Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0527600
Transcript ID	LotjaGi3g1v0527600.2
Related isoforms 4	LotjaGi3g1v0527600.1 LotjaGi3g1v0527600.3 LotjaGi3g1v0527600.4 LotjaGi3g1v0527600.5
Lotus japonicus genome version	Gifu v1.2
Description	Alanine--tRNA ligase; TAIR: AT1G50200.1 Alanyl-tRNA synthetase; Swiss-Prot: sp\|P36428\|SYA_ARATH Alanine--tRNA ligase; TrEMBL-Plants: tr\|A0A0S3SE77\|A0A0S3SE77_PHAAN Alanine--tRNA ligase; Found in the gene: LotjaGi3g1v0527600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:94396787..94413472) extracted from Lotus japonicus Gifu genome v1.2.

CAGAGGCCACATTATGAGCGAGTGAATGAAAAGAGGACACTACTTGACTCTGCTCATATCCTCTCTTCGTAACCGTAACC CTCCTCCGTTAGCGCCGCCACCTTCATTCCATTTTCGCGGCGTCTCCTCCTCTTCCAGATCTCCGGCCACCGCCATGCCT GGACCAGACGCTCTCGATTTGGAGTGGCCGGCGAAGCGCGTCAGAGACACCTTCGTCAACTTCTTCAAGGAAAGCAAGAA CCATGTGTACTGGCAGTCTAGCCCTGTCGTTCCCTTCAACGACCCCACCCTCCTCTTTGCCAACGCTGGTACTCTTCTTC TCTTCCCTCTGTTATTGCATCACTCTCATGTGTCTGTGTGTGTGACTGAATGAAATGAATTAACTATGTCGATTTTCAGA ATTCTATTTGTTTTTCCAAAGTCTGTGTCAATCGTGTAACGTACCCTGAATTGGTATATGATAATCTATTAGCTTCTTAG TAATCATGCCTTGTGTTCTGTGTAAATTGTGGCATGTTTGGAAATACTTTAGTTCTACAATTGATTATGGGAAGAAGCTT ATCAAAATCAATTTTGGGATGAGGATTTCCTTTTGTATTAATTTGTTGTGGATAGCTTGCATTGGTGATTGTATATTGTT AATTTTTTAAAAAATATATACAGTATTGATTATTAAGGATTCGTCGTGGAATGACAGGTATGAACCAGTTCAAGCCAATA TTTCTGGGAACTGCTGATCCAAACACTGACTTGAGCAAGCTGTCTCGTGCTTGCAATACCCAAAAATGCATACGAGCTGG TGGTAAACACAATGATCTTGACGATGTAGGAAAAGATACCTACCATCACACCTTCTTTGAGATGCTCGGCAATTGGTCGT TTGGGGATTACTTTAAAACAGAAGCCATTGGCTGGGCGTGGGAACTTCTAACCAAAGTATGCTTTATCAATTAGTTTTTT TTTGGGATTTAAATCTTGCTTTCTTGAATTATGATCCCTTTCGCGACAGAAGGTGTTCTGTGCTTGTGAATGATTTCTAA GGAACTAGTAGCTAGTAACTGAAGCTAACCATAATGGGCTATGTAGGTTGATTCTTCTATGTTACCAGGCTTTTGTTCTG CTTAAATGCCTTTTGGTGTTCAGATCTCATTAGTAGTAATGTTCTTCAATTGGTAATTGCATCATTGTGTAACTAACCTC TACTTCCATTGTGCCAATTGCACCATGCCTACCTGTACTGCACTGGGTTTCATTTGAGGAAGAATGACATTTGTGACTTA TATACGATAATGATCAATATCAGTTGGGAAATTGTAAATCCTGATTGAATTTTATGTTCACTTGCTAATTGTGTTTAAAT TAGTAATCTCATCCAAATAAAATGTTAGTTAGAATGTTCTATTCAATTTGATATGCTCGCTAGTCGTTGTTGTTTTAGGT GACCTTTTTTTTGTGGTAGTGTCGTATGCAATATAACCAAATGGAGAAGTTGATAGCTATTTAATACCTCAATTCATGTA ATGTATGATTGTATCTTTTACTTGTTTTTTGCAGGTTTATAAATTACCATCAGATCGGATTTATGCAACCTATTTTGGTG GTGATGAGAAGGCTGGTCTTGCCCCTGATACTGAGGCTAGAGATATATGGTTACAGTTTTTGCCACCTGGACGGGTGCTT CCTTTTGGCTGTAAAGTATGGTTTCGTTAATCACTATGTTTTCTCTTAAGTATGTAGAGTGGAATATGTTGATAACACAT GCAAGTTATATTTAATATTATGGTGAACATTATATGCAATATTTTGATAAAATACTTTGCAATTTCTATATTTGAAAAGA TTGTTGTAACTTGTAAGCTGCGCATAAGCATTGTTATCAAAACTGGATTGGACTATCCGGTTCGACTGGTTAAGCTAGGA ACTGATTAGGTATTTGGTCCATTTAATTCAAAAAAACCGGTTGATTCAGATTCAGTCAGAAATGGTCCACAATATGTGGA AACTGGTGGTTCAGCCCTGGTTTGAACCAATCAGTTCAACTTTTAATTTAACTTAAAATGTTTTGCAGTCAAATAAATGT CCAATGCAATGCCAAGATACGACGACATGATTATTGATTTTTATCTTATAAGACATGCAATATGCTCATTTTATATTACT TTAAATTTTGATTTGGCTTGATTTCTTAATATTTCATGTTAATTTATTTCTTAATATAATATATAATATATAGTAATAAC AGGGTTTTCACTAGTTCACAAACCAATCCAGTTTTAGAGCCATTTGTAGTGTCTGGGATTAAATTTGTGTTAAAAAAGTT TCACTTTGATACTAAGTTGTCTCTGGAGTGTATCTTTATATATAACTAGGTTTGTATGTTTTGATAGGACAATTTCTGGG AGATGGGTGATACTGGTCCTTGTGGACCTTGCACAGAAATACATTTTGACAGAATCGGTAACCGTGACGCTGCATCATTG GTTAATAATGATGATCCTACCTGCATTGAGATATGGAACCTTGTCTTTATTCAGGTATTTAATTGATTTATAGGGGGGAC TTACTCCCTCAAATGTACTTTAGAAGTTTGTATTACTAGAATCCATTTTAGCATGCAACTTCTTCAATCCCTGTAAAATG CATCTAATTTGTTTCTCTTTGTATGTCTCTTACAGTTCAATAGGGAGGCTGATGTCTCTCTTAAATCTCTGCCTGCAAAG CATGTTGATACAGGAATGGGTTTTGAACGATTGACCTCTATACTACAGAACAAAATGAGCAATTATGACACCGACGTCTT CTTGCCTATCTTTGATGCTATTCAGCTGGTAAGTTGATATAGGCATTAAAACTTTCCTTACATTTTTTTATCAGTAATTT