Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0224700
Transcript ID	LotjaGi1g1v0224700.8
Related isoforms 11	LotjaGi1g1v0224700.1 LotjaGi1g1v0224700.2 LotjaGi1g1v0224700.3 LotjaGi1g1v0224700.4 LotjaGi1g1v0224700.5 LotjaGi1g1v0224700.6 LotjaGi1g1v0224700.7 LotjaGi1g1v0224700.9 LotjaGi1g1v0224700.10 LotjaGi1g1v0224700.11 LotjaGi1g1v0224700.12
Lotus japonicus genome version	Gifu v1.2
Description	Glutamate synthase, putative; TAIR: AT5G53460.1 NADH-dependent glutamate synthase 1; Swiss-Prot: sp\|Q03460\|GLSN_MEDSA Glutamate synthase [NADH], amyloplastic; TrEMBL-Plants: tr\|A0A072VE66\|A0A072VE66_MEDTR NADH glutamate synthase; Found in the gene: LotjaGi1g1v0224700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:51351967..51362943) extracted from Lotus japonicus Gifu genome v1.2.

ATGTCGAACTCTCTCTCGTTAACGTTCTCGGCGCTGAATAACCCTCAGCTGAGCGCTCTCATCAACCCTGGTGGAGCGCG TGCACGAGCGCGTCCGCTGGCGAGCGTGAGGAACAGCACGGCGTCGCGATGGCTGGGGACCCGGTTGCGTTCGAGCGGGT CGGAGAGGATCCAGTTTTGGCACTCTGGCGGGCCGGGGCGGATGCCGAAGCTTAGGGTGGCGGTCCGGTCGGCATTCTCG GCGGTGCCGGAGAAGCCGCTGGGGCTTTACGATCCGGCGATGGATAAGGACTCTTGCGGGGTCGGATTCGTGGCGGAGCT GTCTGGTCAAAGCAGTCGCAAAACGGTGGGCGATTTTTCTTTTTTTTTTTTAAATAATTTTTTGCGGCGTGTTTGGTTGT GATGTGAGTCTTTTTGACTGTGCAGGTTACTGATGCGTTGGAGATGTTGGTGCGCATGACGCACAGAGGAGCTTGCGGTT GTGAAACCAATACTGGAGATGGTGCAGGCATCCTTGTTGCTCTGCCTCATGCGTTTTTCAAAGAGGCACGTTCTTTGTTT TTTTAATATATATATATATATATATATATATATATATATATATATATATATATTTGCAAATATCTGAGAACATGTGGAAT TTTGAAAATATGTGAGATTTCAGTTTTATTTTTGATTTTTTGGCTATGTACTGATTAATTTGTTTATAGAGTATTTTTTA AATAGAACCTATGAAAGTGTATTTTGGCCCCCAATCAAGTTATAGCTGTTTATTTTTTATTTTTTTTACATCAGAGAAAT AAATTTGCACCCGATAGGAATCGATCCCTAGACCTATCCTACCCAACCTATATGTCCCTAGCTCTTACCACAGAATAGTT ATACCTGTTTATACTTTCTCACAAATCATTTTCTGTCGTTTCTTTCTTCCTTTTCTTGCTGATGGCTGCCTTGTTTTTCT GTTTAAAATCATTTATGTTCTTAAATATATTATTATTATTTTTATAGTTGTTTTCCCCTCTTTATTTTTCTGATACCTGT TTATATATTCTCTTTTTAAAGGGTTTTTATTTGAGATTAATCACTGCATATGGATAGCCTAAATGGTACTTGATGGTTTA AAATTTCATAAGTTCAGTGTTCAAATCCTTCAATTCCTACTGGTATCTAGATACGCAACAAAAAAGAATTTTTCTTTTTC AGTGCAATATAAGTACTAAGTAGTTAATAATGCTAAATTGCAATAATTGAAGTTTTGATTGACTACTTTGTCGCCATAAT CAGCAAAAACCTTTGATTTATTAGGACTCGGCTTTGTATCTTTCACCTGTTCTATTGAAAGAGGTTTGATGATTATTTAT AATGGGTTTCCGTTTTACAGGTTGTGGATTTTGAGCTTCCTCCCCATGGACAATATGCTGTTGGCATGTTTTTCTTGCCC AAATCTGATAACCGTAGGAAGGAAAGCAAAAATATATTTAGAAAGGTAAATCAAAGTGTGAAGTTTCTTTGTCTTCGTTT CAAATTTGATGTCATGCATAATGGTTTTTTTCAGTTCAACAAAGATTCACTTTAGCACACAGTACATTTTTTCTGCCATG TAAATTGTAATAATGCTGAAGCCCCCGAAAGTTGTCCACTGCTGTTTTGTATTATGTTCCTTTGCTATTACCATGATGGT GGTCTTATGTTTTACTGCTTTTGCTTTAAGGTTGCTGAATCTATGGGGCTTTCAATTCTTGGTTGGCGTTCTGTGCGCAC AGACAACACAGGATTGGGCAAATCAGCCCTTCAAACTGAACCAGTGATCGAGCAGGTGTTCCTTACTGCAAGTGGTAAAT CAAAAGTTGATCTGGAAAGACAGGTACTTTTTATCGGTGGCAAGACTTTTGATTAAAATAATCTTAGCAAGTGAACATAT ATTCAACTGGATTTCTTTTTGAAGAAAAAGATTAACTAATAAATGCTTAGACATAGTATCCGGTGAGGCTTGAATTTATT GTGCAAGTGGGAGGATATAAAACAATTTGATTCAGGTCATATTGCATCATTGAATGATTAATTTGAAGTGAGAATTGAGT AGTACTTGGATTTTTCTTTGCAGATGTACATATTAAGGAAGCTGAGCATGGCTGCTATTACATCTGCGTTAAACCTGCAA AATGACGGCATTGCAGATTTTTATATCTGTTCACTTTCATCAAGGTGTGTTGTCATAAGGCAATCTCATTTTCTTGAGAA GTAAATTATGCTTACAGCCACACTTATCTAATCAATTTTGAATTTCTGATGATCCTCTGAATTTCTACAGGACTGTCGTT