Transcript — View — Lotus Base

Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message

LotjaGi1g1v0224700.1

Overview

Field	Value
Gene ID	LotjaGi1g1v0224700
Transcript ID	LotjaGi1g1v0224700.1
Related isoforms 11	LotjaGi1g1v0224700.2 LotjaGi1g1v0224700.3 LotjaGi1g1v0224700.4 LotjaGi1g1v0224700.5 LotjaGi1g1v0224700.6 LotjaGi1g1v0224700.7 LotjaGi1g1v0224700.8 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\|A0A0B2SWZ8\|A0A0B2SWZ8_GLYSO Glutamate synthase [NADH], amyloplastic; Found in the gene: LotjaGi1g1v0224700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:51351414..51364950) extracted from Lotus japonicus Gifu genome v1.2.

TGAAGGATTAGGTTAATTAGTGAATAAATTATCCTCCTCCTTCCTCAACCCATCATCTTCTCCCACCCCATCAGAAACCC AGCACCACTGGTTATCCTCCTCCTTGCACTCACCCACAAACCCAGAACCCACCCCCTTCATCCCTGCCGCAACCCCACAA CCATCTTGTTGAACCCTATAAATTTCCTCCAAAAGCACCCATCACCAAATCCCAGCAATCAAACCCAGAATCATCATCAA ATACCCATAATCCGCACCACCCCCAACCACCAGATTGAAAACTATGTAGAACAAACATCATAGGATTGAATAATAAAACC CCTTTTATGTTTCAGTTTGGTTTTTCTATCCACACGCATGTTCCTTCTCCTTGCCGCTTCCACCATGCTCTGCCTCTCAC CGCCACGCTCTCGAAACCTCCAAAAATCGTCATCTTCTTAACCTCTGCAACTCTCACAAACCTCCAAACCTCCGGCCAGC ATCAATTTCTTCTTTCTCTCACGCCATGGAATGGAAATCAGAAGGAGAAAGATATGAACTTCCCTTCCCATCCTTTCCTC CCTTGGACTACTAGAAACCCAAATCGCAACAATAAAGTTTACAGCTTTTTGGATCTGGATCTGCATCTGGGGTTATGTGG AGGAGAAGATTGTTGGACTGGGTTTATCGGAATCAAACGACCTCGTTTCCAACTCTCTTTCTCTCGTTCAAGTCTGGGTT GTGGGTGGTAGTGGGTGGCAACGACGGTGGGAGTCGTCGTTCAGCCTCCTTTCTCGTTCAAGTCTGGGTGTGTGGTGCAT CAACTTTCGAACTGTGTTGATTTGCTGGTTCCAGATCTGGGTGTAGGAGGGTGGTTGGGAGTAAGATTTTTTGGATTCTT CATGCTGTGGGTCAAGTTTGTTTGTTGGTGCAGGGAGGAGGTGGAAGGGAAGGAGCAATGGGTAGTGAGTGAGTGAGATG GGTTTGCGTTTTGCAGAGGTGGGTGAGTGAGTTTTTTGTTGTTGTTACGGAGGGGGTGAGGTGGTGATTGGAGCTTCTTG GTTTCTGATGAAAGATGAGGAAGGAGGAGGATAATGATTAAGGATAAATGTTTTTTTTAAAATTAATTAAAAATAAATGT TTAATTAAGAAAATGTGAATTTTGATTTTTAAAAAAAAAACCTGTTATAGTGGGTCAAAAGTGATTGGGTGTAACTTTGC ACAAGTTTTTAGATGACCATAATAAATTTTTCCAATAAAGATAAGGTTAAATTTCGCTTTAACTGATTGATGACATTCAA CAAACAATCTACCAACAGAATCAACCAACGGCAAACAGGTTCGCATCCGAGCGTAGCCAGGTGGTGGGACCCAGGAAAGA GAGGGGATCGCGGCTGTCTCGTGCCGCATAAAACAATTCACACGTGTCCTTACTGTGACTGCTTAGCTGTCAACTAACAA ACACACTGAAGGACGGAGTCGGTAATTTACACAAACACGAAGAAGAAGAACTTTTGTGGTCCCCACTCCTCCTCTCTCCT CTTCCTCCACCTACTCCTCTTCCTCTTCTCTCTTCACCAACACATTATTTCTCTATAAATCCACCCCCCGTTCTCCCAAC GGAGAATCCTCCTTCACACCCTTCTTCACGAGGTGCTGTTCTCTCTCTCTCTCTCTCTCTGTTTGATCATCTGTTGTTCT TTCATCTTCAGCTTTGTGTGGTTTGTCTGCGACAGCTAACATACCGTGTCCCACATCAAGAGAGACAAGCTCACAAGCCA AGCCATACCGTGATTCATTCGAATCTCTTCAATCGCCATTTAAAATCGGATCTTATTGCTTTTTCCCACCCAGATCTGTA ACATTCAATCCCAAAATAACCCAATCTTTTGGATAAACTAGACTTCCATAAGTAATACAAACACATCCAATACTTGGGTA TAAAATCAAATCATAAAAATAAATAACAAGCCGCCAAAGGCAAAGGCAAAGGCTTCTTCTTCTTCTGCGGTAGGTTTTGT TTGAACAATGTCGAACTCTCTCTCGTTAACGTTCTCGGCGCTGAATAACCCTCAGCTGAGCGCTCTCATCAACCCTGGTG GAGCGCGTGCACGAGCGCGTCCGCTGGCGAGCGTGAGGAACAGCACGGCGTCGCGATGGCTGGGGACCCGGTTGCGTTCG AGCGGGTCGGAGAGGATCCAGTTTTGGCACTCTGGCGGGCCGGGGCGGATGCCGAAGCTTAGGGTGGCGGTCCGGTCGGC ATTCTCGGCGGTGCCGGAGAAGCCGCTGGGGCTTTACGATCCGGCGATGGATAAGGACTCTTGCGGGGTCGGATTCGTGG CGGAGCTGTCTGGTCAAAGCAGTCGCAAAACGGTGGGCGATTTTTCTTTTTTTTTTTTAAATAATTTTTTGCGGCGTGTT TGGTTGTGATGTGAGTCTTTTTGACTGTGCAGGTTACTGATGCGTTGGAGATGTTGGTGCGCATGACGCACAGAGGAGCT TGCGGTTGTGAAACCAATACTGGAGATGGTGCAGGCATCCTTGTTGCTCTGCCTCATGCGTTTTTCAAAGAGGCACGTTC TTTGTTTTTTTAATATATATATATATATATATATATATATATATATATATATATATATATTTGCAAATATCTGAGAACAT GTGGAATTTTGAAAATATGTGAGATTTCAGTTTTATTTTTGATTTTTTGGCTATGTACTGATTAATTTGTTTATAGAGTA TTTTTTAAATAGAACCTATGAAAGTGTATTTTGGCCCCCAATCAAGTTATAGCTGTTTATTTTTTATTTTTTTTACATCA GAGAAATAAATTTGCACCCGATAGGAATCGATCCCTAGACCTATCCTACCCAACCTATATGTCCCTAGCTCTTACCACAG AATAGTTATACCTGTTTATACTTTCTCACAAATCATTTTCTGTCGTTTCTTTCTTCCTTTTCTTGCTGATGGCTGCCTTG TTTTTCTGTTTAAAATCATTTATGTTCTTAAATATATTATTATTATTTTTATAGTTGTTTTCCCCTCTTTATTTTTCTGA TACCTGTTTATATATTCTCTTTTTAAAGGGTTTTTATTTGAGATTAATCACTGCATATGGATAGCCTAAATGGTACTTGA