIFHQTYTSRRTFFFRRAFSVTAHSSPQQPVRVRFAPSPTGNLHVGGARTALFNYLFARSKGG KFVLRIEDTDLERSTRESEEALLRDLSWLGLDWDEGPGVGGDYGPYRQSERNSLYKQHAEKLLQSGQVYRCFCSNEELEK MKEVAKLKQLPPVYTGKWASATNGEVEEELKKGTPYTYRFRVPKGSLKINDIIRGEVVWNLDTLGDFVIMRSNGQPVYNF CVTVDDATMAISHVIRAEEHLPNTLRQALIYKALEFPMPHFAHVSLILAPDRSKLSKRHGATSVGQFKEMGYLPQAMVNY LALLGWGDGTENEFFTLDQLVEKFTIERVNKSGAVFDSTKLRWMNGQHLKAQPSEELKSLIGERWKTCGLLNESTGPFID EAVQLLKDEVYLITEADKSLANLLSYPLHSTLQSNEAESVIQDNLSDFCASLLAAYDSGDLVAALEEGPAGWQKWVKGFG KSLKRKGKSLFMPLRILLTGKLHGPDMGASVVLLHKAGTTDIIAPEAGFVTVDERFKILREINWETLSKDIPVKETAASV

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	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	1	1	-	–
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	16	16	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	2	9	8	-	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	10	16	7	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	17	560	544	-	–
PANTHER	PTHR43311:SF2 View details on PTHR43311:SF2 Search for proteins/transripts with this domain View external data on PTHR43311:SF2	33	538	506	3.6E-205	–
PANTHER	PTHR43311 View details on PTHR43311 Search for proteins/transripts with this domain View external data on PTHR43311	33	538	506	3.6E-205	–
Gene3D	G3DSA:3.40.50.620 View details on G3DSA:3.40.50.620 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.620	38	372	335	1.5E-143	IPR014729 Show description in modal box View details on IPR014729 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_00022 View details on MF_00022 Search for proteins/transripts with this domain View external data on MF_00022	47	530	484	30.663	IPR004527 Show description in modal box View details on IPR004527 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00749 View details on PF00749 Search for proteins/transripts with this domain View external data on PF00749	48	363	316	3.3E-100	IPR020058 Show description in modal box View details on IPR020058 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00464 View details on TIGR00464 Search for proteins/transripts with this domain View external data on TIGR00464	48	521	474	5.2E-153	IPR004527 Show description in modal box View details on IPR004527 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00808 View details on cd00808 Search for proteins/transripts with this domain View external data on cd00808	48	370	323	4.62389E-145	IPR033910 Show description in modal box View details on IPR033910 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52374 View details on SSF52374 Search for proteins/transripts with this domain View external data on SSF52374	48	356	309	5.38E-110	–
PRINTS	PR00987 View details on PR00987 Search for proteins/transripts with this domain View external data on PR00987	51	63	13	3.9E-27	IPR000924 Show description in modal box View details on IPR000924 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00178 View details on PS00178 Search for proteins/transripts with this domain View external data on PS00178	54	65	12	-	IPR001412 Show description in modal box View details on IPR001412 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00987 View details on PR00987 Search for proteins/transripts with this domain View external data on PR00987	65	76	12	3.9E-27	IPR000924 Show description in modal box View details on IPR000924 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00987 View details on PR00987 Search for proteins/transripts with this domain View external data on PR00987	80	93	14	3.9E-27	IPR000924 Show description in modal box View details on IPR000924 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00987 View details on PR00987 Search for proteins/transripts with this domain View external data on PR00987	236	246	11	3.9E-27	IPR000924 Show description in modal box View details on IPR000924 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00987 View details on PR00987 Search for proteins/transripts with this domain View external data on PR00987	252	260	9	3.9E-27	IPR000924 Show description in modal box View details on IPR000924 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48163 View details on SSF48163 Search for proteins/transripts with this domain View external data on SSF48163	357	517	161	3.14E-24	IPR008925 Show description in modal box View details on IPR008925 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.350 View details on G3DSA:1.10.10.350 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.350	434	524	91	2.9E-13	IPR020751 Show description in modal box View details on IPR020751 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:0000049 View details of GO:0000049 AmiGO InterPro QuickGO	Molecular function	TRNA binding	Interacting selectively and non-covalently with transfer RNA.	Subterm of View details of GO:0003723
GO:0000166 View details of GO:0000166 AmiGO InterPro QuickGO	Molecular function	Nucleotide binding	Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose.	Subterm of View details of GO:0036094 View details of GO:1901265
GO:0004812 View details of GO:0004812 AmiGO InterPro QuickGO	Molecular function	Aminoacyl-tRNA ligase activity	Catalysis of the formation of aminoacyl-tRNA from ATP, amino acid, and tRNA with the release of diphosphate and AMP.	Subterm of View details of GO:0016875 View details of GO:0140101
GO:0004818 View details of GO:0004818 AmiGO InterPro QuickGO	Molecular function	Glutamate-tRNA ligase activity	Catalysis of the reaction: ATP + L-glutamate + tRNA(Glu) = AMP + diphosphate + L-glutamyl-tRNA(Glu).	Subterm of View details of GO:0004812
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006418 View details of GO:0006418 AmiGO InterPro QuickGO	Biological process	TRNA aminoacylation for protein translation	The synthesis of aminoacyl tRNA by the formation of an ester bond between the 3'-hydroxyl group of the most 3' adenosine of the tRNA and the alpha carboxylic acid group of an amino acid, to be used in ribosome-mediated polypeptide synthesis.	Subterm of View details of GO:0043039 Part of View details of GO:0006412
GO:0006424 View details of GO:0006424 AmiGO InterPro QuickGO	Biological process	Glutamyl-tRNA aminoacylation	The process of coupling glutamate to glutamyl-tRNA, catalyzed by glutamyl-tRNA synthetase. The glutamyl-tRNA synthetase is a class-I synthetase. The activated amino acid is transferred to the 2'-OH group of a glutamic acid-accetping tRNA. The 2'-O-aminoacyl-tRNA will ultimately migrate to the 3' position via transesterification.	Subterm of View details of GO:0006418
GO:0008270 View details of GO:0008270 AmiGO InterPro QuickGO	Molecular function	Zinc ion binding	Interacting selectively and non-covalently with zinc (Zn) ions.	Subterm of View details of GO:0046914
GO:0043039 View details of GO:0043039 AmiGO InterPro QuickGO	Biological process	TRNA aminoacylation	The chemical reactions and pathways by which the various amino acids become bonded to their corresponding tRNAs. The most common route for synthesis of aminoacyl tRNA is by the formation of an ester bond between the 3'-hydroxyl group of the most 3' adenosine of the tRNA and the alpha carboxylic acid group of an amino acid, usually catalyzed by the cognate aminoacyl-tRNA ligase. A given aminoacyl-tRNA ligase aminoacylates all species of an isoaccepting group of tRNA molecules.	Subterm of View details of GO:0006399 View details of GO:0043038

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0075100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0075100.1