TACAAAGGTCAGCTAACACCGGCTCAGTTGAGGGAATATTATTATGCAGACCTTGGCAATGAAAGGTTTACGAGCTACAT GGCCCTGGTAAATATATTACCCATTAACCTATCTTCTTTCTCCACTAACTCTATACTCCAACAAACAGCATAGGAACAAC CAGTAACTGAAGAGATGCAAGGTTGAGGAATGACTTCTGAGGCATTGAGGTTTGAATGATCTCTTAAGTTCTTCCGCTTC CTTGATTACTGTTTGAATTTGGATGCTGGATTGGATGCAATGGTTGAGTTGGTAAGAAAGTTCATATCAAGATAATCATG TTTGCAGAAATTTCTGCTGATACTTTCTGTCAGTTACTTGGTCTGGAGGACTATTTCTTCAAGGTGGTGGAGGGAAAAAT CATGCACTTCACTATATGTTTATATTGAATTGCCTGGAAGAAAACCACATTTATGCATTCTACATTGGTTTATGTACTGG TATAAGAATTCGACCATGAAGACTCACAGTTTGGTGTGCATATCTGCAGATACATTCACGATTTTCTACGAATACCTTTC CTAGCTGGGATCGTGCTCAACCTATGCGTGTATTGGGCCACAATGGAGAAATTAATACACTCAGGGGCAATGTTAACTGG TATGTCTTGTATAGTTTTTGCCTTACTGTAGTTTAGTAGGTTGACCTACCTAGAAGAATGAGTTAACTTAATTGCTGCTA AAATGGATAAATCAGATAGTAAACATTGTTTGAGTTATGAATTATTGCCACCTTGCCCTCTCAAAAAAAGTTTGTTCTAA TGTGCAATTAGCATAATACTAGTTGATTATGAGTGGGTATAACAGTGTTGTGTGTTGTGCCGGATTCACCCACCGCATTT TGATTGATCTATGGCAGAATGTATCGGCTAAATCTATTAATTTTGTAGGATGAAGGCACGTGAGGGCTTATTGAAATGCA AGGAGCTTGGCTTATCAGAGAACGAGTTAAAGAAGCTTTTACCGATTGTGGATGCGAATTCTTCAGATTCAGGTGAAATT TTATCTGAATCTTTTTTATTAGCTTGCAAAACTGTGGTCATTTACTAAAATCCTAATGATATTTTCTTTACCAGGAGCTT TTGATGGCGTGCTCGAGTTTTTGGTTCATTCTGGAAAAAGTCTTCCTGAAGCTGTTATGATGATGATTCCTGAAGCATGG CAAAAGGACAAGAACATGGATCCCCAGCGTAAAGCATTTTACGAATACTATTCGGCTCTCATGGAGCCTTGGGATGGACC AGCTCTTATATCATGTGTGTTTTCTTGGACTTTGACTCAATTACATGTTTATGTCCCGTTAATATTGGCTTTTTGATTTG GTACTAATATATTTTAATATCATTACAGTTACCGACGGCCACTATCTTGGAGCTACATTGGACAGGAATGGATTGCGACC GGGCCGCTTCTATGTCACCCATAGTGGACGAGTAATAATGGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCAGAAGACG TACGTAGGAAAGGAAGATTAAATCCTGGCATGATGCTTCTGGTGGATTTTGAGAAGCATATAGTTGTAAATGATGATGCC TTAAAGGAACAATATTCATTGGAAAGACCCTATGGGGATTGGCTCAAAAAGCAAAAGATTGATCTCAAAGACATAGTTGA CTCAGTTCATGAGTCTGAAAGAGTGCCCCCAACCATAACAGGAGTGGCTCCAGTAAGTATACATTCAAAGCAATATGAAC ATCTCATAAATTTCTTGCAGGCAAGTCTAATTATTGAATCTTCCATGAACTACAGCTATCGTGTGATGATGTGGATATGG AAAATATGGGAATTCACGGTTTACTAGCTCCATTGAAAGTTTTTGGGTATGTAACTAACATCACTCCTGAATATTTCCTC CATTACTCCTGAATATTTCCTCCATTATATCCACTTTGTTTACAAAGGAAGTGTTTTTTATGTTCTCTACTCATGTATGA TGCAGATATACAGTTGAATCATTGGAAATGCTGTTACTTCCTATGGCAAAAGATGGGGTAGAAGCCCTTGGGTCAATGGG AAATGACACTCCATTAGCTGTCATGTCTAATAGAGAAAAACTTTCTTTTGAGTATTTCAAGCAAATGTTTGCTCAAGTTA CAAACCCTCCTATTGATCCCATCCGAGAGAAAATCGTCACCTCTATGGAATGTATGGTCGGTCCAGAAGGTGATCTCACA GAAACCACTGAGGAACAGTGCCACCGCCTTTCACTAAAAGGTCCCCTCTTATCCACTGAACAAATGGAGGCCATTAAAAA AATGGATTATAGGGGATGGCGGAGCAAAGTTATAGACATAACTTACTCAAAGGAACGCGGTAAGAGAGGGTTGGAGGAAG CCTTGGACAGGATATGTGCAGAAGCACACGGTGCAATTAAAGAAGGCTACACCACCCTTGTGCTTTCTGATAGAGGTATT ATACTGTTACCTTTGTGTTGCATACGGATATTACTTTATAGTCAAGTACATCTAATTTTATTTGAATTTGGAATTGAATT TGTAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCTCCTGGCTGTTGGTGCTGTCCATCAACATCTTGTGAAAACAC TTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTGAGCCGCGTGAAGTGCACCATTTCTGCACTCTTGTTGGTTTT GGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCAATTTGGCGACTGCAGGTTGACGGAAAGATCCCACCAAAAGC AAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAAATATTTCAAAGCAAGTCACTATGGAATGATGAAGGTTCTTG CTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTGCTCAGATTTTTGAAGCTCTGGGTCTTTCATCAGAAGTGATT GATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGCGCAACATTTGAGATGCTCTCTTCTGACGCTCTTCAACTGCA TGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAGTGCAGAAGCTGTAGCATTGCCAAATCCCGGGGATTATCATT GGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTGCAATAGCCAAGCTTCAAGAGGCTGCTAGAACTAATAGTGTA GATGCATATAAACAGTATTCCAAGATCATTCATGAACTAAATAAGGCTTGCAATTTGCGAGGGCTTTTGAAATTTAAAGA GACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGCTAGTGAAATAGTTAAACGGTTTTGCACCGGGGCCATGAGTT ATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCATTGGCTATGAATAAAATTGGAGGAAAATCCAACACAGGTTTG TCAATCTTACTTTAAGAAATATTAAATGGCAGATTTTTTCTTTTCCGTCTCAAAGGACACAAAGGTCTGACCTTTTACCC AACATCAATTTCTGACAAAGCATCTTTTCAGCATAATTTTTTCTAGAGAAATTTTGTGGATAACTTGTATATTTAATATC TGTTTCTACTAGATAAAGATTAGTCTCCTCAATTTCTCTAATTTTCTGATGATTTTTTTTTTACATATTTGCTGTAGGTG AGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTGATGGCTCTAGGAATCCCAAAAGGAGTGCCATCAAACAGGTC GCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACGAATGCTGATGAGCTGCAGATAAAGATGGCTCAGGTAATTGT TGAAATTTTCTGTTTTAAATCAAGATTATTGTCTTCTTTTGAGTATTTTAAGAAAGTCATCAACTGGTGCACCTGCATTC CTTTTGGAATTAAGGTTCTGTTTATGAATTTATGTTCATGGCAGATGATGATGTGACCTCTAGGCACCTCTGCGTGCTCT TGCGTCTTTAATTGATACGTACATTAGACCTTTGGTGAGGTTAAATATAAGTATGGTTTTTCAGCTAATGTAGAGTCGTA TTATCGTAACATTATAATTGTAATCCTCAGGGAGCAAAACCTGGTGAGGGAGGTGAACTTCCTGGACACAAGGTTGTAGG AGACATTGCTGTCACTAGGAATTCAACTGCTGGGGTAGGGCTTATCAGTCCACCTCCCCATCATGATATTTATTCAATTG AAGACCTTGCCCAGCTAATTCATGATCTAAAGGTATTTTTGTATGTGATTATTATTATTTCTCTTTTTCTGGTCGAATAT TCCTGAATTAGGTGTTGCTTCCTGTTTGGCCCCTTTTGTTAATTTGTAGAATGCCAACCCAGCTGCTCGAATTAGTGTGA AATTAGTATCTGAAGCTGGAGTGGGGATAATTGCTAGTGGAGTTGTTAAAGGTCATGCAGATCATGTCTTGATCTCAGGC CATGATGGAGGTACCGGGGCATCCAGATGGACTGGCATAAAGAATGCTGGGTTACCATGGGAACTCGGCCTGGCCGAGAC CCACCAGACATTGGTTGCAAATGACCTACGTGGTAGAACGGTTCTCCAAACTGATGGGCAACTGAAAACCGGAAGAGATG TTGCGATTGCGGCTCTTCTTGGTGCGGAAGAGTTTGGCTTCAGTACTGCTCCACTCATTACTCTTGGCTGCATCATGATG CGGAAGTGCCACAAGAACACCTGTCCTGTTGGCATTGCTACCCAAGATCCAGTACTTAGGGAGAAGTTTGCTGGAGAACC TGAGCATGTTATTAATTTCTTTTTTATGGTGGCTGAAGAGATGAGAGAAATAATGGCCCAGCTTGGGTTTAGAACAGTTA ATGAGATGGTTGGCCATTCTGATATGCTTGAAGTTGATAAAGAAGTTGTTAAAAGCAATGAGAAACTAGAGAACATTGAC CTCTCCCTATTGCTTAGACCTGCAGCTGAACTGCGGCCAGAAGCCGCTCAATACTGTGTGCAAAAGCAAGATCACAGTTT GGACATGGCCTTGGATAATCAGCTCATAAGTTTGTCAAGTGCTGCTTTGGAGAAGGGTCTCCCAGTATACATTGAAACAC CAATCTATAACGTAAACCGTGCTGTGGGAACTATGCTTAGCCATGAGGTGACCAAGAGGTACCACTTAGCTGGTCTTCCA ACTGACACCATCCACATCAAATTTAATGGTAGCGCGGGCCAGAGCTTTGGTGCATTCCTCTGTCCTGGTATTACTTTGGA ACTAGAAGGTGATAGCAATGACTATGTTGGTAAAGGATTGTCCGGTGGAAAGGTTGTAGTATATCCGCCAAAAGGAAGCA ATTTTGACCCTAAGGAGAACATTGTGATTGGCAATGTGGCACTGTATGGGGCAACACGTGGTGAAGCATATTTCAACGGG ATGGCAGCAGAAAGATTTTGTGTGCGGAATTCTGGGGCTAAGGCTGTTGTGGAAGGTGTTGGTGATCATGGATGTGAGTA CATGACTGGCGGGACTGTTGTTGTGCTTGGGAAAACTGGTAGAAATTTTGCTGCTGGTATGAGTGGCGGGATTGCTTATG TTCTTAATGCGGATGGAAAATTCCAATCTCGATGCAACCTGGAGCTCGTAGATCTGGATAAGGTTGAAGAGGAGGAGGAC ATTGTTACTCTCAAAATGTTGATACAGCAACATCAACGACACACAAATAGTCTGCTTGCCAAAGAAGTGCTTGATAATTT TGGGAATCTTCTTCCTAAATTTGTCAAGGTGATCCCGAGGGAGTATAAACGTGTTCTTGCAAGTATGAAGTCTGAGGAAG CCTCCAAAGATGCAGTGGAGCGCACTGCTAAAGATGCAGAAGAAGAAGATGATGAAGCACAAGCAGTGGAGAAAGATGCT