TGGTTTAAAATTTCATAAGTTCAGTGTTCAAATCCTTCAATTCCTACTGGTATCTAGATACGCAACAAAAAAGAATTTTT CTTTTTCAGTGCAATATAAGTACTAAGTAGTTAATAATGCTAAATTGCAATAATTGAAGTTTTGATTGACTACTTTGTCG CCATAATCAGCAAAAACCTTTGATTTATTAGGACTCGGCTTTGTATCTTTCACCTGTTCTATTGAAAGAGGTTTGATGAT TATTTATAATGGGTTTCCGTTTTACAGGTTGTGGATTTTGAGCTTCCTCCCCATGGACAATATGCTGTTGGCATGTTTTT CTTGCCCAAATCTGATAACCGTAGGAAGGAAAGCAAAAATATATTTAGAAAGGTAAATCAAAGTGTGAAGTTTCTTTGTC TTCGTTTCAAATTTGATGTCATGCATAATGGTTTTTTTCAGTTCAACAAAGATTCACTTTAGCACACAGTACATTTTTTC TGCCATGTAAATTGTAATAATGCTGAAGCCCCCGAAAGTTGTCCACTGCTGTTTTGTATTATGTTCCTTTGCTATTACCA TGATGGTGGTCTTATGTTTTACTGCTTTTGCTTTAAGGTTGCTGAATCTATGGGGCTTTCAATTCTTGGTTGGCGTTCTG TGCGCACAGACAACACAGGATTGGGCAAATCAGCCCTTCAAACTGAACCAGTGATCGAGCAGGTGTTCCTTACTGCAAGT GGTAAATCAAAAGTTGATCTGGAAAGACAGGTACTTTTTATCGGTGGCAAGACTTTTGATTAAAATAATCTTAGCAAGTG AACATATATTCAACTGGATTTCTTTTTGAAGAAAAAGATTAACTAATAAATGCTTAGACATAGTATCCGGTGAGGCTTGA ATTTATTGTGCAAGTGGGAGGATATAAAACAATTTGATTCAGGTCATATTGCATCATTGAATGATTAATTTGAAGTGAGA ATTGAGTAGTACTTGGATTTTTCTTTGCAGATGTACATATTAAGGAAGCTGAGCATGGCTGCTATTACATCTGCGTTAAA CCTGCAAAATGACGGCATTGCAGATTTTTATATCTGTTCACTTTCATCAAGGTGTGTTGTCATAAGGCAATCTCATTTTC TTGAGAAGTAAATTATGCTTACAGCCACACTTATCTAATCAATTTTGAATTTCTGATGATCCTCTGAATTTCTACAGGAC TGTCGTTTACAAAGGTCAGCTAACACCGGCTCAGTTGAGGGAATATTATTATGCAGACCTTGGCAATGAAAGGTTTACGA GCTACATGGCCCTGGTAAATATATTACCCATTAACCTATCTTCTTTCTCCACTAACTCTATACTCCAACAAACAGCATAG GAACAACCAGTAACTGAAGAGATGCAAGGTTGAGGAATGACTTCTGAGGCATTGAGGTTTGAATGATCTCTTAAGTTCTT CCGCTTCCTTGATTACTGTTTGAATTTGGATGCTGGATTGGATGCAATGGTTGAGTTGGTAAGAAAGTTCATATCAAGAT AATCATGTTTGCAGAAATTTCTGCTGATACTTTCTGTCAGTTACTTGGTCTGGAGGACTATTTCTTCAAGGTGGTGGAGG GAAAAATCATGCACTTCACTATATGTTTATATTGAATTGCCTGGAAGAAAACCACATTTATGCATTCTACATTGGTTTAT GTACTGGTATAAGAATTCGACCATGAAGACTCACAGTTTGGTGTGCATATCTGCAGATACATTCACGATTTTCTACGAAT ACCTTTCCTAGCTGGGATCGTGCTCAACCTATGCGTGTATTGGGCCACAATGGAGAAATTAATACACTCAGGGGCAATGT TAACTGGTATGTCTTGTATAGTTTTTGCCTTACTGTAGTTTAGTAGGTTGACCTACCTAGAAGAATGAGTTAACTTAATT GCTGCTAAAATGGATAAATCAGATAGTAAACATTGTTTGAGTTATGAATTATTGCCACCTTGCCCTCTCAAAAAAAGTTT GTTCTAATGTGCAATTAGCATAATACTAGTTGATTATGAGTGGGTATAACAGTGTTGTGTGTTGTGCCGGATTCACCCAC CGCATTTTGATTGATCTATGGCAGAATGTATCGGCTAAATCTATTAATTTTGTAGGATGAAGGCACGTGAGGGCTTATTG AAATGCAAGGAGCTTGGCTTATCAGAGAACGAGTTAAAGAAGCTTTTACCGATTGTGGATGCGAATTCTTCAGATTCAGG TGAAATTTTATCTGAATCTTTTTTATTAGCTTGCAAAACTGTGGTCATTTACTAAAATCCTAATGATATTTTCTTTACCA GGAGCTTTTGATGGCGTGCTCGAGTTTTTGGTTCATTCTGGAAAAAGTCTTCCTGAAGCTGTTATGATGATGATTCCTGA AGCATGGCAAAAGGACAAGAACATGGATCCCCAGCGTAAAGCATTTTACGAATACTATTCGGCTCTCATGGAGCCTTGGG ATGGACCAGCTCTTATATCATGTGTGTTTTCTTGGACTTTGACTCAATTACATGTTTATGTCCCGTTAATATTGGCTTTT TGATTTGGTACTAATATATTTTAATATCATTACAGTTACCGACGGCCACTATCTTGGAGCTACATTGGACAGGAATGGAT TGCGACCGGGCCGCTTCTATGTCACCCATAGTGGACGAGTAATAATGGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCA GAAGACGTACGTAGGAAAGGAAGATTAAATCCTGGCATGATGCTTCTGGTGGATTTTGAGAAGCATATAGTTGTAAATGA TGATGCCTTAAAGGAACAATATTCATTGGAAAGACCCTATGGGGATTGGCTCAAAAAGCAAAAGATTGATCTCAAAGACA TAGTTGACTCAGTTCATGAGTCTGAAAGAGTGCCCCCAACCATAACAGGAGTGGCTCCAGTAAGTATACATTCAAAGCAA TATGAACATCTCATAAATTTCTTGCAGGCAAGTCTAATTATTGAATCTTCCATGAACTACAGCTATCGTGTGATGATGTG GATATGGAAAATATGGGAATTCACGGTTTACTAGCTCCATTGAAAGTTTTTGGGTATGTAACTAACATCACTCCTGAATA TTTCCTCCATTACTCCTGAATATTTCCTCCATTATATCCACTTTGTTTACAAAGGAAGTGTTTTTTATGTTCTCTACTCA TGTATGATGCAGATATACAGTTGAATCATTGGAAATGCTGTTACTTCCTATGGCAAAAGATGGGGTAGAAGCCCTTGGGT CAATGGGAAATGACACTCCATTAGCTGTCATGTCTAATAGAGAAAAACTTTCTTTTGAGTATTTCAAGCAAATGTTTGCT CAAGTTACAAACCCTCCTATTGATCCCATCCGAGAGAAAATCGTCACCTCTATGGAATGTATGGTCGGTCCAGAAGGTGA TCTCACAGAAACCACTGAGGAACAGTGCCACCGCCTTTCACTAAAAGGTCCCCTCTTATCCACTGAACAAATGGAGGCCA TTAAAAAAATGGATTATAGGGGATGGCGGAGCAAAGTTATAGACATAACTTACTCAAAGGAACGCGGTAAGAGAGGGTTG GAGGAAGCCTTGGACAGGATATGTGCAGAAGCACACGGTGCAATTAAAGAAGGCTACACCACCCTTGTGCTTTCTGATAG AGGTATTATACTGTTACCTTTGTGTTGCATACGGATATTACTTTATAGTCAAGTACATCTAATTTTATTTGAATTTGGAA TTGAATTTGTAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCTCCTGGCTGTTGGTGCTGTCCATCAACATCTTGTG AAAACACTTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTGAGCCGCGTGAAGTGCACCATTTCTGCACTCTTGT TGGTTTTGGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCAATTTGGCGACTGCAGGTTGACGGAAAGATCCCAC CAAAAGCAAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAAATATTTCAAAGCAAGTCACTATGGAATGATGAAG GTTCTTGCTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTGCTCAGATTTTTGAAGCTCTGGGTCTTTCATCAGA AGTGATTGATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGCGCAACATTTGAGATGCTCTCTTCTGACGCTCTTC AACTGCATGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAGTGCAGAAGCTGTAGCATTGCCAAATCCCGGGGAT TATCATTGGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTGCAATAGCCAAGCTTCAAGAGGCTGCTAGAACTAA TAGTGTAGATGCATATAAACAGTATTCCAAGATCATTCATGAACTAAATAAGGCTTGCAATTTGCGAGGGCTTTTGAAAT TTAAAGAGACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGCTAGTGAAATAGTTAAACGGTTTTGCACCGGGGCC ATGAGTTATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCATTGGCTATGAATAAAATTGGAGGAAAATCCAACAC AGGTTTGTCAATCTTACTTTAAGAAATATTAAATGGCAGATTTTTTCTTTTCCGTCTCAAAGGACACAAAGGTCTGACCT TTTACCCAACATCAATTTCTGACAAAGCATCTTTTCAGCATAATTTTTTCTAGAGAAATTTTGTGGATAACTTGTATATT TAATATCTGTTTCTACTAGATAAAGATTAGTCTCCTCAATTTCTCTAATTTTCTGATGATTTTTTTTTTACATATTTGCT GTAGGTGAGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTGATGGCTCTAGGAATCCCAAAAGGAGTGCCATCAA ACAGGTCGCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACGAATGCTGATGAGCTGCAGATAAAGATGGCTCAGG TAATTGTTGAAATTTTCTGTTTTAAATCAAGATTATTGTCTTCTTTTGAGTATTTTAAGAAAGTCATCAACTGGTGCACC TGCATTCCTTTTGGAATTAAGGTTCTGTTTATGAATTTATGTTCATGGCAGATGATGATGTGACCTCTAGGCACCTCTGC GTGCTCTTGCGTCTTTAATTGATACGTACATTAGACCTTTGGTGAGGTTAAATATAAGTATGGTTTTTCAGCTAATGTAG AGTCGTATTATCGTAACATTATAATTGTAATCCTCAGGGAGCAAAACCTGGTGAGGGAGGTGAACTTCCTGGACACAAGG TTGTAGGAGACATTGCTGTCACTAGGAATTCAACTGCTGGGGTAGGGCTTATCAGTCCACCTCCCCATCATGATATTTAT TCAATTGAAGACCTTGCCCAGCTAATTCATGATCTAAAGGTATTTTTGTATGTGATTATTATTATTTCTCTTTTTCTGGT CGAATATTCCTGAATTAGGTGTTGCTTCCTGTTTGGCCCCTTTTGTTAATTTGTAGAATGCCAACCCAGCTGCTCGAATT AGTGTGAAATTAGTATCTGAAGCTGGAGTGGGGATAATTGCTAGTGGAGTTGTTAAAGGTCATGCAGATCATGTCTTGAT CTCAGGCCATGATGGAGGTACCGGGGCATCCAGATGGACTGGCATAAAGAATGCTGGGTTACCATGGGAACTCGGCCTGG CCGAGACCCACCAGACATTGGTTGCAAATGACCTACGTGGTAGAACGGTTCTCCAAACTGATGGGCAACTGAAAACCGGA AGAGATGTTGCGATTGCGGCTCTTCTTGGTGCGGAAGAGTTTGGCTTCAGTACTGCTCCACTCATTACTCTTGGCTGCAT CATGATGCGGAAGTGCCACAAGAACACCTGTCCTGTTGGCATTGCTACCCAAGATCCAGTACTTAGGGAGAAGTTTGCTG GAGAACCTGAGCATGTTATTAATTTCTTTTTTATGGTGGCTGAAGAGATGAGAGAAATAATGGCCCAGCTTGGGTTTAGA ACAGTTAATGAGATGGTTGGCCATTCTGATATGCTTGAAGTTGATAAAGAAGTTGTTAAAAGCAATGAGAAACTAGAGAA CATTGACCTCTCCCTATTGCTTAGACCTGCAGCTGAACTGCGGCCAGAAGCCGCTCAATACTGTGTGCAAAAGCAAGATC ACAGTTTGGACATGGCCTTGGATAATCAGCTCATAAGTTTGTCAAGTGCTGCTTTGGAGAAGGGTCTCCCAGTATACATT GAAACACCAATCTATAACGTAAACCGTGCTGTGGGAACTATGCTTAGCCATGAGGTGACCAAGAGGTACCACTTAGCTGG TCTTCCAACTGACACCATCCACATCAAATTTAATGGTAGCGCGGGCCAGAGCTTTGGTGCATTCCTCTGTCCTGGTATTA CTTTGGAACTAGAAGGTGATAGCAATGACTATGTTGGTAAAGGATTGTCCGGTGGAAAGGTTGTAGTATATCCGCCAAAA GGAAGCAATTTTGACCCTAAGGAGAACATTGTGATTGGCAATGTGGCACTGTATGGGGCAACACGTGGTGAAGCATATTT CAACGGGATGGCAGCAGAAAGATTTTGTGTGCGGAATTCTGGGGCTAAGGCTGTTGTGGAAGGTGTTGGTGATCATGGAT GTGAGTACATGACTGGCGGGACTGTTGTTGTGCTTGGGAAAACTGGTAGAAATTTTGCTGCTGGTATGAGTGGCGGGATT GCTTATGTTCTTAATGCGGATGGAAAATTCCAATCTCGATGCAACCTGGAGCTCGTAGATCTGGATAAGGTTGAAGAGGA GGAGGACATTGTTACTCTCAAAATGTTGATACAGCAACATCAACGACACACAAATAGTCTGCTTGCCAAAGAAGTGCTTG ATAATTTTGGGAATCTTCTTCCTAAATTTGTCAAGGTGATCCCGAGGGAGTATAAACGTGTTCTTGCAAGTATGAAGTCT GAGGAAGCCTCCAAAGATGCAGTGGAGCGCACTGCTAAAGATGCAGAAGAAGAAGATGATGAAGCACAAGCAGTGGAGAA AGATGCTTTTGAGGAGCTTAAGAAATTGGCAACTGCATCATTGAAAGAGAAACAGAGTGAGGTAATTTTTATTCTTTTAC TTGTACGTTTGATGTTCTGTTTACTTGTTTGATGTTCTGTTTTCTTAATGCTTATACGATAGGAACATGCATTGAAGATT