TGTTTAGCCTTTAACTGTATGATATCTGAATTTGAAATTTTGAATTGTAATTCTTGTAATGGAGTGTTACTTATTGCCCT TGATAAAGCAATGTGTATATAGTATATACATGGTAGAGAGCCGAGAGAGGATTTCCAGATTTGTCTGGACCAACAATTAT TCCTTTCCCGAAATAAGTTTTAGTGAAACTTTCAAATATATAATCTTTGCAAGTTTATTTGAAGTGATATAAACGAGTAA TTACATGAGTGTTGAGCTCATACTCCTTGTAATCTTCATTTGTCACCATGTTTTTTCCCCTGTTTAGCAGCTTTTTGTCT TGGACATAAAAAACATGTAGTTCCCCGTAGGTCGAACCACAATAAGTTCCATGCCTGATTTTCTCATTGTTTTCTGTCTG TGGAACCTTGTTACAACTTACATTTTACTACACTACCTGTGTCTAGATTTACTTTTGCATTCACTCTTGCTGCCTCTTGT GATATTTCTACATCTTTGTACAGCTTCTTAAAGTCTACCTTAAAAGAGAATCTATTAAGCAAATTGTAAATTCTACTTGC TATTGTCAAATGCTCCTTATTATTTCAGTGTTATTAGCTACCTATATATATAGTTGACACTCAATTGTTTTGACAAGTCG TGGCTTATAACTCAATGTACTTTTTCAAATTCCATTAATGGTTGTATGGTTTTTTATTTGAATTTTTTTTGTGTAAAACA TTTAAAGGCAACTGGTGCTCGGCCATATTCTGGGAAAGTTGGAGCAGATGATGCAGATAAAGTTGACATGGCATACAGAG TTGTTGCCGATCACATCAGAACTCTGTCATTTGCTATTGCTGATGGGTCTCGCCCTGGTAGGTTATTGTAGACCTGCTAC CTTTGCTGACAATTTTTCCCTTCACAGTTCATAAATTTCGACTTTTTGGCTTCATCAATTTGCTGCCCCCCCTCGTCTTG AGCGAGGCCTGTTCTTCAAAGATAGTGTTGTACCCTGTAAAGAGATGCACTAATATGATATATTCCCTTTAACCCATTTA TTTAAGCTTTTGACCTCTATATTTTTAGTTGTCTATGTTACAAGCTGCAGAACAGTTTGTCTGTTTAACTTTATTTAACT CTCTTTCTTTGAAGATTAGCATCTCTACCTTGTATGTTTTTTTAATGATAGAGGGACTTCCCATCTTAAATATGTTATTT ATTTATTTATTTATTTTTCTTTGAAGGTAATGAGGGCCGTGAGTATGTTCTGAGGCGTATACTCCGTCGAGCTGTTCGGT ATGGACGTGAAGTGCTAAAAGCTAAAGAGGGATTTTTCAATGGGTATGTACAAGGGTTAAGCACTTCAAGCTGTTGTCAG AATCTAGATCTAAAACGTTCTTGCCTGATCCTTCATCCCAGTGATATATGAATAGTGGAAACTTATATTATCTGTTATTG TAAATTTATTTGTTTTAAAAAATCCATTTTGTTATGGGTATCTGATCATTGATTCCAGGTGTGCATAAAATTATTAACAT ACATTCTGTTTGTAAAATGCTTTTCTGTCCTCAATTTTGCTGTTTCTAGGCTTGTAAGCGTTGTGGTGAATGTGATGGGT GATGTTTTTACTGAGCTAAAACAACAGGAAGCGCACATTAGGGACATAGTTAAAGAGGAGGAGGAAAGTTTTGGCAGAAC ATTAATTAAGGTGAGGGGCATATACATCAAGATGTTTATATGGGCTTTCACTTGTCAATATCCTTGACGTCATTATTTAG TTTCTTGAAAACTTGATGTTTTACCATTTGTCAGTGGGTTGTTTTCTGATTTTTCCTTTACTCATTATATGTTTAAAAAG TAAAAATAAAGCAAAACCTAACTGTTTTTACTTCTCCAGGGGATTGAAAAATTTGAGTCATCTGTTCGACATGTTCAGGG AAAGCTTCTGAGTGGGGAGGCAAGTAGAATCTGTATTTTCAGTGCTACTTAGTTGTCATATTTGCTTATTTTCTTACATT TTTTTTCACTTTTCCTAGTTACTTATTTTTCTTGGGTTTTTGCAAGTATATGCAGAAAACATTTAATCTTTAATCAAACA AATAAATTTCTGAAATTTTTCTTTGCTCTACTTTTTTATAGTGTATTAATATTTATTGTCTTTGGAAAGTCAATTAAATG AAATTCTAATTTTTTTAGGGATCAGTACTGCTTTTTGGCATACTGCAGTTAGGTGTTAATAATTTGATGCTTATAACTTG TTAAGATCCTACATTGACTAGGGATATTGCCAAAGTAGTCCTAATAAAGGGCAAGAGGATTCTCGCCCCTAAGCTAGCTT TTAGTATAGAGCTTGACCTAGCCCAAATTCTTAAGATAACTTCTCAGTTCTCTCCAGGGCTGTGTTAATGAGTTCATTTT TTGGGTAGTATAAGACTGTTGTAATGAAAGAGCAAGTATTAGAGTAATATAGTTACTGCTATGTTAGTGTTACTGTTTAG TGTTATTAGGTAAATGCTGACTGCTATGTTAGTGTTACTGTTTAGTGTTATTAGGTAAATGCTGACTGTGTTCTGTTCAG TTAGTTATGCCTAGCTGGCAGGTTTGTTAGAGAGTTAGTTACATGCTTAGCTGTCAAAGCTTAGCTGTCAAGGTTAGTTA GAGTTAGCTTCTTCTGCAAGCTAACAAATCTCATAGTATAAATACTGTAATCTCTCTTGTATTCATCATCTTTTCAATCA ATGAAATTCAGTTGAAGATTTTCAACATGGTATCAAGAGCTGAGTACGATCCTTGAAGATCTCTCTCTCTAGATTTTCGT TTTTCTTCTTTCTTCTTCAATCACCATGGCTGATGAAGGTCATGCACAAGGAACTGCAGTTCCTGTTCCAGTTGCGGTTC TTCAACCACAATTGGCCTCTTCTTCTCTGGTTCACAAGCTTGTTCTGAAGCTTGATGATTCCAATTTTCTCTCATGGAAG CAGCACGTTGAAGGCATCGTTAGAACTCATCGATTGCAGAATTTTCTTGTTCATCCTGATATTCCTCCTCGATTTCTCAG TGAGGAGGATCGCGTGAATGCAGTAGAGAATCCTGCATATCAGGTATGGGATCAACAGGATTCTGCTTTGTTCACCTGGC TTCTCTCGTCTCTGTCTTCATCAGTGCTTCCAACTGTTGTCAACTGCACTCAGTCCTGGCAGATCTGGGAAGCTGTGCTT GATTTCTTTCAAGCACAATCGCTTGCACAATCGACGCAGTTGCGATCGGAATTGAGATCCATAACCAAGGGATCAAAGAC TGCGTCTGAGTTCCTCAAGCGAATCAAGGCCATCGTCAATGCTCTGATCTCGATCGGAGATCCTGTATCGTTTCGCGAGC ACCTTGAAGCGATTTTTGATGGTCTTCCCGATGAATATAGTCATCTCATGACTATCATCTACAGTCGCGAGTTCCCTTGC