TTTGAGGAGCTTAAGAAATTGGCAACTGCATCATTGAAAGAGAAACAGAGTGAGGTAATTTTTATTCTTTTACTTGTACG TTTGATGTTCTGTTTACTTGTTTGATGTTCTGTTTTCTTAATGCTTATACGATAGGAACATGCATTGAAGATTTAAGTGA AGTAACTTGAGAAATTTAAGTAAATTTTGACCTGGCTATGTGTGAATATCTGCAGGCTGAATCACCCAAGAGGCCAAGTC AAGTAACTGAAGCCATTAAACATAGAGGTTTCGTGGCTTATGAGCGTGAGGGTGTTCAGTATAGGGATCCGAATGTGCGC ATGAACGATTGGAAGGAAGTGATGGAGGAGACAAAGCCTGGTCCACTTCTGAAAACACAGTCAGCCCGTTGCATGGACTG TGGAACTCCTTTTTGTCATCAGGTCTGCATTACCCGCATCCAAGTTTTCATTTTTAGCTTAGAACATGCATCTTTCCTTC TGATGTTATTAGTACCCTTGTCTAAGCTAATGATATTTGCAACAAATTTCAGGAAAATTCTGGATGTCCCCTAGGAAATA AAATACCAGAATTCAATGAGTTAGTGTACCAAAATAGGTGGCGCGAAGCATTAGATAGGCTTCTTGAAACAAACAACTTT CCAGAGTTTACTGGTCGGGTGTGCCCAGCTCCTTGTGAAGGTTCCTGTGTCCTTGGTATTATTGAGAATCCTGTATCTAT TAAAAGCATTGAATGTGCAATCATAGACAAGGCTTTTGAGGAGGGTTGGATGGTGCCACGACCTCCAGCCAAAAGAACAG GGTATGCTATTTTATTTCTTATGAACATCTTGCTAGTTTCTCCTAGAACTTGGATGTATTATATAAAACAATTCATGTGT CCTCGTGGATGACATGGTTTCAGAGTCTCTTTAACCAAGTAGATGAACAGTGTTATCAATTAATATATATCTTTACTAAT GCAGGAAAAGAGTAGCTGTCGTTGGAAGTGGACCAGCTGGCTTGGCAGCTGCTGATCAGCTGAACAAAATGGGTCACACA GTAACAGTATTTGAAAGAGCGGATCGGATTGGAGGGCTTATGATGTATGGGGTTCCCAACATGAAAACTGACAAAGTGAA TATAGTTCAAAGGCGAGTCAATCTTATGGCTGAGGAAGGAATAGATTTTGTGGTAAATGCTAATGTTGGACTCGATCCTA TATATTCTCTTGATCGGCTTCGAGAGGAAAATGATGCAATTGTGTTGTCTGTAGGAGCCACAAAACCAAGGTGAGACCCA TAGACATGTTGATTAGTTCAATTTCTTTCTGCAACAATAAAAAGAAATGATAATTAGAAGGAAAGATGCTTAAAATGAAG GTATTTTTTCATGCAGGGATCTTCCAGTACCTGGAAGGGAGCTGTCAGGAGTTCATTTTGCAATGGAGTTTCTCCATGCA AATACTAAAAGCTTGCTTGATAGCAATCTCCAGGATGGCAACTATATTTCTGCCAAGGGCAAGAAAGTTGTTGTCATTGG TGGGGGTGACACTGGCACTGATTGCATAGGAACATCCATTCGCCACGGATGTAGCAACATTGTAAATCTTGAACTTCTCC CTCAGCCGCCACAAACTAGGGCTCCAGGCAACCCATGGCCCCAGGTTAGATTTGAATCATTGGTTTTAAAAATGCCTAGT TATGTATCTTCTTTGCAATGGGCCTGTCATTACTAGCAATGGCAAAATAAGTATCAAACATTTTTTACTCATAGTATTTG GATTATGACTGAGTTTAACTACTGATTTTTCCGGGATGATGCAGTGGCCTCGTGTATTCCGTGTTGATTACGGGCACCAA GAAGCTGCAGCTAAGTTTGGCAATGATCCAAGAACTTATGAGGTATTGACTAAGCGGTTTGTGGGAGATGAGAATGGAGC TGTGAAAGGGCTTGAAGTGGTACATGTTCGCTGGGAGAAGGATGAAATGGGAAAGTTTCAGTTTAAGGAAATTGAGGGCA GTGAGGAGATTATTGAGGCTGACCTAGTTTTCCTTGCCATGGGATTCCTAGGCCCTGAGTCTGTAAGTATTCTTATTAGC TTCATTTCTTATGTTAAAAGGCCAAAAAGTATGTAGTCTCAATTTTTATGTTGTCTCATGTTAGTTCTCCACTTGTGCTT TTTTATTACTTTTTTAGGTTTTATAAATGTAATGGACAATAGGTTATTTTATGAACATATTTAAATTTTAATGGACTGAA CTTTCAATTGTTTGTTAGATGAAATACAAACAGAAAAATGGGTTGTTGCTGTTACAGTGCTTGTAATTAAACTTTATAGT AATGAATTTCAGTGTGCGGAACACTTGAACTCGATAGTAATCTTCTACCAATACCAAATTCCGATTGATAACACATGATC CTCATAGCCATAACTGATAATGCTTTGGTTTCTTCTGCCTTACCAGACAATTGCAGAGAAGTTGGGTGTGGAGCGAGACA ACAGGTCAAACTTCAAGGCTGATTACGGTCGCTTCTCAACCAGTGTCAATGGTGTGTTTGCCGCTGGAGACTGTCGCCGG GGTCAGTCCCTTGTGGTGTGGGCTATTTCAGAGGGACGGCAAGCTGCAGCACAAGTTGACAACTATCTCACCAAAGAGGA CCGAGAGCACGGTATTGATGCGGAGCATGTCAAGAGGCAAGAGGGCCTCAATAAGAAGCACCAAGGCAGCAGCGGCAAAC ACACAGTGATGACTTAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0224700.8) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCGAACTCTCTCTCGTTAACGTTCTCGGCGCTGAATAACCCTCAGCTGAGCGCTCTCATCAACCCTGGTGGAGCGCG TGCACGAGCGCGTCCGCTGGCGAGCGTGAGGAACAGCACGGCGTCGCGATGGCTGGGGACCCGGTTGCGTTCGAGCGGGT CGGAGAGGATCCAGTTTTGGCACTCTGGCGGGCCGGGGCGGATGCCGAAGCTTAGGGTGGCGGTCCGGTCGGCATTCTCG GCGGTGCCGGAGAAGCCGCTGGGGCTTTACGATCCGGCGATGGATAAGGACTCTTGCGGGGTCGGATTCGTGGCGGAGCT