TAAGTGAAGTAACTTGAGAAATTTAAGTAAATTTTGACCTGGCTATGTGTGAATATCTGCAGGCTGAATCACCCAAGAGG CCAAGTCAAGTAACTGAAGCCATTAAACATAGAGGTTTCGTGGCTTATGAGCGTGAGGGTGTTCAGTATAGGGATCCGAA TGTGCGCATGAACGATTGGAAGGAAGTGATGGAGGAGACAAAGCCTGGTCCACTTCTGAAAACACAGTCAGCCCGTTGCA TGGACTGTGGAACTCCTTTTTGTCATCAGGTCTGCATTACCCGCATCCAAGTTTTCATTTTTAGCTTAGAACATGCATCT TTCCTTCTGATGTTATTAGTACCCTTGTCTAAGCTAATGATATTTGCAACAAATTTCAGGAAAATTCTGGATGTCCCCTA GGAAATAAAATACCAGAATTCAATGAGTTAGTGTACCAAAATAGGTGGCGCGAAGCATTAGATAGGCTTCTTGAAACAAA CAACTTTCCAGAGTTTACTGGTCGGGTGTGCCCAGCTCCTTGTGAAGGTTCCTGTGTCCTTGGTATTATTGAGAATCCTG TATCTATTAAAAGCATTGAATGTGCAATCATAGACAAGGCTTTTGAGGAGGGTTGGATGGTGCCACGACCTCCAGCCAAA AGAACAGGGTATGCTATTTTATTTCTTATGAACATCTTGCTAGTTTCTCCTAGAACTTGGATGTATTATATAAAACAATT CATGTGTCCTCGTGGATGACATGGTTTCAGAGTCTCTTTAACCAAGTAGATGAACAGTGTTATCAATTAATATATATCTT TACTAATGCAGGAAAAGAGTAGCTGTCGTTGGAAGTGGACCAGCTGGCTTGGCAGCTGCTGATCAGCTGAACAAAATGGG TCACACAGTAACAGTATTTGAAAGAGCGGATCGGATTGGAGGGCTTATGATGTATGGGGTTCCCAACATGAAAACTGACA AAGTGAATATAGTTCAAAGGCGAGTCAATCTTATGGCTGAGGAAGGAATAGATTTTGTGGTAAATGCTAATGTTGGACTC GATCCTATATATTCTCTTGATCGGCTTCGAGAGGAAAATGATGCAATTGTGTTGTCTGTAGGAGCCACAAAACCAAGGTG AGACCCATAGACATGTTGATTAGTTCAATTTCTTTCTGCAACAATAAAAAGAAATGATAATTAGAAGGAAAGATGCTTAA AATGAAGGTATTTTTTCATGCAGGGATCTTCCAGTACCTGGAAGGGAGCTGTCAGGAGTTCATTTTGCAATGGAGTTTCT CCATGCAAATACTAAAAGCTTGCTTGATAGCAATCTCCAGGATGGCAACTATATTTCTGCCAAGGGCAAGAAAGTTGTTG TCATTGGTGGGGGTGACACTGGCACTGATTGCATAGGAACATCCATTCGCCACGGATGTAGCAACATTGTAAATCTTGAA CTTCTCCCTCAGCCGCCACAAACTAGGGCTCCAGGCAACCCATGGCCCCAGGTTAGATTTGAATCATTGGTTTTAAAAAT GCCTAGTTATGTATCTTCTTTGCAATGGGCCTGTCATTACTAGCAATGGCAAAATAAGTATCAAACATTTTTTACTCATA GTATTTGGATTATGACTGAGTTTAACTACTGATTTTTCCGGGATGATGCAGTGGCCTCGTGTATTCCGTGTTGATTACGG GCACCAAGAAGCTGCAGCTAAGTTTGGCAATGATCCAAGAACTTATGAGGTATTGACTAAGCGGTTTGTGGGAGATGAGA ATGGAGCTGTGAAAGGGCTTGAAGTGGTACATGTTCGCTGGGAGAAGGATGAAATGGGAAAGTTTCAGTTTAAGGAAATT GAGGGCAGTGAGGAGATTATTGAGGCTGACCTAGTTTTCCTTGCCATGGGATTCCTAGGCCCTGAGTCTGTAAGTATTCT TATTAGCTTCATTTCTTATGTTAAAAGGCCAAAAAGTATGTAGTCTCAATTTTTATGTTGTCTCATGTTAGTTCTCCACT TGTGCTTTTTTATTACTTTTTTAGGTTTTATAAATGTAATGGACAATAGGTTATTTTATGAACATATTTAAATTTTAATG GACTGAACTTTCAATTGTTTGTTAGATGAAATACAAACAGAAAAATGGGTTGTTGCTGTTACAGTGCTTGTAATTAAACT TTATAGTAATGAATTTCAGTGTGCGGAACACTTGAACTCGATAGTAATCTTCTACCAATACCAAATTCCGATTGATAACA CATGATCCTCATAGCCATAACTGATAATGCTTTGGTTTCTTCTGCCTTACCAGACAATTGCAGAGAAGTTGGGTGTGGAG CGAGACAACAGGTCAAACTTCAAGGCTGATTACGGTCGCTTCTCAACCAGTGTCAATGGTGTGTTTGCCGCTGGAGACTG TCGCCGGGGTCAGTCCCTTGTGGTGTGGGCTATTTCAGAGGGACGGCAAGCTGCAGCACAAGTTGACAACTATCTCACCA AAGAGGACCGAGAGCACGGTATTGATGCGGAGCATGTCAAGAGGCAAGAGGGCCTCAATAAGAAGCACCAAGGCAGCAGC GGCAAACACACAGTGATGACTTAGGAGGATGCACAGAATAACAAAAGATGATTGTTCTATGTATGATCGGGACTTTCATT GGTTTTTTTTAGGCATTCTTGGTTGGCAGATAGCAATGCTGTAGGGGAAAAATAAGGACAAAAACAATGAAGAGAAATAA ATTTAGTGTAAGGAAAGCAAGATGTTGCATTGGTGCTTTGGTGGGTTTGGAGGTTATTGCAGGTTTGAGTATTGTCAGTT GTTCATAGTCTATTGTTTTGTTGGGGTGGTTAGCCCTTGTATTAGATACGATGATTATATATGAAATGTACAGTTTGCCA AATAATTGATAATTTGATGTCATTATTTCCATTTTGAACTTAGCAGTAATGATTAAGATTGCAATGGGTAGGGTGCTATA TAACTTGTCTCCATAATTGTGTTTTGGAACTACTTGTCCTTGTTCCTCTACCTGCGTCACGGGTGTACAAGATCCGGCCC TATCCGCTAACCCGTCCCGGCCCAAGCCTTTAGGGCCGGGTTGAACCCAGCCCGATCATTAAAAGAGACCGGGTTCGGAT TGATCTTTGAGTTACCC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0224700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTTTTCTTGCCCAAATCTGATAACCGTAGGAAGGAAAGCAAAAATATATTTAGAAAGGTTGCTGAATCTATGGGGCT TTCAATTCTTGGTTGGCGTTCTGTGCGCACAGACAACACAGGATTGGGCAAATCAGCCCTTCAAACTGAACCAGTGATCG AGCAGGTGTTCCTTACTGCAAGTGGTAAATCAAAAGTTGATCTGGAAAGACAGATGTACATATTAAGGAAGCTGAGCATG GCTGCTATTACATCTGCGTTAAACCTGCAAAATGACGGCATTGCAGATTTTTATATCTGTTCACTTTCATCAAGGACTGT CGTTTACAAAGGTCAGCTAACACCGGCTCAGTTGAGGGAATATTATTATGCAGACCTTGGCAATGAAAGGTTTACGAGCT ACATGGCCCTGATACATTCACGATTTTCTACGAATACCTTTCCTAGCTGGGATCGTGCTCAACCTATGCGTGTATTGGGC CACAATGGAGAAATTAATACACTCAGGGGCAATGTTAACTGGATGAAGGCACGTGAGGGCTTATTGAAATGCAAGGAGCT