ACGATCTCGCAAGCTGAAGCTATGGTTATCTCGCATGAAGCGCGTCTTGAGCGTTCTCGCACGCGTCAGTTGAGTGCGAA TCCTCCGTCAGCGCTCCTTTCTCAAGCTGCGCCACCGGCGACGCAACCTGCACCGGCGTCGTCGTCTTCTTCATCAACGT CGTCGCCGGCGACCTCTGAGGCTAACTATGCTTCAGGTTCCTCTGAAAACACCTACGATGATCGTTCCTATGATAATCGC GGCAGTTATGGTGGTTCTCGTGGTGGTTATGGTGGTCGCAATGGCAGTAACAACTCTCGCGGTGGAAGAGGAGGAAATCG AAGTGTTCAATGCCAGATTTGCAAGAAGTATGGGCATGATGCTAGTGTTTGCTATCATCGCGGTTCATCATCTGGTTCTA CTGGTTCTACTGGCATGTTTGGCATGCAGCCAACTGGTTTTGGTATGCCACTACCTATGCATTCTCAGATGATGCCTCAG TTTGGATTCTCTCCCTTTTGTGGTGTTCCACAGTTTGGTGTACCTTCTCAGTTTGGTACATCACAGTATGGAGGCTTTCC AAACATGTTTGGTCAATTTCCTCAAGGTTTAGGCATGGGAAATTTTGCTCAGCAGTTTGGTTTCCAACCATCTGGAGGTT CACAGTGGAACTCTTCTCAGTTTTCTGGTGGATCAAGACCTGGAAATCCTCCAGTTAGAGCTCCACAGGCTATGCTTACT GGACCTACTTCATCTACTACTGGTTCTCACACTCCTGCTGCAGCGAATCTTAGCTCATGGTTTCCAGATTCTGGAGCTAC ACATCATGTTACCAATGATGCCTCAGTTGTTTCTGACAGTGTTTCCCTAAATGGTAATGATCATATCTACATGGGAAATG GACAAGGTTTGCCTATTATTTCTGTTGGACATGCCTCTTTTCCATCTCCTTATCATAAACACACCACACTCACTATGAAT AATTTGCTTCTAGTTCCTAACATCACAAAGAACTTAGTTAGTGTAAGCAAGTTTGCTCGAGATAATCATGTCTTTTTTGA GTTTCACTCATCCTACTGTGTTGTCAAATGTCAGGAAACTTCTAGGGTTTTGCTCAAAGGAACTGTTGGTCCTGATGGTT TATACAATTTTGAAGGGATGCATGTTCCAACCCTTCCTCCAGCTTCATCTGTTTCATCTACATCTGTTTCACCAGTAGCT GCTCCATCTGTCTTCTCTGTTTCAGTTCCTTTGTCAAATGTATCTAGTGCTAGTTCATCTTCAAGTGTACCTAGTGCTAG TTCATTTTCTCTTGTGTCTTCTGTTAATAATGTAGATCCTACTGCCTATGATTTGTGGCATTGTAGGCTAGGTCATCCTC ATCATGAGGCTTTACATTCTGCTTTGTCCAAATGTAATATATCCTTGTCTAATAAAGCAAAATTTTCTAAATGTTCAGCT TGTTGTGTAGCAAAGTCTCACAAGTTACCCTCTTCCTCTTCTACTACTGTTTATGCTACACCTTTAGAGCTTGTTTTTGC TGACTTATGGGGCCCTTCCTCCATTGAGTCTTCTTGTGGTTACTCTTACTTTTTAACTTGTGTTGATGCTTACTCTCGTT TCACATGGATTTATCCACTTAGGCACAAATCTGAAACTTCCCCTGTTTTTCTTCAGTTCCAAGCTATGGTAGAGTTAAGA TTTAATCTGAAAATTAAGGCTGTCCAAACAGATAATGGCACTGAATTTAAACCTTTACAATCTCATTTTGCTAAGCTTGG CATAGTGCATAGATTGACTTGCCCCTACACACACCATCAAAATGGTAGTGTTGAAAGGAAGCATCGCCATATCATAGAAA CTGGCCTTTCATTACTTGCCTTTGCTAAAATGCCTTCTCAATATTGGGATCATGCATTCCTGGCTGCAGTTTTTCTTATT AATCGTCTTCCTACTACTGTTTTGGCCAATGAGAGTCCTTATTTCAAGTTGTTCAAGACTCTTCCTGATTACAAGATACT TAGGGTGTTTGGTTGTGCTTGTTACCCTCACTTAAGGCCTTATACACACTCTAAGCTGTCACTCAGGTCCAAGGAATGTG TGTTTGTTGGTTACTCATCATCTCATCAAGGGTACAAATGCATGGATGGTGATGGTAGGATTTTTGTGTCAAGGGATGTT ATTTTTGATGAAGTTAAATTCCCCTATCCTACCCTGTTTTCCTCTGCTGGGTCTGATTCATCTGCACATGGAATCACTTC AGAAATTCCTGTTTTAGCTTCTCAAGTTCCTGTTCAGCACCAGCAGCCCTTTCAAGGTCAAGACTCGGTTGCAGCCTCTT CTTCTGGGAATTCTTCTCAGGCTGAAGCTTCTGTTCAGCAACAATCTCCACCTACACCAGCAGCTACTGCCACTGAAGTA GCTTCAACTGGTTCTTCCTCTTCTGCTCCTCTTCCTCAGCCAGTGGGAAATACTCACCCTATGCAGACAAGAGCAAAATC TGGCATAGTCATGCCCAGATTATTTCCAACTTTACTGCTTACTCAAGCTGAACCAGCTACCACCAAGCAAGCACTCAAAG ATCCTAAGTGGTTAGCTGCAATGAAGGCTGAATATGATGCATTGCTTGCTAACAATACATGGACATTGGTTCCACTTCCC AGGGATAGGAAGCCAATTGGTTGTAAATGGGTTTTTAGGGTGAAGGAAAATGCAGATGGCACCATCAATAGGTATAAGGC CAGACTTGTGGCCAAAGGTTACCATCAAGTCAAGGGGTTTGATTATTCAGAAACCTTTTCCCCTGTGGTGAAGCCTATAA CTATTAGGCTCATTCTTTCCCTGGCCATTACTAAGAGGTGGCATATTCATCAACTTGATGTGAATAATGCCTTTTTAAAT GGAGCTCTTCAAGAGGAGGTATACATGCAGCAACCAAGTGGATTTCAGCATGAAGACAAATCTCTTGTTTGCAGACTTAA CAAAGCTCTTTATGGCCTTAAACAGGCCCCAAGAGCTTGGTTTGACAGATTGAAGTCAGCCCTTGTGAAGTATGGTTTTA AACCAAGTAGATGTGATCCATCTCTCTTCACTTTCTACACTCCAACTTGCTGCATCTACATACTAGTCTATGTAGATGAT ATTATCATTACAGGCAATTCCTTGCCTCTGGTTCAGAAAGTAGTGCAGAACCTCAACTCTGAATTTTCCTTGAAGCAATT AGGCCAACTTGACTACTTTCTTGGTGTTCAGGTGCATCATCTTCAGGACAGGTCCTTGCTTTTGACACAAACTAAATATA TAACTGACCTTCTTGAAAGGGCAGAAAAGGGAGAGGCCAAGGGGATCTCTACTCCCATGGTTAGTGGAGCAAAACTCAGC AAATATGGAGCAGATTACTTTGCTGACCCAACTCTCTATAGATCAATAGTTGGTGCTCTCCAATATGCAACTTTAACAAG ACCTGAGATCAGCTTTGCAGTTAACAAGGTCTGTCAGTTTCTAAGTCAGCCTCTAGAAGAGCATTGGAAGGCTGTTAAAA