GTCTGGTCAAAGCAGTCGCAAAACGGTTACTGATGCGTTGGAGATGTTGGTGCGCATGACGCACAGAGGAGCTTGCGGTT GTGAAACCAATACTGGAGATGGTGCAGGCATCCTTGTTGCTCTGCCTCATGCGTTTTTCAAAGAGGTTGTGGATTTTGAG CTTCCTCCCCATGGACAATATGCTGTTGGCATGTTTTTCTTGCCCAAATCTGATAACCGTAGGAAGGAAAGCAAAAATAT ATTTAGAAAGGTTGCTGAATCTATGGGGCTTTCAATTCTTGGTTGGCGTTCTGTGCGCACAGACAACACAGGATTGGGCA AATCAGCCCTTCAAACTGAACCAGTGATCGAGCAGGTGTTCCTTACTGCAAGTGGTAAATCAAAAGTTGATCTGGAAAGA CAGATGTACATATTAAGGAAGCTGAGCATGGCTGCTATTACATCTGCGTTAAACCTGCAAAATGACGGCATTGCAGATTT TTATATCTGTTCACTTTCATCAAGGACTGTCGTTTACAAAGGTCAGCTAACACCGGCTCAGTTGAGGGAATATTATTATG CAGACCTTGGCAATGAAAGGTTTACGAGCTACATGGCCCTGATACATTCACGATTTTCTACGAATACCTTTCCTAGCTGG GATCGTGCTCAACCTATGCGTGTATTGGGCCACAATGGAGAAATTAATACACTCAGGGGCAATGTTAACTGGATGAAGGC ACGTGAGGGCTTATTGAAATGCAAGGAGCTTGGCTTATCAGAGAACGAGTTAAAGAAGCTTTTACCGATTGTGGATGCGA ATTCTTCAGATTCAGGAGCTTTTGATGGCGTGCTCGAGTTTTTGGTTCATTCTGGAAAAAGTCTTCCTGAAGCTGTTATG ATGATGATTCCTGAAGCATGGCAAAAGGACAAGAACATGGATCCCCAGCGTAAAGCATTTTACGAATACTATTCGGCTCT CATGGAGCCTTGGGATGGACCAGCTCTTATATCATTTACCGACGGCCACTATCTTGGAGCTACATTGGACAGGAATGGAT TGCGACCGGGCCGCTTCTATGTCACCCATAGTGGACGAGTAATAATGGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCA GAAGACGTACGTAGGAAAGGAAGATTAAATCCTGGCATGATGCTTCTGGTGGATTTTGAGAAGCATATAGTTGTAAATGA TGATGCCTTAAAGGAACAATATTCATTGGAAAGACCCTATGGGGATTGGCTCAAAAAGCAAAAGATTGATCTCAAAGACA TAGTTGACTCAGTTCATGAGTCTGAAAGAGTGCCCCCAACCATAACAGGAGTGGCTCCACTATCGTGTGATGATGTGGAT ATGGAAAATATGGGAATTCACGGTTTACTAGCTCCATTGAAAGTTTTTGGATATACAGTTGAATCATTGGAAATGCTGTT ACTTCCTATGGCAAAAGATGGGGTAGAAGCCCTTGGGTCAATGGGAAATGACACTCCATTAGCTGTCATGTCTAATAGAG AAAAACTTTCTTTTGAGTATTTCAAGCAAATGTTTGCTCAAGTTACAAACCCTCCTATTGATCCCATCCGAGAGAAAATC GTCACCTCTATGGAATGTATGGTCGGTCCAGAAGGTGATCTCACAGAAACCACTGAGGAACAGTGCCACCGCCTTTCACT AAAAGGTCCCCTCTTATCCACTGAACAAATGGAGGCCATTAAAAAAATGGATTATAGGGGATGGCGGAGCAAAGTTATAG ACATAACTTACTCAAAGGAACGCGGTAAGAGAGGGTTGGAGGAAGCCTTGGACAGGATATGTGCAGAAGCACACGGTGCA ATTAAAGAAGGCTACACCACCCTTGTGCTTTCTGATAGAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCTCCTGGC TGTTGGTGCTGTCCATCAACATCTTGTGAAAACACTTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTGAGCCGC GTGAAGTGCACCATTTCTGCACTCTTGTTGGTTTTGGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCAATTTGG CGACTGCAGGTTGACGGAAAGATCCCACCAAAAGCAAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAAATATTT CAAAGCAAGTCACTATGGAATGATGAAGGTTCTTGCTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTGCTCAGA TTTTTGAAGCTCTGGGTCTTTCATCAGAAGTGATTGATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGCGCAACA TTTGAGATGCTCTCTTCTGACGCTCTTCAACTGCATGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAGTGCAGA AGCTGTAGCATTGCCAAATCCCGGGGATTATCATTGGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTGCAATAG CCAAGCTTCAAGAGGCTGCTAGAACTAATAGTGTAGATGCATATAAACAGTATTCCAAGATCATTCATGAACTAAATAAG GCTTGCAATTTGCGAGGGCTTTTGAAATTTAAAGAGACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGCTAGTGA AATAGTTAAACGGTTTTGCACCGGGGCCATGAGTTATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCATTGGCTA TGAATAAAATTGGAGGAAAATCCAACACAGGTGAGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTGATGGCTCT AGGAATCCCAAAAGGAGTGCCATCAAACAGGTCGCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACGAATGCTGA TGAGCTGCAGATAAAGATGGCTCAGGGAGCAAAACCTGGTGAGGGAGGTGAACTTCCTGGACACAAGGTTGTAGGAGACA TTGCTGTCACTAGGAATTCAACTGCTGGGGTAGGGCTTATCAGTCCACCTCCCCATCATGATATTTATTCAATTGAAGAC CTTGCCCAGCTAATTCATGATCTAAAGAATGCCAACCCAGCTGCTCGAATTAGTGTGAAATTAGTATCTGAAGCTGGAGT GGGGATAATTGCTAGTGGAGTTGTTAAAGGTCATGCAGATCATGTCTTGATCTCAGGCCATGATGGAGGTACCGGGGCAT CCAGATGGACTGGCATAAAGAATGCTGGGTTACCATGGGAACTCGGCCTGGCCGAGACCCACCAGACATTGGTTGCAAAT GACCTACGTGGTAGAACGGTTCTCCAAACTGATGGGCAACTGAAAACCGGAAGAGATGTTGCGATTGCGGCTCTTCTTGG TGCGGAAGAGTTTGGCTTCAGTACTGCTCCACTCATTACTCTTGGCTGCATCATGATGCGGAAGTGCCACAAGAACACCT GTCCTGTTGGCATTGCTACCCAAGATCCAGTACTTAGGGAGAAGTTTGCTGGAGAACCTGAGCATGTTATTAATTTCTTT TTTATGGTGGCTGAAGAGATGAGAGAAATAATGGCCCAGCTTGGGTTTAGAACAGTTAATGAGATGGTTGGCCATTCTGA TATGCTTGAAGTTGATAAAGAAGTTGTTAAAAGCAATGAGAAACTAGAGAACATTGACCTCTCCCTATTGCTTAGACCTG CAGCTGAACTGCGGCCAGAAGCCGCTCAATACTGTGTGCAAAAGCAAGATCACAGTTTGGACATGGCCTTGGATAATCAG CTCATAAGTTTGTCAAGTGCTGCTTTGGAGAAGGGTCTCCCAGTATACATTGAAACACCAATCTATAACGTAAACCGTGC TGTGGGAACTATGCTTAGCCATGAGGTGACCAAGAGGTACCACTTAGCTGGTCTTCCAACTGACACCATCCACATCAAAT TTAATGGTAGCGCGGGCCAGAGCTTTGGTGCATTCCTCTGTCCTGGTATTACTTTGGAACTAGAAGGTGATAGCAATGAC TATGTTGGTAAAGGATTGTCCGGTGGAAAGGTTGTAGTATATCCGCCAAAAGGAAGCAATTTTGACCCTAAGGAGAACAT TGTGATTGGCAATGTGGCACTGTATGGGGCAACACGTGGTGAAGCATATTTCAACGGGATGGCAGCAGAAAGATTTTGTG TGCGGAATTCTGGGGCTAAGGCTGTTGTGGAAGGTGTTGGTGATCATGGATGTGAGTACATGACTGGCGGGACTGTTGTT GTGCTTGGGAAAACTGGTAGAAATTTTGCTGCTGGTATGAGTGGCGGGATTGCTTATGTTCTTAATGCGGATGGAAAATT CCAATCTCGATGCAACCTGGAGCTCGTAGATCTGGATAAGGTTGAAGAGGAGGAGGACATTGTTACTCTCAAAATGTTGA TACAGCAACATCAACGACACACAAATAGTCTGCTTGCCAAAGAAGTGCTTGATAATTTTGGGAATCTTCTTCCTAAATTT GTCAAGGTGATCCCGAGGGAGTATAAACGTGTTCTTGCAAGTATGAAGTCTGAGGAAGCCTCCAAAGATGCAGTGGAGCG CACTGCTAAAGATGCAGAAGAAGAAGATGATGAAGCACAAGCAGTGGAGAAAGATGCTTTTGAGGAGCTTAAGAAATTGG CAACTGCATCATTGAAAGAGAAACAGAGTGAGGTAATTTTTATTCTTTTACTTGTACGTTTGATGTTCTGTTTACTTGTT TGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0224700.8) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSNSLSLTFSALNNPQLSALINPGGARARARPLASVRNSTASRWLGTRLRSSGSERIQFWHSGGPGRMPKLRVAVRSAFS AVPEKPLGLYDPAMDKDSCGVGFVAELSGQSSRKTVTDALEMLVRMTHRGACGCETNTGDGAGILVALPHAFFKEVVDFE LPPHGQYAVGMFFLPKSDNRRKESKNIFRKVAESMGLSILGWRSVRTDNTGLGKSALQTEPVIEQVFLTASGKSKVDLER QMYILRKLSMAAITSALNLQNDGIADFYICSLSSRTVVYKGQLTPAQLREYYYADLGNERFTSYMALIHSRFSTNTFPSW DRAQPMRVLGHNGEINTLRGNVNWMKAREGLLKCKELGLSENELKKLLPIVDANSSDSGAFDGVLEFLVHSGKSLPEAVM MMIPEAWQKDKNMDPQRKAFYEYYSALMEPWDGPALISFTDGHYLGATLDRNGLRPGRFYVTHSGRVIMASEVGVVDIPP EDVRRKGRLNPGMMLLVDFEKHIVVNDDALKEQYSLERPYGDWLKKQKIDLKDIVDSVHESERVPPTITGVAPLSCDDVD MENMGIHGLLAPLKVFGYTVESLEMLLLPMAKDGVEALGSMGNDTPLAVMSNREKLSFEYFKQMFAQVTNPPIDPIREKI VTSMECMVGPEGDLTETTEEQCHRLSLKGPLLSTEQMEAIKKMDYRGWRSKVIDITYSKERGKRGLEEALDRICAEAHGA IKEGYTTLVLSDRAFSRKRVAVSSLLAVGAVHQHLVKTLERTRVALMIESAEPREVHHFCTLVGFGADAICPYLSIEAIW RLQVDGKIPPKANGVFHSKDELVKKYFKASHYGMMKVLAKMGISTLASYKGAQIFEALGLSSEVIDKCFAGTPSRVEGAT FEMLSSDALQLHELAFPSRTFSPGSAEAVALPNPGDYHWRKGGEVHLNDPLAIAKLQEAARTNSVDAYKQYSKIIHELNK ACNLRGLLKFKETSAKISIDEVEPASEIVKRFCTGAMSYGSISLEAHSTLALAMNKIGGKSNTGEGGEQPSRMEPLADGS RNPKRSAIKQVASGRFGVSSYYLTNADELQIKMAQGAKPGEGGELPGHKVVGDIAVTRNSTAGVGLISPPPHHDIYSIED