TGGCTTATCAGAGAACGAGTTAAAGAAGCTTTTACCGATTGTGGATGCGAATTCTTCAGATTCAGGAGCTTTTGATGGCG TGCTCGAGTTTTTGGTTCATTCTGGAAAAAGTCTTCCTGAAGCTGTTATGATGATGATTCCTGAAGCATGGCAAAAGGAC AAGAACATGGATCCCCAGCGTAAAGCATTTTACGAATACTATTCGGCTCTCATGGAGCCTTGGGATGGACCAGCTCTTAT ATCATTTACCGACGGCCACTATCTTGGAGCTACATTGGACAGGAATGGATTGCGACCGGGCCGCTTCTATGTCACCCATA GTGGACGAGTAATAATGGCAAGTGAAGTTGGGGTTGTAGACATTCCTCCAGAAGACGTACGTAGGAAAGGAAGATTAAAT CCTGGCATGATGCTTCTGGTGGATTTTGAGAAGCATATAGTTGTAAATGATGATGCCTTAAAGGAACAATATTCATTGGA AAGACCCTATGGGGATTGGCTCAAAAAGCAAAAGATTGATCTCAAAGACATAGTTGACTCAGTTCATGAGTCTGAAAGAG TGCCCCCAACCATAACAGGAGTGGCTCCACTATCGTGTGATGATGTGGATATGGAAAATATGGGAATTCACGGTTTACTA GCTCCATTGAAAGTTTTTGGATATACAGTTGAATCATTGGAAATGCTGTTACTTCCTATGGCAAAAGATGGGGTAGAAGC CCTTGGGTCAATGGGAAATGACACTCCATTAGCTGTCATGTCTAATAGAGAAAAACTTTCTTTTGAGTATTTCAAGCAAA TGTTTGCTCAAGTTACAAACCCTCCTATTGATCCCATCCGAGAGAAAATCGTCACCTCTATGGAATGTATGGTCGGTCCA GAAGGTGATCTCACAGAAACCACTGAGGAACAGTGCCACCGCCTTTCACTAAAAGGTCCCCTCTTATCCACTGAACAAAT GGAGGCCATTAAAAAAATGGATTATAGGGGATGGCGGAGCAAAGTTATAGACATAACTTACTCAAAGGAACGCGGTAAGA GAGGGTTGGAGGAAGCCTTGGACAGGATATGTGCAGAAGCACACGGTGCAATTAAAGAAGGCTACACCACCCTTGTGCTT TCTGATAGAGCATTCTCAAGGAAACGTGTTGCTGTGAGCTCCCTCCTGGCTGTTGGTGCTGTCCATCAACATCTTGTGAA AACACTTGAGCGCACTAGAGTTGCCTTGATGATTGAATCTGCTGAGCCGCGTGAAGTGCACCATTTCTGCACTCTTGTTG GTTTTGGTGCTGATGCTATATGCCCATATTTGTCTATAGAGGCAATTTGGCGACTGCAGGTTGACGGAAAGATCCCACCA AAAGCAAATGGTGTATTCCACTCAAAAGATGAGTTGGTTAAGAAATATTTCAAAGCAAGTCACTATGGAATGATGAAGGT TCTTGCTAAGATGGGAATATCAACTTTAGCCTCGTACAAAGGTGCTCAGATTTTTGAAGCTCTGGGTCTTTCATCAGAAG TGATTGATAAGTGCTTTGCTGGAACTCCAAGTCGAGTTGAGGGCGCAACATTTGAGATGCTCTCTTCTGACGCTCTTCAA CTGCATGAGTTGGCTTTTCCTTCACGGACTTTCTCTCCTGGAAGTGCAGAAGCTGTAGCATTGCCAAATCCCGGGGATTA TCATTGGAGAAAAGGTGGTGAAGTTCACCTGAACGATCCACTTGCAATAGCCAAGCTTCAAGAGGCTGCTAGAACTAATA GTGTAGATGCATATAAACAGTATTCCAAGATCATTCATGAACTAAATAAGGCTTGCAATTTGCGAGGGCTTTTGAAATTT AAAGAGACATCAGCTAAGATTTCTATAGATGAAGTTGAACCTGCTAGTGAAATAGTTAAACGGTTTTGCACCGGGGCCAT GAGTTATGGGTCTATATCACTGGAGGCTCACTCAACTTTAGCATTGGCTATGAATAAAATTGGAGGAAAATCCAACACAG GTGAGGGAGGTGAGCAACCATCTCGCATGGAGCCTCTTGCTGATGGCTCTAGGAATCCCAAAAGGAGTGCCATCAAACAG GTCGCGAGTGGGAGATTTGGAGTTTCAAGTTACTACCTTACGAATGCTGATGAGCTGCAGATAAAGATGGCTCAGGGAGC AAAACCTGGTGAGGGAGGTGAACTTCCTGGACACAAGGTTGTAGGAGACATTGCTGTCACTAGGAATTCAACTGCTGGGG TAGGGCTTATCAGTCCACCTCCCCATCATGATATTTATTCAATTGAAGACCTTGCCCAGCTAATTCATGATCTAAAGAAT GCCAACCCAGCTGCTCGAATTAGTGTGAAATTAGTATCTGAAGCTGGAGTGGGGATAATTGCTAGTGGAGTTGTTAAAGG TCATGCAGATCATGTCTTGATCTCAGGCCATGATGGAGGTACCGGGGCATCCAGATGGACTGGCATAAAGAATGCTGGGT TACCATGGGAACTCGGCCTGGCCGAGACCCACCAGACATTGGTTGCAAATGACCTACGTGGTAGAACGGTTCTCCAAACT GATGGGCAACTGAAAACCGGAAGAGATGTTGCGATTGCGGCTCTTCTTGGTGCGGAAGAGTTTGGCTTCAGTACTGCTCC ACTCATTACTCTTGGCTGCATCATGATGCGGAAGTGCCACAAGAACACCTGTCCTGTTGGCATTGCTACCCAAGATCCAG TACTTAGGGAGAAGTTTGCTGGAGAACCTGAGCATGTTATTAATTTCTTTTTTATGGTGGCTGAAGAGATGAGAGAAATA ATGGCCCAGCTTGGGTTTAGAACAGTTAATGAGATGGTTGGCCATTCTGATATGCTTGAAGTTGATAAAGAAGTTGTTAA AAGCAATGAGAAACTAGAGAACATTGACCTCTCCCTATTGCTTAGACCTGCAGCTGAACTGCGGCCAGAAGCCGCTCAAT ACTGTGTGCAAAAGCAAGATCACAGTTTGGACATGGCCTTGGATAATCAGCTCATAAGTTTGTCAAGTGCTGCTTTGGAG AAGGGTCTCCCAGTATACATTGAAACACCAATCTATAACGTAAACCGTGCTGTGGGAACTATGCTTAGCCATGAGGTGAC CAAGAGGTACCACTTAGCTGGTCTTCCAACTGACACCATCCACATCAAATTTAATGGTAGCGCGGGCCAGAGCTTTGGTG CATTCCTCTGTCCTGGTATTACTTTGGAACTAGAAGGTGATAGCAATGACTATGTTGGTAAAGGATTGTCCGGTGGAAAG GTTGTAGTATATCCGCCAAAAGGAAGCAATTTTGACCCTAAGGAGAACATTGTGATTGGCAATGTGGCACTGTATGGGGC AACACGTGGTGAAGCATATTTCAACGGGATGGCAGCAGAAAGATTTTGTGTGCGGAATTCTGGGGCTAAGGCTGTTGTGG AAGGTGTTGGTGATCATGGATGTGAGTACATGACTGGCGGGACTGTTGTTGTGCTTGGGAAAACTGGTAGAAATTTTGCT GCTGGTATGAGTGGCGGGATTGCTTATGTTCTTAATGCGGATGGAAAATTCCAATCTCGATGCAACCTGGAGCTCGTAGA TCTGGATAAGGTTGAAGAGGAGGAGGACATTGTTACTCTCAAAATGTTGATACAGCAACATCAACGACACACAAATAGTC TGCTTGCCAAAGAAGTGCTTGATAATTTTGGGAATCTTCTTCCTAAATTTGTCAAGGTGATCCCGAGGGAGTATAAACGT