GAATCCTAAGATACCTTAAGGGTACTCTCTTTCATGGCCTGCACCTCAAGCCTTGTAGTTTGCACACTCCAGTCCCTCTT GTGGCCTTTTGTGATGCAGATTGGGGATCAGATCCTGATGACAGGAGATCCACCTCAGGCTCTTGTGTCTTTTTTGGTCC AAACCTTGTCTCTTGGAGCTCCAAGAAGCAAACCCTGGTGGCTAGATCGAGTACTGAAGCCGAATACAGGAGCCTAGCTA ATACCTCTGCTGAACTGTTGTGGGTTCAGTCTCTTTTGCAGGAGTTGCAGATTCCTTTTTCTCCTCCTAGGGTGTTTTGT GATAACATGGGTGCAGTGGCTTTGACTCATAACCCAGTTCTTCACACTCGCACTAAACATATGGAGCTTGACATCTTCTT TGTGAGGGAAAAAGTTCTCAACAAGTCTCTTTTTGTGCATCACATTCCTTCTGTTGATCAGCTGGCAGATTTGTTTACCA AGGCTCTATCACCACTTCGTTTTGAAACTCTTCGTGACAAACTCAATGTGATTGAGAAATCACTTTCTCCCCCACCTTGA GTTTGAGGGGGCCTATTAGAGTAATATAGTTACTGCTATGTTAGTGTTACTGTTTAGTGTTATTAGGTAAATGCTGACTG CTATGTTAGTGTTACTGTTTAGTGTTATTAGGTAAATGCTGACTGTGTTCTGTTCAGTTAGTTATGCCTAGCTGGCAGGT TTGTTAGAGAGTTAGTTACATGCTTAGCTGTCAAAGCTTAGCTGTCAAGGTTAGTTAGAGTTAGCTTCTTCTGCAAGCTA ACAAATCTCATAGTATAAATACTGTAATCTCTCTTGTATTCATCATCTTTTCAATCAATGAAATTCAGTTGAAGATTTTC AACAGCAAGGAAAGTACAATTAAGATGTCAAGATATCCCCCCATAATAAAATCAAAATATAACGTTGTGTTGTTAACAAA TTGTCGAAACAGACATTTCTCTAATTGTTGCAAATTTTTGGCAAGTGTCTTCCTCTGATTCCAGGGTTTATGCCATTATA ATTTTCCCATATGTTGGCCCTGAGTATAACAGATTTTTTTTTTGATGTTTTATCCAAAACATACAACTGCACATATTTTA TCATATTGGTGACGAAGTTGCAGTTGAATCTTATACCTGATAATGCATGATTACACAAGTGTTTGATTCCATTTGAATAA GTGTCAATGTGTCATATAACTTAATATATTGATTTCCTTAGTTTTTTGTGAATAGGCCCACCCTAAGCTATTTCTCATGC AGCTGTCTCTTGATTACAGGAAGCATTTGTCTTGTGGGATACATTTGGGTTCCCGTTAGATCTGACTCAGGTAGGTGGTT TGTTTCACTGTAATAACATATGGAATTGGAATTGTAGATCTACTATGCCTTATTATTTTTCCTTAACAATTTTCTATTTG TCAGTTGATGGCTGAAGAAAAGGGATTACTTGTTGATGTGGAAGGTTTTAATAGTGCCATGGAAGCTGCAAGAGAGAGAT CAAGAAATGCTCAAACAAAGGTATCTTGGTTTTTTGAATTTATCTTTGAAGTTTCTTCTGAATTTTTAAGACACTCATCA AATCTCAAGTATAAACAAAAAAAATGACTAAAAATTAAACTCATTCATTCTTTTTCCCCTGCTCCCTTTCAAACTTTCTT GTGTTATTTTCAGCAAGCTGGTGGTGCCATTGTCATGGATGCTGATGCTACCTCTGCATTGCACAAAAAAGGCATTCTCC CAACAGATGATAGCTTCAAATATGTTTGGTTCAAGGTAAGAATTTTGTTTTTTTTAGGAGGGGGATTTAAGACAATTTAA TAGTGAAGGAGGTGACCAAGGGATAAGAACAGTTTTTTTCCATTTATAACCATACCATAAAATTTAAGAGTGAAGTCATA CATAAGAGGCTTCCTGAATTCACGTAATGTGAACATCACTAGAACAATTCTGAATGCCTAACTTATACAACTACAAGCAC TCCATTTCAGCCACTGACACCAAAGTCAATTATGAGTACTGCATTTACGTGAACTGAAGTTTTTATGCCCCTTGTTCTAG CCAAAATCCTTTTCTTTGTTGGACTTAAAACTAGCCTCCCAATTTACTTAATGTTGCTCTTAGTACCCAAATCCCAGCCC CTTACCAAAAGGAAGTCGCTTTTGATCTTCTCTATTATATATCAGCTATTGAATATAGAAAAGCGTGAAGGTATACTAGA TGTAGAAGGTTTTGATCTTCTCTATGTATTGACTTGTGGTTATAGGTTGAGCCGTTGCATTAGACTCCACGCTATCTGTT TATCCACTTGATATTCTTTATAAACCGACTACCCTGCCTTCCATTGATATATAGTCTTCTCCATTTCTTTTCTCAGGACC ATCAGAGTGGGGTAAAAGCAATATATACTGGTTCTGAGTTTGTGGATTCTGTTAATACTGATGGTGACATCGGTGTTATT CTGGAATCTACAAGCTTCTATGCTGAGCAAGGTGGTCAGGTATTAAGCCTTGCAAATAGTTTATATTTATTTTGCATGTT CGTTTGATTTGCTTTAATTAAAAGTTATGTTAGTCATTTGTTCACTTATAAACTTACTTTTGGCAATTAAATATGATGAA GTTTCTGGAACATATTTGTTTTATTTTTAAATTTTTGTTTTCTTCTACAATTTATACATAGTTTTAATCCATCTGGTTTT CAAATTTATCTAACTTCCTCCTCTTGATGAAGTCAGTCAACAGATTTTACTAACAGCTGCATAATATATTATATAATGGG AATCATATTGAATGGCTGACAAATTCTTTGAATGGTATAGGTGTTGCTGTCAGCCATCTTTGTGTGTAGCATTTTGCTTT CTTGTTCATGAAATAGTGTAGATGCATGAGTATGAATCTTAAGAAGGACAATGGCTGGCCTACTGTGGTTATTCGTATCC ATTACCTTGCTTGTATGATGAGCTAAAGAGTTTATTATAAAAATCTAAGTTTAGAGGAAAATTAGTAAGTATGACATCGT TTATGATAGAAGAAAGTAATAATTGGATACTTGGTGTAGAAGTTATTTCATCAAGATTTCATCTTTTAAAGGATTTAATG ATTATGGTATATAAAGTGATTTATTTCTTTGATATTTATGTAAACCAAAAGCTATTTTACATTTTGTTATAATTATAATA AATATGGTTTCCCCTTAATATTGTCTCTCATATATTGTAACAGCTTTTTTCTGAAAACTACTCAAAGTATCTTATTGAAT AAAGCTTATCCAGACACCTTAAAAAATTTCAAAACAAATTTTTTAATATTTTTTTTTCGAGAAAAAGGCTTACACAAACA GATTTTAAGTTTAACAATTAACGTAGCAAATTTCAAGCAATAGAAATCATTGTAATATAATAGAAGAGTGTTTTGGCAAT