LAQLIHDLKNANPAARISVKLVSEAGVGIIASGVVKGHADHVLISGHDGGTGASRWTGIKNAGLPWELGLAETHQTLVAN DLRGRTVLQTDGQLKTGRDVAIAALLGAEEFGFSTAPLITLGCIMMRKCHKNTCPVGIATQDPVLREKFAGEPEHVINFF FMVAEEMREIMAQLGFRTVNEMVGHSDMLEVDKEVVKSNEKLENIDLSLLLRPAAELRPEAAQYCVQKQDHSLDMALDNQ LISLSSAALEKGLPVYIETPIYNVNRAVGTMLSHEVTKRYHLAGLPTDTIHIKFNGSAGQSFGAFLCPGITLELEGDSND YVGKGLSGGKVVVYPPKGSNFDPKENIVIGNVALYGATRGEAYFNGMAAERFCVRNSGAKAVVEGVGDHGCEYMTGGTVV VLGKTGRNFAAGMSGGIAYVLNADGKFQSRCNLELVDLDKVEEEEDIVTLKMLIQQHQRHTNSLLAKEVLDNFGNLLPKF VKVIPREYKRVLASMKSEEASKDAVERTAKDAEEEDDEAQAVEKDAFEELKKLATASLKEKQSEVIFILLLVRLMFCLLV

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Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	30	30	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	3	3	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	4	12	9	-	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	13	30	18	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	31	1680	1650	-	–
PANTHER	PTHR11938:SF131 View details on PTHR11938:SF131 Search for proteins/transripts with this domain View external data on PTHR11938:SF131	64	1624	1561	0.0	–
PANTHER	PTHR11938 View details on PTHR11938 Search for proteins/transripts with this domain View external data on PTHR11938	64	1624	1561	0.0	–
Pfam	PF00310 View details on PF00310 Search for proteins/transripts with this domain View external data on PF00310	99	523	425	2.3E-183	IPR017932 Show description in modal box View details on IPR017932 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56235 View details on SSF56235 Search for proteins/transripts with this domain View external data on SSF56235	99	526	428	1.24E-147	IPR029055 Show description in modal box View details on IPR029055 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51278 View details on PS51278 Search for proteins/transripts with this domain View external data on PS51278	99	500	402	23.302	IPR017932 Show description in modal box View details on IPR017932 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.60.20.10 View details on G3DSA:3.60.20.10 Search for proteins/transripts with this domain View external data on G3DSA:3.60.20.10	99	535	437	2.8E-193	IPR029055 Show description in modal box View details on IPR029055 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00713 View details on cd00713 Search for proteins/transripts with this domain View external data on cd00713	99	518	420	0.0	–
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	556	909	354	2.8E-138	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51395 View details on SSF51395 Search for proteins/transripts with this domain View external data on SSF51395	568	1331	764	4.58E-251	–
Pfam	PF04898 View details on PF04898 Search for proteins/transripts with this domain View external data on PF04898	573	861	289	1.9E-112	IPR006982 Show description in modal box View details on IPR006982 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	910	1351	442	1.6E-200	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01645 View details on PF01645 Search for proteins/transripts with this domain View external data on PF01645	928	1297	370	2.1E-152	IPR002932 Show description in modal box View details on IPR002932 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02808 View details on cd02808 Search for proteins/transripts with this domain View external data on cd02808	930	1309	380	4.8E-170	IPR002932 Show description in modal box View details on IPR002932 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1020	1043	24	-	–