GTTCTTGCAAGTATGAAGTCTGAGGAAGCCTCCAAAGATGCAGTGGAGCGCACTGCTAAAGATGCAGAAGAAGAAGATGA TGAAGCACAAGCAGTGGAGAAAGATGCTTTTGAGGAGCTTAAGAAATTGGCAACTGCATCATTGAAAGAGAAACAGAGTG AGGCTGAATCACCCAAGAGGCCAAGTCAAGTAACTGAAGCCATTAAACATAGAGGTTTCGTGGCTTATGAGCGTGAGGGT GTTCAGTATAGGGATCCGAATGTGCGCATGAACGATTGGAAGGAAGTGATGGAGGAGACAAAGCCTGGTCCACTTCTGAA AACACAGTCAGCCCGTTGCATGGACTGTGGAACTCCTTTTTGTCATCAGGAAAATTCTGGATGTCCCCTAGGAAATAAAA TACCAGAATTCAATGAGTTAGTGTACCAAAATAGGTGGCGCGAAGCATTAGATAGGCTTCTTGAAACAAACAACTTTCCA GAGTTTACTGGTCGGGTGTGCCCAGCTCCTTGTGAAGGTTCCTGTGTCCTTGGTATTATTGAGAATCCTGTATCTATTAA AAGCATTGAATGTGCAATCATAGACAAGGCTTTTGAGGAGGGTTGGATGGTGCCACGACCTCCAGCCAAAAGAACAGGGA AAAGAGTAGCTGTCGTTGGAAGTGGACCAGCTGGCTTGGCAGCTGCTGATCAGCTGAACAAAATGGGTCACACAGTAACA GTATTTGAAAGAGCGGATCGGATTGGAGGGCTTATGATGTATGGGGTTCCCAACATGAAAACTGACAAAGTGAATATAGT TCAAAGGCGAGTCAATCTTATGGCTGAGGAAGGAATAGATTTTGTGGTAAATGCTAATGTTGGACTCGATCCTATATATT CTCTTGATCGGCTTCGAGAGGAAAATGATGCAATTGTGTTGTCTGTAGGAGCCACAAAACCAAGGGATCTTCCAGTACCT GGAAGGGAGCTGTCAGGAGTTCATTTTGCAATGGAGTTTCTCCATGCAAATACTAAAAGCTTGCTTGATAGCAATCTCCA GGATGGCAACTATATTTCTGCCAAGGGCAAGAAAGTTGTTGTCATTGGTGGGGGTGACACTGGCACTGATTGCATAGGAA CATCCATTCGCCACGGATGTAGCAACATTGTAAATCTTGAACTTCTCCCTCAGCCGCCACAAACTAGGGCTCCAGGCAAC CCATGGCCCCAGTGGCCTCGTGTATTCCGTGTTGATTACGGGCACCAAGAAGCTGCAGCTAAGTTTGGCAATGATCCAAG AACTTATGAGGTATTGACTAAGCGGTTTGTGGGAGATGAGAATGGAGCTGTGAAAGGGCTTGAAGTGGTACATGTTCGCT GGGAGAAGGATGAAATGGGAAAGTTTCAGTTTAAGGAAATTGAGGGCAGTGAGGAGATTATTGAGGCTGACCTAGTTTTC CTTGCCATGGGATTCCTAGGCCCTGAGTCTACAATTGCAGAGAAGTTGGGTGTGGAGCGAGACAACAGGTCAAACTTCAA GGCTGATTACGGTCGCTTCTCAACCAGTGTCAATGGTGTGTTTGCCGCTGGAGACTGTCGCCGGGGTCAGTCCCTTGTGG TGTGGGCTATTTCAGAGGGACGGCAAGCTGCAGCACAAGTTGACAACTATCTCACCAAAGAGGACCGAGAGCACGGTATT GATGCGGAGCATGTCAAGAGGCAAGAGGGCCTCAATAAGAAGCACCAAGGCAGCAGCGGCAAACACACAGTGATGACTTA G

Download CDS Sequence

Protein sequence (LotjaGi1g1v0224700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MFFLPKSDNRRKESKNIFRKVAESMGLSILGWRSVRTDNTGLGKSALQTEPVIEQVFLTASGKSKVDLERQMYILRKLSM AAITSALNLQNDGIADFYICSLSSRTVVYKGQLTPAQLREYYYADLGNERFTSYMALIHSRFSTNTFPSWDRAQPMRVLG HNGEINTLRGNVNWMKAREGLLKCKELGLSENELKKLLPIVDANSSDSGAFDGVLEFLVHSGKSLPEAVMMMIPEAWQKD KNMDPQRKAFYEYYSALMEPWDGPALISFTDGHYLGATLDRNGLRPGRFYVTHSGRVIMASEVGVVDIPPEDVRRKGRLN PGMMLLVDFEKHIVVNDDALKEQYSLERPYGDWLKKQKIDLKDIVDSVHESERVPPTITGVAPLSCDDVDMENMGIHGLL APLKVFGYTVESLEMLLLPMAKDGVEALGSMGNDTPLAVMSNREKLSFEYFKQMFAQVTNPPIDPIREKIVTSMECMVGP EGDLTETTEEQCHRLSLKGPLLSTEQMEAIKKMDYRGWRSKVIDITYSKERGKRGLEEALDRICAEAHGAIKEGYTTLVL SDRAFSRKRVAVSSLLAVGAVHQHLVKTLERTRVALMIESAEPREVHHFCTLVGFGADAICPYLSIEAIWRLQVDGKIPP KANGVFHSKDELVKKYFKASHYGMMKVLAKMGISTLASYKGAQIFEALGLSSEVIDKCFAGTPSRVEGATFEMLSSDALQ LHELAFPSRTFSPGSAEAVALPNPGDYHWRKGGEVHLNDPLAIAKLQEAARTNSVDAYKQYSKIIHELNKACNLRGLLKF KETSAKISIDEVEPASEIVKRFCTGAMSYGSISLEAHSTLALAMNKIGGKSNTGEGGEQPSRMEPLADGSRNPKRSAIKQ VASGRFGVSSYYLTNADELQIKMAQGAKPGEGGELPGHKVVGDIAVTRNSTAGVGLISPPPHHDIYSIEDLAQLIHDLKN ANPAARISVKLVSEAGVGIIASGVVKGHADHVLISGHDGGTGASRWTGIKNAGLPWELGLAETHQTLVANDLRGRTVLQT DGQLKTGRDVAIAALLGAEEFGFSTAPLITLGCIMMRKCHKNTCPVGIATQDPVLREKFAGEPEHVINFFFMVAEEMREI MAQLGFRTVNEMVGHSDMLEVDKEVVKSNEKLENIDLSLLLRPAAELRPEAAQYCVQKQDHSLDMALDNQLISLSSAALE KGLPVYIETPIYNVNRAVGTMLSHEVTKRYHLAGLPTDTIHIKFNGSAGQSFGAFLCPGITLELEGDSNDYVGKGLSGGK VVVYPPKGSNFDPKENIVIGNVALYGATRGEAYFNGMAAERFCVRNSGAKAVVEGVGDHGCEYMTGGTVVVLGKTGRNFA AGMSGGIAYVLNADGKFQSRCNLELVDLDKVEEEEDIVTLKMLIQQHQRHTNSLLAKEVLDNFGNLLPKFVKVIPREYKR VLASMKSEEASKDAVERTAKDAEEEDDEAQAVEKDAFEELKKLATASLKEKQSEAESPKRPSQVTEAIKHRGFVAYEREG VQYRDPNVRMNDWKEVMEETKPGPLLKTQSARCMDCGTPFCHQENSGCPLGNKIPEFNELVYQNRWREALDRLLETNNFP EFTGRVCPAPCEGSCVLGIIENPVSIKSIECAIIDKAFEEGWMVPRPPAKRTGKRVAVVGSGPAGLAAADQLNKMGHTVT VFERADRIGGLMMYGVPNMKTDKVNIVQRRVNLMAEEGIDFVVNANVGLDPIYSLDRLREENDAIVLSVGATKPRDLPVP GRELSGVHFAMEFLHANTKSLLDSNLQDGNYISAKGKKVVVIGGGDTGTDCIGTSIRHGCSNIVNLELLPQPPQTRAPGN PWPQWPRVFRVDYGHQEAAAKFGNDPRTYEVLTKRFVGDENGAVKGLEVVHVRWEKDEMGKFQFKEIEGSEEIIEADLVF LAMGFLGPESTIAEKLGVERDNRSNFKADYGRFSTSVNGVFAAGDCRRGQSLVVWAISEGRQAAAQVDNYLTKEDREHGI DAEHVKRQEGLNKKHQGSSGKHTVMT