GCAAAACTTAAATGTAACTAAAACATTTGTAATATAAGTTTATAAGACGTTTTGAATTATGATAAATCAGGATACTATTG ATTTTGCTAAAAGAAATTAAGCAAATTGGCTATATTCTTCAATGTGGACAAATTGACAAAGGACCACTAGTTGAAAAACA TAAAGAAAATATTCCACTCCCAAAATTTATCAATATTATGTATGTGATGCATTTTCCCTTTTCATTTACTCAGATTTTTG ACACTGGATCACTTGAGTGTCAACATGCTTCATTTCAAGTTCGTAATGTTCAAGTTTTTGGAGGCTTTGTCCTTCACATT GGTAATGGAACTGGTATCTCTGTTGGTGACAAAGTAGTATGTAAGGTATTGTTTTTCCTTTTCCCCGTTTTGCTTCAAAT TCCTCTTTCTTTCGTTATTTTTGTTACTTTTTTGATGGTTTGTAGTTGTCTTTATTTATGTATGATCTTTCATTGCTGTT TCAGGTTGACTATGGAAGACGTGCCCTTATAGCCCCAAACCATACCTGCACACACATTTTAAATTTTGCTCTTCGGGTAT GTTGAAAGTGCCCTTCAATGAAGCCTCACTAATACTTTCACTTACCTGTGTGGTGATTGTTGAAATTTCAAATGATGAAT GCAGGAAGTACTAGGTGATCATGTTGACCAGAAAGGATCTATTGTTCTTCCTGAAAAATTGAGATATGATTTTTCTCATG GTAAGATTTATTCAGTAGGTGTTAGAATAATGTGACTGTGAAGAGTTATTATTTACTACGCTGCAATAATAGGCAAGCCT GTTGATGCTGATAACTTGAGGAGAATCGAGTCAATTGTTAATGAGCAAATAAAAGCTGAATTGGATGTAAATGCAAAGGA GGTTACTCTTGCCGATGCCAAGCGAATCAATGGTTTGCGAGCTGTTTTTGGAGAAGTAAGTAACATAATTTCACTGAACG TTGTTGCTCATCCAGGATCTTGTTCTTCAATATTCTGCTCTGATGTAGGTCTATCCTGATCCGGTTCGAGTTGTATCAGT TGGAGAAAAAGTTGAGGATCTCCTTGCTGATCCCGGGAATGATAAATGGTTATCGATATCATCAGAATTATGTGGCGGTA AATATGATAGCTAATACTTCCTTTGAAACTTCCTTTCTGAGTTTCTGTTTGAGATTTCATTTTTACTTGATCTAGGTACC CATATTTCAAACACACGTGAGGCTAAAGCCTTTGCACTTTTGTCTGAGGAGGGAATTGCAAAAGGAATCCGCAGAATAAC AGCTGTTACAACTGAGCGTGCTTATGACGCAATGAAAACGGCCGATGAATTTGAGCAGGAAGTAGATCATGCAGCTAAAT TAGAAGGAAGTTTGCTGGAAGAGGTTGGTGTCTTGTGTGTGGTTTCTTTTTGTTCTATTGCATTAGGCTTGTGTTTTTTC CCATTCTAGTTGCTTTGGCCTGTTCAACCAATTGGACCTTGAATTCAAACGGACTCATAAAATGACAACTCTGAACCTAA GATGAAGAAGGTCTATTGGAGCCTCTTCAATATACTGGAAAGCATTGAAATACTCACGAAAATGAAAACCTCATCGTTTT GCGTTCCTGAGACACTAGTAGTTGCTCCCTTATACATTTCTTTGATTGCTCAAATACAACCAGTCCAAACATTTTTCTTT TCAAGAGCCTTTTACAAAACCTTTAAACAATTCTAGTTAGACTATCATGTATTCTAATAAACTCAACATTTTTTCCCAAC TCCTTTACTCTATTCGAACATGTATTTTAATTGATTTGTCTGTGCTGGGCTTTGGGAGTATGATGACCGAAGCTGGTAAC ACCTGAACACACTCACATGATTCTCTCTTGCTCTCTTTCTTTTTCTTTGCATTATTGACACTGATTTTTGTAGCAGGCAG ATTTGCAGAGTATGCTTCTTTTCCAAAATTGTAATTAGTGGACTTGCTATTTTCCCTTTTGTCACAGAAAGTTTCATATC TGAAAAGCAATGTGGAAACATTATCAATTCCAGCAGCCAAGAAAGCTGACATCAAGACCAAGATAGCCCGGCTTCAGGTA TAATATATAATGGAATAAATTATGGTCTTTATGCCTTCTCCCCTGTTGCACTATTGTATCTTTTTTAATTGATGTGCTTT CATTTGCTCATGAATGAAGTCTTGTATTATAATAATATCATAATTCACGTAGGATCAAGTGAGAAAAGCACAAAAGCAGG TTGCCGAAGAGAACAAACGTAAAGCTGTAACAATCACAGTTGAGAAGGCTGAACTCGCTGCTTCAGACGGGAAAAAATTC TGCATATCTCATGTTGATGTTGGTCTGGATGTAGCTGCAGTTCGTGAGGCCGTTACGAAAGTCATGGACCAGAAGGTATT TGCTTATTTTTAATGTATTTAGAAACTATCTTGGTCTTCAGCATTGTATTATGTTGGTCTTGTTTTGGAACTCCATGAAG TCACCTTGTGTCCTCAGCAATTATATTTCCTGTTAACTTCAAATAGTAACTTGTAGCTATGCTGGCTTATGAACAGGGGT TATCCGTGATGGTTTTTAGCACTGATAAATCTACCAACAAGGCTGTTATTTGTGCTGGGGTTCCGGAGAAAGGAGATAAA GGTAAGCTAGATGTGTCAGAGTGGCTGAGTAATGCTTTGGAGCCACTAAAAGGGAGATGTGGTAAAGGAAAAGGTGGTCT TGCAACAGGACAGGTAAGTATTTGTGTGATTACAAATTGTCACGTTTTTAGTAAATATACTAATAATTGCTATTATGGTA TGGGAATATTTAATTCTTGCATATATCTTTGATATTCAATAATTTATACCACTTTAAGCATTAGAAGTAGTGGTTTGAGG ATTGTGCTCAGGATCTGCTTGTAGGAGGAACTTCAAAAAAAAGGGTTGGGGGGTTTCCCTAAAATACGGTTCTCACGTAT ATCAGCATCAAATATTTAACTAGGCTCCTAAACAACTTTCATTTCGATTAAATGATTTTTGGGATCTAATCCTCCAATTC CGCCATGGACTGTGTTAATCTTTCTTGCTTATGATATGAAGAATATGGTCATGATATTGCTGTCGATTGTATTTTAGACT TGATTTCAACAATCATAGTAGCAATTTGGTTGCTTACTTAGTAGGTTCAGAAATGTTAAATTGAAATTGGCTTAATATAA TTTACCATGAATATGAGTTGACTGGAAGTTATCCTTATTTCGTACCAAACATGTAGAAAATGTACATGAATTTCGCATGT GGCATGTTGTATTAGAGATCATACTGATTTTGCTTACGCTCTATTGTTTTCCAGGGTACCGATGCTTCACACGTAAATGA GGCTATGGACTTTGCTACAAAATTTGCATCCATGAAATTAACTTAA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0527600.