SUPERFAMILY	SSF69336 View details on SSF69336 Search for proteins/transripts with this domain View external data on SSF69336	1349	1613	265	3.4E-100	IPR036485 Show description in modal box View details on IPR036485 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.160.20.60 View details on G3DSA:2.160.20.60 Search for proteins/transripts with this domain View external data on G3DSA:2.160.20.60	1352	1625	274	6.2E-116	IPR036485 Show description in modal box View details on IPR036485 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00982 View details on cd00982 Search for proteins/transripts with this domain View external data on cd00982	1357	1606	250	9.10653E-154	IPR002489 Show description in modal box View details on IPR002489 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01493 View details on PF01493 Search for proteins/transripts with this domain View external data on PF01493	1380	1566	187	4.9E-87	IPR002489 Show description in modal box View details on IPR002489 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	1615	1645	31	-	–

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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0006537 View details of GO:0006537 AmiGO InterPro QuickGO	Biological process	Glutamate biosynthetic process	The chemical reactions and pathways resulting in the formation of glutamate, the anion of 2-aminopentanedioic acid.	Subterm of View details of GO:0006536 View details of GO:0009084 View details of GO:0043650
GO:0006807 View details of GO:0006807 AmiGO InterPro QuickGO	Biological process	Nitrogen compound metabolic process	The chemical reactions and pathways involving organic or inorganic compounds that contain nitrogen.	Subterm of View details of GO:0008152
GO:0015930 View details of GO:0015930 AmiGO InterPro QuickGO	Molecular function	Glutamate synthase activity	Catalysis of the formation of L-glutamine and 2-oxoglutarate from L-glutamate, using NADH, NADPH or ferredoxin as hydrogen acceptors.	Subterm of View details of GO:0016638
GO:0016491 View details of GO:0016491 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity	Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced.	Subterm of View details of GO:0003824
GO:0016638 View details of GO:0016638 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity, acting on the CH-NH2 group of donors	Catalysis of an oxidation-reduction (redox) reaction in which a CH-NH2 group acts as a hydrogen or electron donor and reduces a hydrogen or electron acceptor.	Subterm of View details of GO:0016491
GO:0055114 View details of GO:0055114 AmiGO InterPro QuickGO	Biological process	Oxidation-reduction process	A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0224700.8, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0224700.8