Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0041900
Transcript ID	LotjaGi6g1v0041900.1
Related isoforms 2	LotjaGi6g1v0041900.2 LotjaGi6g1v0041900.3
Lotus japonicus genome version	Gifu v1.2
Description	Aspartokinase-homoserine dehydrogenase; TAIR: AT4G19710.2 aspartate kinase-homoserine dehydrogenase ii; Swiss-Prot: sp\|O81852\|AKH2_ARATH Bifunctional aspartokinase/homoserine dehydrogenase 2, chloroplastic; TrEMBL-Plants: tr\|G7JAT7\|G7JAT7_MEDTR Aspartokinase-homoserine dehydrogenase; Found in the gene: LotjaGi6g1v0041900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:8040035..8054042) extracted from Lotus japonicus Gifu genome v1.2.

GTAAAAAACACTACAAAAATGTGGCAAGTCACTGCTTTTGTGTGGTCTATTTGTGGGGTTCCAAACTTTATGACATTCAT TATAAATAGTGAGTGTGGTATAATTAAACTTGATCAAGGCGTCACATGCACACACAAACACACACTGTCATTTCTCCACT CCCATGGCGTCGTTTTGCCCTGTCATGTCTCACTCCTTCTTCTGCATTTCCTCTCCAACACCACGTTTTCCATGCTGCAA CGACACCGTTCAATCTCACTGTGCCCCTCTCCCACTCTTGCCCCAACGTTCATGCTCCTCCCAAAGGTATGTCCAATTTA TTCACCATAAAACTCGTTTTGAAAGTTGTTTCATTGATCGATCCAAGGGAAATCAACTAGGCTGCAATGCAATTTCCTAT TATTTGACTCTATTATATATGGTATCACCAAACTTTAACCAAGTTAGATAAAAGATAAACAAGATCTTGCTACACGATCG AGAAGAGCCGTTGCCTGCATTTTCTTTTTATTTATTTATACATTAGTTGTTCCCCTCTTTCCATTGAGGAGAGAGTATAT TTTTAGTCTCGTAAATTTTTAATATTTTATTTTTTTAAAGTATATTTCATTTTAGTAAATTTAAAATAGTTTTACTCTTG TTCTTGAATTTTTGTTTTTTTAAGTTTTCGTGTAAACATATTGGATGATGTTCTGACGAGTTTTACTCTGGCCAAGCAAC TTTTTTTTTTGATAATGTCCAAGCAACTTTTTTAAGCAAAACATGAAAGGTTGATTGATAAGTTTTATACTGTTCAAACA TAGTTTAGTATTAATAGCATTTTTTTGTTTAATTTAATTCACCATTGTTATCGTAGTGTTAAAGTTTAAAATAATATTAG AAAATAAGAAAAGAACAAGAGTATTTTAAAACTGAGTAAGATCAAATTCATAAAAGAGGTCCTCATGTTACTTTCACTTT GTTTGGTTTGATGGAAATAGGGGAAAGATAACTGAGGGAGAGAAAACACATAACCAACATCCTTCCATTGTTTGGTTACT CATCAAAAGGAAAAGGGAGTTTTTTTTGCATAGGAGAGAAAAGACTTGTTTTTCAAGCAAATTAGCCATTATGCCCTTCC ATTACAAATTACCTCTTTAAAAAGCAAGATGTAAATTAACTTCCAATCTTATATATAAAGGACAAAGTCGTTATTATTCA CCACATTTTTTTTCTATCATTCCACTTCTCTCAATTTCCTTGTTTTTTCTTTACATTCTCTTTCTTTCATTTTATTTTCG GTGCTTGTTGTGGTACCTTAATTTAAATGAGGGTACGGTATCTTTAATGATGTAAAACCTATTTATCTCCAATTTTTTAA CTTTTAAAAGCCTCTAGCACCATCATTCATGACCATTTTAGTAGATTATCTCATTATTTTGTCGTTCGCCAGACACCAAA TTCCATATCTCACCCTTATTATGGTCAATAACTCTCTTGTTTTTACATCGCATACATTTCCACTTCCACCACTAGATTCT GACTTAAAAAAAGCTGCAACAACCAGCATGACGTCTAAGATTCCAACAAAAGTTAAAAGGTCTAATCTTCTCTTTTTTTC TGCCCTTCAATTTCACAATTTCATCTAGTCGGGGTATCGTACCCAAAAGAATTTCAAGGTACCACAGAATTTGCCAAACA TTTTTATATCCCCTCACTTTCTTCTCTATCCAATCATAACCTTTGAATTGGATCCCTCTTATCTTTGATTGCACACATGT GGTCCACTAAATTCAAGATTCATTTTTTTTAACAAAAATTCAAGATTCATTGACCGCACGCAATCTGAATTTTTTTTATT TATGAATTTACGTGTTCATTGATTTACTTATTATTATTTCTCAGAAAGAAACTATAGAAATGAAAATATATTTTTATGAC CTAACTTTACTCCAGGAAGTTATTTAATATGCGGGATTATTCTTGAATTTTTTTTAAAAAAAATAGTGTTTTTCTGTCTG TGAAGGGGTGCTTGTTTACGATGGGGGAGGGAATCACCAAGAACCAGGATACATGCTTCATTGGCAGGTTGATGCTTTGA TTAATTAATTACTTTTTGTATCGGAAAAAAGCAAGGTGTTTTTGCAAATTTGTTACTTTTTAATTCATGTTTTCATATGG TTTTTATTTACTAGCAGGTGTTTCAGTGGAAGATGTATCGGTAGAAGAAAAATTACAGCTTCCGAAAGGAGAAACTTGGT CAGTTCACAAGTTTGGAGGGACTTGTGTGGGAACCTCTGTGAGAATCAGAAATGTTGCGGAGGTTATTATGAATGATTAC TCAGATAGGAAATTTGTGGTGGTCTCTGCGATGTCAAAAGTGACGGACATGATGTATGATCTGATTCATAAGGCTCAATC CCGAGACGATGCATATTTATCTGCTCTGGAAGCTGTTTCAGAGAAGCACAGCTCAACTGCACGTGACTTGCTTGATGGAG