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAAAGAGGACACTACTTGACTCTGCTCATATCCTCTCTTCGTAACCGTAACCCTCCTCCGTTAGCGCCGCCACCTTC ATTCCATTTTCGCGGCGTCTCCTCCTCTTCCAGATCTCCGGCCACCGCCATGCCTGGACCAGACGCTCTCGATTTGGAGT GGCCGGCGAAGCGCGTCAGAGACACCTTCGTCAACTTCTTCAAGGAAAGCAAGAACCATGTGTACTGGCAGTCTAGCCCT GTCGTTCCCTTCAACGACCCCACCCTCCTCTTTGCCAACGCTGGTATGAACCAGTTCAAGCCAATATTTCTGGGAACTGC TGATCCAAACACTGACTTGAGCAAGCTGTCTCGTGCTTGCAATACCCAAAAATGCATACGAGCTGGTGGTAAACACAATG ATCTTGACGATGTAGGAAAAGATACCTACCATCACACCTTCTTTGAGATGCTCGGCAATTGGTCGTTTGGGGATTACTTT AAAACAGAAGCCATTGGCTGGGCGTGGGAACTTCTAACCAAAGTTTATAAATTACCATCAGATCGGATTTATGCAACCTA TTTTGGTGGTGATGAGAAGGCTGGTCTTGCCCCTGATACTGAGGCTAGAGATATATGGTTACAGTTTTTGCCACCTGGAC GGGTGCTTCCTTTTGGCTGTAAAGACAATTTCTGGGAGATGGGTGATACTGGTCCTTGTGGACCTTGCACAGAAATACAT TTTGACAGAATCGGTAACCGTGACGCTGCATCATTGGTTAATAATGATGATCCTACCTGCATTGAGATATGGAACCTTGT CTTTATTCAGTTCAATAGGGAGGCTGATGTCTCTCTTAAATCTCTGCCTGCAAAGCATGTTGATACAGGAATGGGTTTTG AACGATTGACCTCTATACTACAGAACAAAATGAGCAATTATGACACCGACGTCTTCTTGCCTATCTTTGATGCTATTCAG CTGGCAACTGGTGCTCGGCCATATTCTGGGAAAGTTGGAGCAGATGATGCAGATAAAGTTGACATGGCATACAGAGTTGT TGCCGATCACATCAGAACTCTGTCATTTGCTATTGCTGATGGGTCTCGCCCTGGTAATGAGGGCCGTGAGTATGTTCTGA GGCGTATACTCCGTCGAGCTGTTCGGTATGGACGTGAAGTGCTAAAAGCTAAAGAGGGATTTTTCAATGGGCTTGTAAGC GTTGTGGTGAATGTGATGGGTGATGTTTTTACTGAGCTAAAACAACAGGAAGCGCACATTAGGGACATAGTTAAAGAGGA GGAGGAAAGTTTTGGCAGAACATTAATTAAGGAAGCATTTGTCTTGTGGGATACATTTGGGTTCCCGTTAGATCTGACTC AGTTGATGGCTGAAGAAAAGGGATTACTTGTTGATGTGGAAGGTTTTAATAGTGCCATGGAAGCTGCAAGAGAGAGATCA AGAAATGCTCAAACAAAGCAAGCTGGTGGTGCCATTGTCATGGATGCTGATGCTACCTCTGCATTGCACAAAAAAGGCAT TCTCCCAACAGATGATAGCTTCAAATATGTTTGGTTCAAGGACCATCAGAGTGGGGTAAAAGCAATATATACTGGTTCTG AGTTTGTGGATTCTGTTAATACTGATGGTGACATCGGTGTTATTCTGGAATCTACAAGCTTCTATGCTGAGCAAGGTGGT CAGATTTTTGACACTGGATCACTTGAGTGTCAACATGCTTCATTTCAAGTTCGTAATGTTCAAGTTTTTGGAGGCTTTGT CCTTCACATTGGTAATGGAACTGGTATCTCTGTTGGTGACAAAGTAGTATGTAAGGTTGACTATGGAAGACGTGCCCTTA TAGCCCCAAACCATACCTGCACACACATTTTAAATTTTGCTCTTCGGGAAGTACTAGGTGATCATGTTGACCAGAAAGGA TCTATTGTTCTTCCTGAAAAATTGAGATATGATTTTTCTCATGGCAAGCCTGTTGATGCTGATAACTTGAGGAGAATCGA GTCAATTGTTAATGAGCAAATAAAAGCTGAATTGGATGTAAATGCAAAGGAGGTTACTCTTGCCGATGCCAAGCGAATCA ATGGTTTGCGAGCTGTTTTTGGAGAAGTCTATCCTGATCCGGTTCGAGTTGTATCAGTTGGAGAAAAAGTTGAGGATCTC CTTGCTGATCCCGGGAATGATAAATGGTTATCGATATCATCAGAATTATGTGGCGGTACCCATATTTCAAACACACGTGA GGCTAAAGCCTTTGCACTTTTGTCTGAGGAGGGAATTGCAAAAGGAATCCGCAGAATAACAGCTGTTACAACTGAGCGTG CTTATGACGCAATGAAAACGGCCGATGAATTTGAGCAGGAAGTAGATCATGCAGCTAAATTAGAAGGAAGTTTGCTGGAA GAGAAAGTTTCATATCTGAAAAGCAATGTGGAAACATTATCAATTCCAGCAGCCAAGAAAGCTGACATCAAGACCAAGAT AGCCCGGCTTCAGGATCAAGTGAGAAAAGCACAAAAGCAGGTTGCCGAAGAGAACAAACGTAAAGCTGTAACAATCACAG TTGAGAAGGCTGAACTCGCTGCTTCAGACGGGAAAAAATTCTGCATATCTCATGTTGATGTTGGTCTGGATGTAGCTGCA GTTCGTGAGGCCGTTACGAAAGTCATGGACCAGAAGGGGTTATCCGTGATGGTTTTTAGCACTGATAAATCTACCAACAA GGCTGTTATTTGTGCTGGGGTTCCGGAGAAAGGAGATAAAGGTAAGCTAGATGTGTCAGAGTGGCTGAGTAATGCTTTGG AGCCACTAAAAGGGAGATGTGGTAAAGGAAAAGGTGGTCTTGCAACAGGACAGGGTACCGATGCTTCACACGTAAATGAG GCTATGGACTTTGCTACAAAATTTGCATCCATGAAATTAACTTAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0527600.