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
CDD	cd00713 View details on cd00713 Search for proteins/transripts with this domain View external data on cd00713	1	348	348	0.0	–
SUPERFAMILY	SSF56235 View details on SSF56235 Search for proteins/transripts with this domain View external data on SSF56235	1	356	356	1.45E-118	IPR029055 Show description in modal box View details on IPR029055 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	1	365	365	4.5E-156	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	1	330	330	14.91	IPR017932 Show description in modal box View details on IPR017932 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00310 View details on PF00310 Search for proteins/transripts with this domain View external data on PF00310	1	353	353	2.2E-149	IPR017932 Show description in modal box View details on IPR017932 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11938 View details on PTHR11938 Search for proteins/transripts with this domain View external data on PTHR11938	1	1999	1999	0.0	–
PIRSF	PIRSF000187 View details on PIRSF000187 Search for proteins/transripts with this domain View external data on PIRSF000187	1	2017	2017	0.0	IPR012220 Show description in modal box View details on IPR012220 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11938:SF131 View details on PTHR11938:SF131 Search for proteins/transripts with this domain View external data on PTHR11938:SF131	1	1999	1999	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	386	739	354	3.8E-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	398	1161	764	6.87E-251	–
Pfam	PF04898 View details on PF04898 Search for proteins/transripts with this domain View external data on PF04898	403	691	289	2.5E-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	740	1181	442	2.2E-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	758	1127	370	2.8E-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	760	1139	380	1.48027E-168	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	850	873	24	-	–
SUPERFAMILY	SSF69336 View details on SSF69336 Search for proteins/transripts with this domain View external data on SSF69336	1179	1443	265	4.45E-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	1182	1455	274	8.1E-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	1187	1436	250	6.42847E-152	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	1210	1396	187	6.3E-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	1445	1475	31	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1449	1471	23	-	–
SUPERFAMILY	SSF46548 View details on SSF46548 Search for proteins/transripts with this domain View external data on SSF46548	1507	1664	158	2.77E-37	IPR009051 Show description in modal box View details on IPR009051 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01317 View details on TIGR01317 Search for proteins/transripts with this domain View external data on TIGR01317	1509	1993	485	2.3E-227	IPR006005 Show description in modal box View details on IPR006005 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1060.10 View details on G3DSA:1.10.1060.