ATGATCTTGTTGCTTTCTTATCGCACTTGCATCAAGACATCAGTAACCTCAAGGCAATGCTTCAAGCCATATGCATAGGT ACACCAAACTCAGCAAAATATCCTATTATCAATAAAATTTTACCGCGCGCGAGACTGTGAAAATTAGTTAATATTTTGTT CGACACTAAAAACACTTTTATACCAAATGAGATATAAGAAAAAAAATAGAAAATAATGAGAGATATAATAGATGATGTGA TAGATATTGAAACATAAAAGAGTAATAGAAATAGAAAGTGACGGAAAATGAGATTAAAAGACAAAGTAATCCTCCTTTTA TATTTTAAAATAATACAAAATTAAAATCGTAAAAATTATTAATGAATATTAATCATGATGATGATAAAACTTTTTAACTT TTCAATAATATTTATCTCATTTTATAAACATAATTTTTTTCACTTTCTCTAAAAATAAACCTAAAAATTATTTATTTTCT TCACTCTTTTTCTTTGCTTTCTCTCTCTTTTCACTTTTTTTTCTTCATGCCAAACATAGTGTTTGTGTTCTCCTGAACGT GAAAGCTACCTATTTGGTTCTTTAATTTTCTTTACCTTTATCAGTTATGGTGGGTATCTATTTCTTTGATAATCCTGTCT TACTCTAGAATATTTAATTTTATTCATATTGATATTGTGCATCAATGTATTTCTGATTATTTGACACTGACACATTACCG GTTTGATGTTATTTTTAATATTTCATGTATGCGGGAATGGACAAATTTTTTGTCTTTTTTTGATCATACAAATTATATAA CATATAAACAGAAAGTTTTTCGCCACGAGGAGCTTAACTTTTATAGGTGCTATATATCTTTCTTGGACGATAATACTATA AAACTTTTCCGCCACTATGTTGAGATCTCCTCAAGTAAAATATTAGGGGTAATCTTTTTTTGACGTAAAAAGATGAAGAA GAAAGAGATAAGAAATGAGAGAAAATATAAAGAAGTGATAGATGATTTGATTAATAGAGAAAAAACAAAAAAAAAATAGG AAATGAAGTGAAGAAAAAGTGGAGATGTGTATGAATATTCATAACTCAAAATGTTATTTATCATTTTCACACCCGAAATC AAAGCTTATCTACAAAAATCGGAAGAGAAGTGAAAAAATGAGAAATGTGATTAATGATTTGATAGAAAAATAAAAATAAG ATAAAAAATATAAAGGGGGTGGAAAAATATGATATAAGAGAAAGTGAAGTTTGAATAATTCAAAAACATTCACAAAGAAT GCAATATAAGAATAAGTTAATTTCTTTTATTTCGCCTAGGATTAGGATGACAACTAGTCGGGGTCAGACTCGGGTTTTGC CCTTTTCAAACCCAAACTCGAACTCTCATACCCAACCCAAATCTAAATCCAATGGGTTTCGGGTTAACACAAACCCGTTA TAGCCTTAAAACCCAGGTTCAAACTTAACTTGATACATAGATTTTTTTTTTTGTAAAACAAAACACAACTTAAATTATTT TATTTTGAAAAAATCATTTTATATCTTTTTGTAAAAAAACATGGTACTTTAAAATTATCTAATAAACATGGTAGCATTTA GTAGTGTCTTTAAAATTATCTTTTGCTTTCCCATCAATACATTTTTAGGCTAAATCGTTTGAAATACCCTTAGTTGCTTA CCTAAAATTAAAATCTTTAACTCAAATACATTTTAAGGGTCCTTTTAGTGAAAAGGTTTCGTTCAGTATAATAATAATAA TAATAATAATAATAATAATAATAATAATAAAAATTTCCCGATGCATAAATAATAATAATAAAATTTCAAAATAAATAAAT AATAATAATAATTTACAAAAAATAATAAGATACTTTTTTTATTCATCGGAAAGGAAAAATAATAAGATATCAACAAATAA AATATGTATGATAATAATTTAAGTAAATATTATCATTACAACTTTTTATAATACAAATATAATAAAATAAAAAATATCAT AGTATTTAAAAAGATAATTTTTTTTTTGAAACAAATAGTGAAATGTTGATTTTCTGTAAAAAGTTTATATAAGGATAAAA TAGTAATTATAGACCATACTTCTTTTCTTTCTCTTCCATTTTCTTTTCATCTTCTTTCCAACCAAACATCCTAGAAAATC ACCTCATTTTCCACCATCTTCTTTCTTTCTTTCCTTTTCTTGTTCCTGAACTAGAAGGAAGTCCAACCGTCTATTGCTGG CGCAGCAGCAAGAAAACGGCGCGTGATGGTGGTAGAAGGTTCAGTTCCCTGTTCACTTCGTCTTCCATTTGAGAGAGAAA GGGAAAAAAGTTATGGACGGAGAAACAATGAGTATGCAGAGTAACCAGCGAGATTAAGGGGAAGATGACATACGAAGTCG GAGCTATAATAGGTTGTTTAGGGAAGGAACACTCTTTTCCGAAGAAGTGTGTTTCACTGTTTGTGTGAGTGAATTTTCTT CATTATAAAAATGTTTACAATGTGTGGTTAGTAATTTATGGCTGTATAAAAAGTATTGCCCCTAATTGAATCTTTGAATC TATATGCTCTCATGAGATATTAATTTATACTCAACTCCAACTTGGATTGACATAATTGGTGGTCCTGGGTTTAACCCTCG TCTCCGCATAAGTCGAGGGTTCGAATCCCCCTATGTCTAGTAAAATCCTAGTTGGTGGGCAACCCTCGAGGAGACCCCTG ATGCTCCTACCACGGAGTGGACCTCTTTGAGAAGATCCCCTAAAGCTCCTACCAAGGAGTGAGTCTCTAGTCTCTACTGG TCTCCCAAACATGCCACTGATGCCCTGCTAGGTAGTCTGGAGGTGCTTTCTCTTTGTAACAAATAAAATTATACTTAATT GACTTTATCATGGATGTTGTATCATTTATCATGGATGACAATTAAGAAAGTTCTATCATTTATCTTGGATAACAATTAAG ATATGTTTTGTTACTTAAAAAGATTTTGTCGTTTAAGGAGCTAGACTTGACATCTCTACTAACACAATTACTTTGTTGCA GCTGGTCATGCAACAGAATCCTTTATTGACTTTGTTGTGGGACATGGGGAGTTATGGTCTGCACAGATGCTGTCTTATGT