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKRGHYLTLLISSLRNRNPPPLAPPPSFHFRGVSSSSRSPATAMPGPDALDLEWPAKRVRDTFVNFFKESKNHVYWQSSP VVPFNDPTLLFANAGMNQFKPIFLGTADPNTDLSKLSRACNTQKCIRAGGKHNDLDDVGKDTYHHTFFEMLGNWSFGDYF KTEAIGWAWELLTKVYKLPSDRIYATYFGGDEKAGLAPDTEARDIWLQFLPPGRVLPFGCKDNFWEMGDTGPCGPCTEIH FDRIGNRDAASLVNNDDPTCIEIWNLVFIQFNREADVSLKSLPAKHVDTGMGFERLTSILQNKMSNYDTDVFLPIFDAIQ LATGARPYSGKVGADDADKVDMAYRVVADHIRTLSFAIADGSRPGNEGREYVLRRILRRAVRYGREVLKAKEGFFNGLVS VVVNVMGDVFTELKQQEAHIRDIVKEEEESFGRTLIKEAFVLWDTFGFPLDLTQLMAEEKGLLVDVEGFNSAMEAARERS RNAQTKQAGGAIVMDADATSALHKKGILPTDDSFKYVWFKDHQSGVKAIYTGSEFVDSVNTDGDIGVILESTSFYAEQGG QIFDTGSLECQHASFQVRNVQVFGGFVLHIGNGTGISVGDKVVCKVDYGRRALIAPNHTCTHILNFALREVLGDHVDQKG SIVLPEKLRYDFSHGKPVDADNLRRIESIVNEQIKAELDVNAKEVTLADAKRINGLRAVFGEVYPDPVRVVSVGEKVEDL LADPGNDKWLSISSELCGGTHISNTREAKAFALLSEEGIAKGIRRITAVTTERAYDAMKTADEFEQEVDHAAKLEGSLLE EKVSYLKSNVETLSIPAAKKADIKTKIARLQDQVRKAQKQVAEENKRKAVTITVEKAELAASDGKKFCISHVDVGLDVAA VREAVTKVMDQKGLSVMVFSTDKSTNKAVICAGVPEKGDKGKLDVSEWLSNALEPLKGRCGKGKGGLATGQGTDASHVNE AMDFATKFASMKLT

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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	21	48	28	-	–
PANTHER	PTHR11777 View details on PTHR11777 Search for proteins/transripts with this domain View external data on PTHR11777	35	973	939	0.0	–
PANTHER	PTHR11777:SF32 View details on PTHR11777:SF32 Search for proteins/transripts with this domain View external data on PTHR11777:SF32	35	973	939	0.0	–
Hamap	MF_00036_B View details on MF_00036_B Search for proteins/transripts with this domain View external data on MF_00036_B	54	973	920	131.412	IPR023033 Show description in modal box View details on IPR023033 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50860 View details on PS50860 Search for proteins/transripts with this domain View external data on PS50860	54	780	727	115.075	IPR018165 Show description in modal box View details on IPR018165 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.930.10 View details on G3DSA:3.30.930.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.930.10	54	304	251	5.6E-119	–
CDD	cd00673 View details on cd00673 Search for proteins/transripts with this domain View external data on cd00673	56	303	248	8.32611E-133	–
SUPERFAMILY	SSF55681 View details on SSF55681 Search for proteins/transripts with this domain View external data on SSF55681	56	307	252	4.22E-96	–
Pfam	PF01411 View details on PF01411 Search for proteins/transripts with this domain View external data on PF01411	59	435	377	4.2E-163	IPR018164 Show description in modal box View details on IPR018164 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00344 View details on TIGR00344 Search for proteins/transripts with this domain View external data on TIGR00344	59	951	893	3.5E-242	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00980 View details on PR00980 Search for proteins/transripts with this domain View external data on PR00980	133	144	12	2.7E-30	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00980 View details on PR00980 Search for proteins/transripts with this domain View external data on PR00980	261	272	12	2.7E-30	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00980 View details on PR00980 Search for proteins/transripts with this domain View external data on PR00980	288	301	14	2.7E-30	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF101353 View details on SSF101353 Search for proteins/transripts with this domain View external data on SSF101353	308	487	180	4.97E-53	IPR018162 Show description in modal box View details on IPR018162 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00980 View details on PR00980 Search for proteins/transripts with this domain View external data on PR00980	345	361	17	2.7E-30	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00980 View details on PR00980 Search for proteins/transripts with this domain View external data on PR00980	369	382	14	2.7E-30	IPR002318 Show description in modal box View details on IPR002318 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01411 View details on PF01411 Search for proteins/transripts with this domain View external data on PF01411	437	608	172	6.6E-42	IPR018164 Show description in modal box View details on IPR018164 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.40.30.130 View details on G3DSA:2.40.30.130 Search for proteins/transripts with this domain View external data on G3DSA:2.40.30.130	528	606	79	3.3E-11	–