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1060.10	1509	1653	145	8.3E-21	IPR009051 Show description in modal box View details on IPR009051 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14691 View details on PF14691 Search for proteins/transripts with this domain View external data on PF14691	1530	1641	112	2.8E-21	IPR028261 Show description in modal box View details on IPR028261 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51905 View details on SSF51905 Search for proteins/transripts with this domain View external data on SSF51905	1651	1991	341	1.04E-61	IPR036188 Show description in modal box View details on IPR036188 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.50.50.60 View details on G3DSA:3.50.50.60 Search for proteins/transripts with this domain View external data on G3DSA:3.50.50.60	1654	1787	134	7.8E-29	IPR036188 Show description in modal box View details on IPR036188 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07992 View details on PF07992 Search for proteins/transripts with this domain View external data on PF07992	1654	1980	327	3.4E-25	IPR023753 Show description in modal box View details on IPR023753 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00419 View details on PR00419 Search for proteins/transripts with this domain View external data on PR00419	1655	1677	23	3.7E-23	–
PRINTS	PR00419 View details on PR00419 Search for proteins/transripts with this domain View external data on PR00419	1678	1691	14	3.7E-23	–
PRINTS	PR00419 View details on PR00419 Search for proteins/transripts with this domain View external data on PR00419	1721	1731	11	3.7E-23	–
Gene3D	G3DSA:3.50.50.60 View details on G3DSA:3.50.50.60 Search for proteins/transripts with this domain View external data on G3DSA:3.50.50.60	1794	2011	218	9.0E-17	IPR036188 Show description in modal box View details on IPR036188 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00419 View details on PR00419 Search for proteins/transripts with this domain View external data on PR00419	1799	1813	15	3.7E-23	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	2003	2026	24	-	–

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:0005506 View details of GO:0005506 AmiGO InterPro QuickGO	Molecular function	Iron ion binding	Interacting selectively and non-covalently with iron (Fe) ions.	Subterm of View details of GO:0046914
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:0010181 View details of GO:0010181 AmiGO InterPro QuickGO	Molecular function	FMN binding	Interacting selectively and non-covalently with flavin mono nucleotide. Flavin mono nucleotide (FMN) is the coenzyme or the prosthetic group of various flavoprotein oxidoreductase enzymes.	Subterm of View details of GO:0032553 View details of GO:0043168 View details of GO:0050662
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:0016040 View details of GO:0016040 AmiGO InterPro QuickGO	Molecular function	Glutamate synthase (NADH) activity	Catalysis of the reaction: 2 L-glutamate + NAD(+) = 2-oxoglutarate + L-glutamine + H(+) + NADH.	Subterm of View details of GO:0045181
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:0016639 View details of GO:0016639 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity, acting on the CH-NH2 group of donors, NAD or NADP as acceptor	Catalysis of an oxidation-reduction (redox) reaction in which a CH-NH2 group acts as a hydrogen or electron donor and reduces NAD+ or NADP.	Subterm of View details of GO:0016638
GO:0050660 View details of GO:0050660 AmiGO InterPro QuickGO	Molecular function	Flavin adenine dinucleotide binding	Interacting selectively and non-covalently with FAD, flavin-adenine dinucleotide, the coenzyme or the prosthetic group of various flavoprotein oxidoreductase enzymes, in either the oxidized form, FAD, or the reduced form, FADH2.	Subterm of View details of GO:0000166 View details of GO:0043168 View details of GO:0050662
GO:0051536 View details of GO:0051536 AmiGO InterPro QuickGO	Molecular function	Iron-sulfur cluster binding	Interacting selectively and non-covalently with an iron-sulfur cluster, a combination of iron and sulfur atoms.	Subterm of View details of GO:0048037 View details of GO:0051540
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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0224700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…