TATAAGGAAGGTCAGTTGTTTAATAAATAGTATCTAAATTTTGTATTTATTTGAATTGTGCTCATTTCATCAAGCTTCCT GTCCATTCTGCAGAATGGGATTGATTGCAAATGGATGGACACAAGGGAAGTCCTCATTGTAAATCCTACTCGTTCTGATC AAGTTGATCCTGACTATTTGCAATCTGAACAAAGACTTGAGAAATGGTACTCCTTGAATCCATCTAAGGTTATCATTGCT ACTGGTTTTATTGCAAGCACTCCTCAAAACATTCCTACTACTCTCAAGAGAGATGGAAGTGACTTCTCGGCTGCAATTAT GGGTGCTCTGCTCAGGGCTCGTCAGGTCACAATTTGGACAGATGTTGATGGTGTGTATAGTGCAGATCCTAGAAAAGGTT TGTTGATTCTGCTCCTTATTTCTTGTCCTATTTTAACAATGTGTGGGTGGGTATTATATGATGTTCATTGAATTTCAATT CTAATATTAATTACTGTGGCATAGGTTACTCATGGCTTTAAATTGTGGTTGCTGTCTCTGTTGTTGTATTGGGATAATTG AAATTGCTGAAAAACTATCGACAAATGCGGTTGATGCAACCACAATTGTGGTTGCTGTTTGTTTGTGGGACTTGAAAATT TTTGATTTTGTGTTGACAAGTCCCACATTGACTAGAAATATGAGCAAAACAGTTCTTATAATGGGTAGAGCAACCATCAC CCCTAACTCCCTAAGCTAGCTTTGAGGGTAGAGTAGGCTAGTCCATATTCATACTATGCACTTACTTCTTCACACTTTAC ATATTGAGGATATTTTTCTCTTGTGTTCAACTACTTGAGCAAGGGGCTTAATTCTGTATGAACAATATATTTTACAGTTT GTGATGCTGTGATTTTGAAGACATTGTCTTATCAAGAGGCATGGGAAATGGTGAGTTTGCACTTTGGAAAGTGTCAAAGC TCTTTATGCCTATAAAAATTAAGGAGAATAAATTTTAATCTGTTTCTGGTGCAGTCTTATTTTGGAGCAAATGTGTTGCA TCCGCGCACAATAATGCCAGTTATTCGATATGGCATACCCATAATAATAAGGAATATTTTCAACACCTCTGCTCCTGGAA CAAAGATCTGCCATCCTTCTCTTATTGGTGATGAAGATAAGAAGATATTAAAAACCTTGGTCAAAGGCTTCACAACAATA GACAACTTGGCACTTGTAAATGTTGAGGGGTAAGTGAGTCATGTATTGCAGTTTTAAAGGGTCTGTTTCATTACTATTTT GTAAAACAAATTTAGTTTTTTACGCAAAAAAAAGTAAAAAAACTCATTAGATGTGCATAGTTTTGAAAAACAGATTTCAA AAATAGTTCTTATGTTCAGTTTTTAAAACTGGAATCCCAGATCATCTTCTGATTTTAGTTTTCGAGTCATAGGTTTTTCA GCTTCGTAAAACATCTCATCCACACTCTTTTTTTCTTTTGTTCTTCTGAAAAGTAGGATTTACAAATTGTCTATGAAAAC AATTTTTAAATTCAAAAATCTCAGAAGGGACAAGCCATAAATATCATGAATGATTGGTTTTCTTGTTGTTTGATACTTTC TATTGGAATACACAATCTAGCTTAAATATTACTCACAAAGTTGTAGACTAATGTTTTCTCATTGTTTCCTTTTGCAGAAC TGGAATGGCTGGTGTTCCAGGTACAGCCAGTACTATTTTTTCTGCCGTAAAAGAAGTTGGGGCTAATGTTATCATGATAT CTCAGGTGCATTCGTCATCTTTTTTTTAATGTTTTTCACTAGTTTTTCAGTTACACTTATGAAACTGATACAGAAATTAA CTTCGTTTAAATAGGCTAGTAGTGAGCATTCTGTGTGCTTTGCGGTGCCTGAGAAGGAAGTAAAAGCTGTTGCTGAGGCA TTGCAGACAGTATTTCATAATGCTTTGGGTGCACAGCGTCTTTCCCAGGTGCCAAATTCAATTCTACTACGACAAAATGC TAATTTCAATATGATTCCAACAAATTTTCTGCTGTTTAATTGATATGAAGCAGGGAAAACCATTAGTCTATGTTCGTAAC GTTTTTAGAGGTTTATAGCTAAAGAGTGAAGTCTGATATAATCTTGCTTAATGTGTGTTTCTATATTCAAAAATGACTTT TCATACTCCTTGGGATATATACAGTTATACACTACTAGGTGAAAGAGGAATATATGGGCTACCTCTTAACAATCTCCAAC TGAGTTATTCTCTTTTTATGTTACTTCGAATGAGTTTAACTATAAAGTGATAAAGGGTGTATCCAATCCAACCATAGGTT TTTATATGTTGAGACTTAAGATTGTGGTGTAAATTAAAAAACCGTGTGTGTAGCCTTAACTATTCACTTTAAATGCAAAC TCATTAAAGGAATTATATGCTACATAATTCATGTCCTTTGCACAATTATGCTTAATGTGGACGCCTTATGTCTGTCCTCA ATTTTGTGCATATTTAGGCCGCTTTTGGAAGTGCTTATTTGAGTTTATCTTATATAATAAATGTTTTTGCAAATGTTTTA GAGAACTTATCTAAATAGCTTATAACCTAACTAAAAGCTGTTTCGAGCTTACTTTCATAAGCCGCTCAGATTTAGCGCTT ATACTTATCAGATTTTTTACCTTATTTTGAAGATCTACCCAAAATAGCTTATGAATAAAGAACTTATGCAATACTTGCTT ATTGTTTTAAATGTTTAAGTAAATGTTTTACCCATACACATCCTTATATTGTTGATACATGATTTGTTAAGTTATGATTT GTTATCTTTGATAAAACCTGGAATTTTAACACAGCCTAAATTATGTAGCAAACCTCTCAGGTTTCGGTGATTCCAGATTG CAGCATCTTGGCAGCTGTTGGCCAGAAAATGGCAAGCACTCCTGGAGTTAGCGCCACCCTCTTCAATGCATTGGCTAAGG TAATTGAATTATAGTTTCTTATAGTCTGAGGATAGTTATGGTTGAGGTTTCAATCTAATATCTAGTTAATTTAAACAATG AACTAATCTGAAAATGGACATACAATTTTGAATGTAACATTGACCTAATGGATGCTTTACCTTTTAATCACATCTTTTAG TCGCAATATGTTGACATGTTTTTATTTTATTTGTTTAACTGGTTTAAGATCAAACTTTTGATTAAAACAGGCCAACATAA