SUPERFAMILY	SSF50447 View details on SSF50447 Search for proteins/transripts with this domain View external data on SSF50447	534	606	73	3.88E-12	IPR009000 Show description in modal box View details on IPR009000 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55186 View details on SSF55186 Search for proteins/transripts with this domain View external data on SSF55186	606	780	175	6.15E-44	IPR018163 Show description in modal box View details on IPR018163 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.980.10 View details on G3DSA:3.30.980.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.980.10	610	766	157	1.0E-46	–
Gene3D	G3DSA:3.30.54.20 View details on G3DSA:3.30.54.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.54.20	678	748	71	1.0E-46	–
Pfam	PF07973 View details on PF07973 Search for proteins/transripts with this domain View external data on PF07973	708	766	59	1.1E-17	IPR012947 Show description in modal box View details on IPR012947 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00863 View details on SM00863 Search for proteins/transripts with this domain View external data on SM00863	708	767	60	1.4E-20	IPR012947 Show description in modal box View details on IPR012947 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	820	847	28	-	–
Pfam	PF02272 View details on PF02272 Search for proteins/transripts with this domain View external data on PF02272	829	968	140	9.7E-14	IPR003156 Show description in modal box View details on IPR003156 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.10.310.40 View details on G3DSA:3.10.310.40 Search for proteins/transripts with this domain View external data on G3DSA:3.10.310.40	861	969	109	2.2E-5	–

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: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:0003676 View details of GO:0003676 AmiGO InterPro QuickGO	Molecular function	Nucleic acid binding	Interacting selectively and non-covalently with any nucleic acid.	Subterm of View details of GO:0097159 View details of GO:1901363
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:0004813 View details of GO:0004813 AmiGO InterPro QuickGO	Molecular function	Alanine-tRNA ligase activity	Catalysis of the reaction: ATP + L-alanine + tRNA(Ala) = AMP + diphosphate + L-alanyl-tRNA(Ala).	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:0005737 View details of GO:0005737 AmiGO InterPro QuickGO	Cellular component	Cytoplasm	All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures.	Subterm of View details of GO:0044424
GO:0006419 View details of GO:0006419 AmiGO InterPro QuickGO	Biological process	Alanyl-tRNA aminoacylation	The process of coupling alanine to alanyl-tRNA, catalyzed by alanyl-tRNA synthetase. The alanyl-tRNA synthetase is a class-II synthetases. The activated amino acid is transferred to the 3'-OH group of an alanine accetping tRNA.	Subterm of View details of GO:0006418
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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0527600.2, 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…

LotjaGi3g1v0527600.2