ATATTCGTGCTATAGCACAAGGTTGTTCCGAGTACAACATTACCGTGGTTGTTAAGAGAGAGGATTCTATAAAGGCTTTA CGGGCTGTGCATTCAAGATTTTATCTGTCAAGAACCACCATATCAATGGGCATTATTGGACCTGGATTAATAGGGAGTAC CCTGCTTGACCAGCTAAGGGATCAGGTACAGTTTTTGAAGATAAGTTTGCAACATTGCATATATGCATCCCTTTCGTCAC TTTGTAAATTTTCAGAAGTATATCATGCCTAAGATTGAAATTTATTGAGTATAGTCTCTACATATTTTTCAGGAAAAATA ACTTTTAAATATAAATTGTTTGAAAAATCATAATAATAAGTAATTTCTTGAATGAAAATACATGGAATCTGCCGCCGGTG GGTATGTTGAAGTTTAATGTTGATGGGTCTTCTAGAGGTAACCCGGGCCCGAGTGGGGTTGGAGGTTTCGTGCGTGATAG TGATGGGGAGGTGTGTGGTTTCTTTTCTAAATTTGTTGGGGAGTTGTGGGTATATGAAGAGGAGGTTAAGGCTATCTTGA ATGCTTTGTTATTTTGTCAACAATTTCAATTGCAGGGCTTTTTGCTTGAGAGTGATTTATCACTTTGCGGTGGGATCTGA ATTTGATAGATTATCTTTTGCTAGAGGTCAGTTGTATGGGGGTAGTGAATATTTATAGGGAATCAAATACTGTGGCTAAT TTTTTTGGCTAAAACAGGATGTGAAATAGTGCGTCCTCTGTGGGAGTATGTGGCATAATTGTACTTAGTTGTTATCAAGG GTTTGTTTCATTAATAAATTGTTTCGTTTTCAAAAAAAAATATTGTGTGTGTAATAATTTAACATTCATGTGTTTATGCA GGCCGCAATTCTGAAAGAAGAATCAAAGATTGACTTGCGTGTGATGGGCATCATGGGTTCAAAGCTGATGCTTCTTGATG ATGCGTAAGTCAAATTATATAGAGCTCAATTCCTTTCTTTTACAAGCTTAAACCTTTTTCTAATGTTGTGTGATTAAGAC AGACAAATGAAAGTTGATACTGAGTTTTGTTTTCTTTTTCCTACATTAGTAACTTCTCCTGTCAAAATGAGGAGTTCATT TCACCCTATTTTCCTACCTTTTCCCTTTCTTAAAACCATAATTTCTTACTTCCTCTGATTTTTTTCTTTACATAATATGA ATGATATTGTTTACACACATCGTGGGTTTACTAGCTAATGCCCTTGATTATCTATGCTCTATTAATCATATTAAGTTGGA TTTCATTCAGCAATGATGAATTATAATTTGATTGCAGAGGGATCAACTTAGTTAAATGGAGAGAACTTCAAGAGGAAAAA GGAGAAGCATCTAATTTGGAAAAGTTTGTTCAACATGTACAAGGAAATCATTTTATACCAAACACTGTAATAGTCGACTG CACATCTGACTCTGTCATAGCAAGCCAATATGATGACTGGCTGCGCAAAGGAATGCATATTATCACCCCTAATAAGAAGG CTAATTCAGGACCTCTAAATCAGGTAACCCACCACTTGTCATTTTGCTGGTGTATACTTCTTTATCGTCAAGTATTATAT TTCTCATGTATACATGTAAGTTTTGGATAATTTCCTTTTTCAACGAATAGTAATAGTCCTCTGCAGAAACTAAAGATCCC CAAATGTTGGTTTATGTTTGTTTTGTTTAATTAATGAGGAGTACATTACAGGTAACCACAATTGCTTACATTACACTCTC GCATATTAGCACATCATTGCAAAGTGTGACTGTGTGAGTATGTTACAGGCATAATCAATCAAAACTTCATAATACATTAG ATAAACTTCATAATCAATCAAAACTAACAATTGAAAAAGATAACAAAGCACTTATTTCTAAGGCAAATGACTAACAACAC TAGTCCTACAAAATGAAAGATTGTGGCTTTTATTAGATAAACAGTCATGACACTTATTTCTGGAGACAATGATAGGAATG TGTTGAGGCTTGAGAGCATGATCAAGAGTGAGAAAAGATACTTGACCTAGCCAACTGTGCCATAAAGGGTTGGTTTCAAC ACAAGAAACCTTTGAGGAGGATCAATTAGAAGATAACTTGTACATGCAGTTGTCGTTCAGACTTCTTCACAGCACTGCCT CGTGATCAAATCCCTTTCCACATAATATAGGGGGAAATTCAATGGAGACATTATTAGTGTGTTATAATTGTGAAACTGAG AGCACATTGTGTGAAAAATTGGGAAGAAAAATGTTTAGGGGGTTGGAAGTGGTTGATATGGGGAGACTCTTACCATTGGA AACAAAAAACTTGATCATACATGTCTTTCGGTTGCAGACTGTACAGATCATTGGTTATGTGATGAGATGCACCAGAATCC ATCAGCCATGACGGTTCAAAGGACATGGTTTGTTGGCTGAGATTGGATATAGGTTGCTATTGAGAGGATGAAGACCTGAG AAGCTTGTAACCACAAGTCTTGGCTGTGAGATCTTTCATATCACAGTATGGGAAAATTGATGATAATGAGTTTTAGAACT GATAATTATTAATAGAAGAAATTGCAGGCAGAAGAACAAATACCCAACTCCAGAGTCAATGTGATCCTGGAAGAACAACT ACGGTTCCCAATAAACCAGCCCAATTCCTAATCTCCAAAACTACTAATTGAAGCTATATGATTCCTCTATTTATAGTTGA CAACTTATTAACTAAAAGTAAGTCACATTAAGTTATTTTTCTCCTATGGTTGCGTCTAACATACACTCGTCCAATGCGGA GTTTAAGCCTATTTGCCAAATCATTCAGAAAGCAATTGGGAATGAGCATATTTGCCAAATCATTCAGAAATTTGGTGTTT CCAAAATACTTCCTTTCTCTAATTCCCTGTTGCTACAATACATGTCAATCTTTTACTATTTGGTTCATATTTAATTTACT ACTTTTGGGGCTTTCTCACCTTTTCTCTCTGCATCCAGTATTTGAAATTAAGAGCTCTTCAGAGGCAATCATACACACAT TATTTCTATGAAGCTACTGTTGGAGCTGGTCTTCCAATTATCAGCACTTTACAGGGCCTTCTTGAAACCGGTGACAAAAT ATTGAAAATTGAAGGCATTTTCAGGTTCATTTGAAACTAGTTATCTCTCTCAACATGTTTCTTTTTGTGGAGTAGACAAC CTCACATCTCAGACTTTGATATTTCTGATGTTGCACTTCAACTGTCCACCTATACCCTCCCTCTCAGAATAGAAAAATTA AATCAAGAAACATTGATTCACCTGATCTTATTACCTCTATTTTTGTAGTGGGACTTTGAGTTACATCTTTAATAACTTCA AAGATGGTCGGGCTTTTAGTGAGGTAGTTGCTGAAGCGAAGGAAGCAGGTTATACTGAGCCAGATCCAAGGGATGATCTA TCTGGAACTGATGTTGCTAGAAAGGTACAATGCACAGTATTTAACATATCTGCCACATTTTTTGTCAAATTTCAATAAAG TAACATTTTGCAGTGAACATTCATGAATTTCAGTATTAAGATATGCTTGGTTTGAGAATGATTAGAAGGGAATATAGTGA TTTACATGCTTAATTTAGTCCTTTCTTGGTCGTGATCATTTGAAATTTAAAATCCTGCGGCTTTACAGGTGATAATTCTT GCAAGGGAATCTGGCTTAAAGCTAGAGTTTTCTGATATTCCTGTTGAAAATCTTGTCCCTGAACCGTTAAGAGTAAGAAC CAAAATGTTTTAATTTTAAAGTTCTGATTTTTAGTGTGTGCTATTGTTACCCTTAAAATGATTATTTTGAATTTGATGAT CTCATGCAGGTTTGTGCCTCAGCTCAAGATTTTATCCAACAATTACCAAAATTTGACAAGGAGTTAACAAAGAAACAAGA AGATGCAGAGAGTGCAGGGGAAGTGAGTAACTAGACCGCATTCTGCATGCAATCTAAATTAAACTATAAGAAATAATAGT TACATTATGTCTTCACCCACGCATTAAGTATCATTCAACATTATTTCAAAATAAAAAGCATAAGCTCCCTTTTATTTGAT ATAAAATTTTAGGCTAGCTACAAGCTCAACTTATTCTACTCAGAATTCAAATAGAGATAAATTTTTTAAGGGATTTTTAA AAAAGTGTGTCGCCCAGCGAGACCCCTAAAATTCAAGAAGATCTCTATATCATGCTAAGAGCGAATTATACTAGTGAATC AGACACCATATCTTTCACTTAAAACTCACTTCCTTTCTCATTAAATGTGAGATTTCTTACTCACACTTGGTATCCCAAGA ATGCGGGGAGGTGATTGTGGGATTTCCTGCTCTTGTATGTTTTGCCATATATGTTTACATGATTAATTAGTTTTTCCATG ATAAAGACATTTTATTCATTGTATAAATAAACATTTGTTGTATCTTTATGTTTGAAGGTGTTGAGATACGTGGGAGTTGT AGACGTGAGAAATGAAAAGGGGGTGGTAGAGCTGAGAAGATACAAGAAGGATCATCCATTTGCACAACTATCCGGGTCAG ATAATATAATTGCATTCACAACAAGAAGGTATCAGAATCAGCCTCTCATTGTTCGTGGACCAGGAGCTGGTGCACAAGTC ACAGCTGGAGGAATATTCAGTGACATTTTACGACTAGCCTCCTATCTTGGTGCTCCATCTTAGATCTGTCAATTTTGCCA GCAAATGCATTCTTGTGGCATTGGTTTGTTGTGAATAAATAAATAAATAATGGCTTTCATTTACTGATATTAAATGCCAC AAATAAGGAAAATTACTATTTTATTAGAAAACTGATGTCTCTTAGTATTAAATATTTATTTATCTGATGTCTTATTGGAG AAATCTTTATAAATCATGTACAAATTGTAAGTTAGCAAATGAACTTGCATGTGAATTGAGAACTCAATATCGTGTTTGTG TGTTATTAGAGGCTATGAAGGTTTACCACAAAGGAAATACAAATTAATGGATCCGGATTACCTGCGGTCAAATTTTTTTA AAGTCACTACAAACACATTGTTTGGCAGCCATCATATCGTGACTTGGATTTACAATGATAATGATAGTATGATCCACATG AAATTGGTTTATTAGAGAATACTGAGCGGAGAGTCAAAGAAGTCTTACATTGGCTAGTGTACAAGTATATATATAATAAA GAACACAC

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0041900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGTCGTTTTGCCCTGTCATGTCTCACTCCTTCTTCTGCATTTCCTCTCCAACACCACGTTTTCCATGCTGCAACGA CACCGTTCAATCTCACTGTGCCCCTCTCCCACTCTTGCCCCAACGTTCATGCTCCTCCCAAAGGGGTGCTTGTTTACGAT GGGGGAGGGAATCACCAAGAACCAGGATACATGCTTCATTGGCAGGTGTTTCAGTGGAAGATGTATCGGTAGAAGAAAAA TTACAGCTTCCGAAAGGAGAAACTTGGTCAGTTCACAAGTTTGGAGGGACTTGTGTGGGAACCTCTGTGAGAATCAGAAA TGTTGCGGAGGTTATTATGAATGATTACTCAGATAGGAAATTTGTGGTGGTCTCTGCGATGTCAAAAGTGACGGACATGA TGTATGATCTGATTCATAAGGCTCAATCCCGAGACGATGCATATTTATCTGCTCTGGAAGCTGTTTCAGAGAAGCACAGC TCAACTGCACGTGACTTGCTTGATGGAGATGATCTTGTTGCTTTCTTATCGCACTTGCATCAAGACATCAGTAACCTCAA GGCAATGCTTCAAGCCATATGCATAGCTGGTCATGCAACAGAATCCTTTATTGACTTTGTTGTGGGACATGGGGAGTTAT GGTCTGCACAGATGCTGTCTTATGTTATAAGGAAGAATGGGATTGATTGCAAATGGATGGACACAAGGGAAGTCCTCATT GTAAATCCTACTCGTTCTGATCAAGTTGATCCTGACTATTTGCAATCTGAACAAAGACTTGAGAAATGGTACTCCTTGAA TCCATCTAAGGTTATCATTGCTACTGGTTTTATTGCAAGCACTCCTCAAAACATTCCTACTACTCTCAAGAGAGATGGAA GTGACTTCTCGGCTGCAATTATGGGTGCTCTGCTCAGGGCTCGTCAGGTCACAATTTGGACAGATGTTGATGGTGTGTAT AGTGCAGATCCTAGAAAAGTTTGTGATGCTGTGATTTTGAAGACATTGTCTTATCAAGAGGCATGGGAAATGTCTTATTT TGGAGCAAATGTGTTGCATCCGCGCACAATAATGCCAGTTATTCGATATGGCATACCCATAATAATAAGGAATATTTTCA ACACCTCTGCTCCTGGAACAAAGATCTGCCATCCTTCTCTTATTGGTGATGAAGATAAGAAGATATTAAAAACCTTGGTC AAAGGCTTCACAACAATAGACAACTTGGCACTTGTAAATGTTGAGGGAACTGGAATGGCTGGTGTTCCAGGTACAGCCAG TACTATTTTTTCTGCCGTAAAAGAAGTTGGGGCTAATGTTATCATGATATCTCAGGCTAGTAGTGAGCATTCTGTGTGCT TTGCGGTGCCTGAGAAGGAAGTAAAAGCTGTTGCTGAGGCATTGCAGACAGTATTTCATAATGCTTTGGGTGCACAGCGT CTTTCCCAGGTTTCGGTGATTCCAGATTGCAGCATCTTGGCAGCTGTTGGCCAGAAAATGGCAAGCACTCCTGGAGTTAG CGCCACCCTCTTCAATGCATTGGCTAAGGCCAACATAAATATTCGTGCTATAGCACAAGGTTGTTCCGAGTACAACATTA CCGTGGTTGTTAAGAGAGAGGATTCTATAAAGGCTTTACGGGCTGTGCATTCAAGATTTTATCTGTCAAGAACCACCATA TCAATGGGCATTATTGGACCTGGATTAATAGGGAGTACCCTGCTTGACCAGCTAAGGGATCAGGCCGCAATTCTGAAAGA AGAATCAAAGATTGACTTGCGTGTGATGGGCATCATGGGTTCAAAGCTGATGCTTCTTGATGATGCAGGGATCAACTTAG TTAAATGGAGAGAACTTCAAGAGGAAAAAGGAGAAGCATCTAATTTGGAAAAGTTTGTTCAACATGTACAAGGAAATCAT TTTATACCAAACACTGTAATAGTCGACTGCACATCTGACTCTGTCATAGCAAGCCAATATGATGACTGGCTGCGCAAAGG AATGCATATTATCACCCCTAATAAGAAGGCTAATTCAGGACCTCTAAATCAGTATTTGAAATTAAGAGCTCTTCAGAGGC AATCATACACACATTATTTCTATGAAGCTACTGTTGGAGCTGGTCTTCCAATTATCAGCACTTTACAGGGCCTTCTTGAA ACCGGTGACAAAATATTGAAAATTGAAGGCATTTTCAGTGGGACTTTGAGTTACATCTTTAATAACTTCAAAGATGGTCG GGCTTTTAGTGAGGTAGTTGCTGAAGCGAAGGAAGCAGGTTATACTGAGCCAGATCCAAGGGATGATCTATCTGGAACTG ATGTTGCTAGAAAGGTGATAATTCTTGCAAGGGAATCTGGCTTAAAGCTAGAGTTTTCTGATATTCCTGTTGAAAATCTT GTCCCTGAACCGTTAAGAGTTTGTGCCTCAGCTCAAGATTTTATCCAACAATTACCAAAATTTGACAAGGAGTTAACAAA GAAACAAGAAGATGCAGAGAGTGCAGGGGAAGTGTTGAGATACGTGGGAGTTGTAGACGTGAGAAATGAAAAGGGGGTGG TAGAGCTGAGAAGATACAAGAAGGATCATCCATTTGCACAACTATCCGGGTCAGATAATATAATTGCATTCACAACAAGA AGGTATCAGAATCAGCCTCTCATTGTTCGTGGACCAGGAGCTGGTGCACAAGTCACAGCTGGAGGAATATTCAGTGACAT TTTACGACTAGCCTCCTATCTTGGTGCTCCATCTTAG

Download CDS Sequence

Protein sequence (LotjaGi6g1v0041900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASFCPVMSHSFFCISSPTPRFPCCNDTVQSHCAPLPLLPQRSCSSQRGACLRWGRESPRTRIHASLAGVSVEDVSVEEK LQLPKGETWSVHKFGGTCVGTSVRIRNVAEVIMNDYSDRKFVVVSAMSKVTDMMYDLIHKAQSRDDAYLSALEAVSEKHS STARDLLDGDDLVAFLSHLHQDISNLKAMLQAICIAGHATESFIDFVVGHGELWSAQMLSYVIRKNGIDCKWMDTREVLI VNPTRSDQVDPDYLQSEQRLEKWYSLNPSKVIIATGFIASTPQNIPTTLKRDGSDFSAAIMGALLRARQVTIWTDVDGVY SADPRKVCDAVILKTLSYQEAWEMSYFGANVLHPRTIMPVIRYGIPIIIRNIFNTSAPGTKICHPSLIGDEDKKILKTLV KGFTTIDNLALVNVEGTGMAGVPGTASTIFSAVKEVGANVIMISQASSEHSVCFAVPEKEVKAVAEALQTVFHNALGAQR LSQVSVIPDCSILAAVGQKMASTPGVSATLFNALAKANINIRAIAQGCSEYNITVVVKREDSIKALRAVHSRFYLSRTTI SMGIIGPGLIGSTLLDQLRDQAAILKEESKIDLRVMGIMGSKLMLLDDAGINLVKWRELQEEKGEASNLEKFVQHVQGNH FIPNTVIVDCTSDSVIASQYDDWLRKGMHIITPNKKANSGPLNQYLKLRALQRQSYTHYFYEATVGAGLPIISTLQGLLE TGDKILKIEGIFSGTLSYIFNNFKDGRAFSEVVAEAKEAGYTEPDPRDDLSGTDVARKVIILARESGLKLEFSDIPVENL VPEPLRVCASAQDFIQQLPKFDKELTKKQEDAESAGEVLRYVGVVDVRNEKGVVELRRYKKDHPFAQLSGSDNIIAFTTR RYQNQPLIVRGPGAGAQVTAGGIFSDILRLASYLGAPS

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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
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	23	23	-	–
PANTHER	PTHR43070:SF8 View details on PTHR43070:SF8 Search for proteins/transripts with this domain View external data on PTHR43070:SF8	26	918	893	0.0	–
PANTHER	PTHR43070 View details on PTHR43070 Search for proteins/transripts with this domain View external data on PTHR43070	26	918	893	0.0	–
Gene3D	G3DSA:3.40.1160.10 View details on G3DSA:3.40.1160.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.1160.10	88	385	298	1.9E-100	IPR036393 Show description in modal box View details on IPR036393 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd04257 View details on cd04257 Search for proteins/transripts with this domain View external data on cd04257	89	383	295	1.65379E-137	IPR041743 Show description in modal box View details on IPR041743 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00657 View details on TIGR00657 Search for proteins/transripts with this domain View external data on TIGR00657	89	553	465	3.2E-110	IPR001341 Show description in modal box View details on IPR001341 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00696 View details on PF00696 Search for proteins/transripts with this domain View external data on PF00696	90	371	282	4.6E-44	IPR001048 Show description in modal box View details on IPR001048 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53633 View details on SSF53633 Search for proteins/transripts with this domain View external data on SSF53633	90	384	295	5.37E-71	IPR036393 Show description in modal box View details on IPR036393 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00324 View details on PS00324 Search for proteins/transripts with this domain View external data on PS00324	91	99	9	-	IPR018042 Show description in modal box View details on IPR018042 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.2130.10 View details on G3DSA:3.30.2130.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.2130.10	395	555	161	1.4E-48	–
SUPERFAMILY	SSF55021 View details on SSF55021 Search for proteins/transripts with this domain View external data on SSF55021	398	473	76	4.89E-20	–
CDD	cd04921 View details on cd04921 Search for proteins/transripts with this domain View external data on cd04921	409	488	80	1.64844E-30	–
ProSiteProfiles	PS51671 View details on PS51671 Search for proteins/transripts with this domain View external data on PS51671	414	483	70	11.786	IPR002912 Show description in modal box View details on IPR002912 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01842 View details on PF01842 Search for proteins/transripts with this domain View external data on PF01842	418	471	54	5.1E-9	IPR002912 Show description in modal box View details on IPR002912 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55021 View details on SSF55021 Search for proteins/transripts with this domain View external data on SSF55021	480	568	89	1.05E-23	–
Pfam	PF13840 View details on PF13840 Search for proteins/transripts with this domain View external data on PF13840	487	551	65	1.4E-9	IPR027795 Show description in modal box View details on IPR027795 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd04922 View details on cd04922 Search for proteins/transripts with this domain View external data on cd04922	490	555	66	1.64356E-32	–
ProSiteProfiles	PS51671 View details on PS51671 Search for proteins/transripts with this domain View external data on PS51671	495	572	78	12.0	IPR002912 Show description in modal box View details on IPR002912 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51735 View details on SSF51735 Search for proteins/transripts with this domain View external data on SSF51735	558	732	175	8.21E-36	IPR036291 Show description in modal box View details on IPR036291 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.720 View details on G3DSA:3.40.50.720 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.720	560	911	352	3.3E-133	–
Pfam	PF03447 View details on PF03447 Search for proteins/transripts with this domain View external data on PF03447	566	702	137	7.3E-25	IPR005106 Show description in modal box View details on IPR005106 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00742 View details on PF00742 Search for proteins/transripts with this domain View external data on PF00742	710	908	199	5.3E-55	IPR001342 Show description in modal box View details on IPR001342 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55347 View details on SSF55347 Search for proteins/transripts with this domain View external data on SSF55347	710	895	186	5.69E-53	–
Gene3D	G3DSA:3.30.360.10 View details on G3DSA:3.30.360.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.360.10	721	893	173	3.3E-133	–
ProSitePatterns	PS01042 View details on PS01042 Search for proteins/transripts with this domain View external data on PS01042	756	778	23	-	IPR019811 Show description in modal box View details on IPR019811 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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

GO term	Namespace	Name	Definition	Relationships
GO:0004072 View details of GO:0004072 AmiGO InterPro QuickGO	Molecular function	Aspartate kinase activity	Catalysis of the reaction: L-aspartate + ATP = 4-phospho-L-aspartate + ADP + H(+).	Subterm of View details of GO:0016774 View details of GO:0019202
GO:0006520 View details of GO:0006520 AmiGO InterPro QuickGO	Biological process	Cellular amino acid metabolic process	The chemical reactions and pathways involving amino acids, carboxylic acids containing one or more amino groups, as carried out by individual cells.	Subterm of View details of GO:0019752 View details of GO:0044238 View details of GO:1901564
GO:0008652 View details of GO:0008652 AmiGO InterPro QuickGO	Biological process	Cellular amino acid biosynthetic process	The chemical reactions and pathways resulting in the formation of amino acids, organic acids containing one or more amino substituents.	Subterm of View details of GO:0006520 View details of GO:0046394 View details of GO:1901566
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:0050661 View details of GO:0050661 AmiGO InterPro QuickGO	Molecular function	NADP binding	Interacting selectively and non-covalently with nicotinamide-adenine dinucleotide phosphate, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NADP+, or the reduced form, NADPH.	Subterm of View details of GO:0000166 View details of GO:0050662
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 LotjaGi6g1v0041900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0041900.1