Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0415900
Transcript ID	LotjaGi2g1v0415900.1
Related isoforms 2	LotjaGi2g1v0415900.2 LotjaGi2g1v0415900.3
Lotus japonicus genome version	Gifu v1.2
Description	Pyruvate kinase; TAIR: AT1G32440.1 plastidial pyruvate kinase 3; Swiss-Prot: sp\|Q40546\|KPYG_TOBAC Pyruvate kinase isozyme G, chloroplastic; TrEMBL-Plants: tr\|A0A151TJ29\|A0A151TJ29_CAJCA Pyruvate kinase; Found in the gene: LotjaGi2g1v0415900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:91360708..91374479) extracted from Lotus japonicus Gifu genome v1.2.

ATTTGATGTTTATTTGCTAACGTGTCATCAATTTTGTAGTGCATACTATACTACAGTGTATGGCATGCTGTGAGTCTTTG ACTATCCTTATATGTGACTGTCGTTTGACTTGACTTAAGAATATGAACCCCGAACCCTTCATTTGGTCCACCTCCCTCTG TACACTACACACCACACTCCTTTGTCGTTCGTAACTGGCAACTGAACAAGAATCATAATTCATACTATAGGCATGGCAAC CATTCATCTTTCTTCTGCTTTTGCCGCCACCATCTCATTCTCCCTCTTCAAATATCTCACCGTCACCGACCTTCCATTTC CATTCGATTCCAAGCCCCCAACCACAACGAAACGCATTCCATTCCACACCGTCACGCAAATCAACTCCTCCTATGCCTCC CCCTCACTCGTTCGTAACTTCTTCTCTTTCATCCAGTTTCTCTCTACCACTTGTTTATTTATGGCAATCGATCGATCGTG TTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTGTTGTTGTTGCAGTTCGAGTCTGGTAATCATGGCGTGGGACACACAG GGGAAAATTATTCAGATGCAGAAGAAGCACGTACGAAAACGAAGATCGTATGCACGATTGGTCCATCTACAAGCTCACGT GACATGATTTGGAAACTCGCTCAAGCGGGAATGAACGTCGCGCGTTTAAACATGTCGCACGGGGACCATGCTTCTCACCA GAGAACCATCCATTTCGTCAATGAGTACAATTCTCACTTCCAAGACAAGGTCATTGCCATCATGCTTGACACCAAGGTAC TCAATCAATTGCTTCTTCCAAATAATGCATTTCATCATTGAATTATCATCTAACAACTCATCAATGAGAATTGGTGTATT AAGTATTAACTGAATTTGTTTGCAGGGTCCTGAAGTTAGGAGTGGAGATGTACCACAGCCAATTTTGCTGAAAGAGGGGC AAGCATTCAATTTCACCATTAGGAGAGGGGTATGCACAGAAGACACTGTAAGTGTGAATTATGATGGTTTTGTCAATGAT GTCGAGGTTGGAGACGTCCTCCTCGTTGATGGTAGGCATCGTTCGTAGCCGCTTGTGTGTATTGAAAAATGTTAATGACC TCTAAGTGTGCATCTGTGAAATATTTGTATTGACTTACTGTGAAATGTGCTAACACAGCTTAACTATATTTTGCTGGAAA TCCAATGCTTGTGATCTTGCTTGACTCGGTGGTTTTTTGTTCATTTATTGTCTAATTAATTGCTAACCTTGAATGAACTA CCAATGAGGTACTCCTGCTATTTTGAGTATATTTTTATGATCTAATTAACAATATTTTAGAGGGATTTGTTCAACTGTTG CATGATCGTCAAGTTGGATTATCTGTTAAGATTTTAAAATCTTCTGGTTGTTATTTTAGGAGGAATGATGTCTCTTGCTG TAAAGTCAAAGACAAAAGACATTGTTAGTTGTGAAGTTATTGATGGTGGAGAACTGCAATCTAGGCGTCATTTAAATGTC CGTGGAAAAAGTGCAACGCTTCCTTCCATAACTGGTATAATCATGTTATTATTGTCAATGATGACTCATTGCGCTGTTAT GAAATTTCAGTAATTATGGATAGGATAAATGTGTACAAAAGCATCTGACAATTTGATGCTCTGTTGCCATATGTTTCAAA TTCACAGACAAGGACTGGGAAGATATCAAGTTTGGCGTGGACAATCAAGTAGACTTCTATGCTGTATCATTTGTCAAGGA TGCTGCAGTGGTTTATGAGTTAAAAAAATTTCTCAAAAGTAATTCTTTTTATGTCTAGTACTCTAATTTCTTTTCTGTGT TTGTGCACTGGGTGTGTCCTTTTCTTCTTTATTGGGTTATTTAAGCTTCTCTTCATGAACTAATTGTAAGCCTTTTCTAT AGGTCATAATGCTGATATACACGTGATTGTAAAGATTGAAAGTGCAGATTCCATTCCAAATCTTCATTCAATACTTTCAG CTTCAGATGGGGTTAGTCCTTTACTCTCCATATTATGTATTAATGATTTACATAGGTATATCTTCCAGTCAAAATGATTG GATTTTATACTATGTTGGCAATCAATTTTATTTGCAGTTGACATTGTATTTATTTTTCTTGGTGAAGTTGTTGCTGAACA TATAGAAACAAGAAGTGATTTTAGGGAGGAATAGATATGTACTATGAATAACAATTCTATAGTTCTCTTACTTATGCTTT TTGTGAACATAGTCCCTGGAGAAACTAAAAAATGGATCATTTCAGTTCAGGTTAAATTGTCACTGGTCCAGCGAGAGGAC TTGAAAATATTCTTTAGTCCTTGTATAAGGCACAAATTCAAGTCATAAGATTTCTGTTTTCGTAGTAAGTTGATCAGACT CTGAAATGTATTCTTCAGTCTCAGCAAATCTCATATTCTGCATGGGGTACAAGAGGAACATAATTGCACCTTGAGCCAAT GAGTAGAAGCCATTATAATTTCCCACTCTAAGTATTGCGCATCATATCATGATCATGGTGCATTCCTTGGACTAAATTAC ACTTTCCTAACTTAGGTAGCCATTTGATTCAATCATGTCATTTAACTAATAGATAACATATAAAAATGATTTTGTTTGAC AAATGCCAAATTACGAAAACCTATTGCATATCTTTTAACTAAGTTGTGGTGAAAACTTCCACTTATAACTGATTTTACTA GTAGTAAATACTCTGAACTCTTCTGCACCTTCTGCTAGGTTTTTCAACACCTTCATAGTCTACATTTTAAATAAAGAAAA TTAGAATTTGAAATTTATGCAATATTATGGATCAAAATACGTTTTTTTATCTGTGTGTAGCATCCGGTTTCATTTTGCGA GTTCTCTCTATTTTGTAGGCCATGGTTGCTCGGGGGGACCTTGGAGCTGAACTTCCCATAGAGGAGGTTCCTTTATTGCA GGTGATCTGATACTCACAGTAGCACATGTGTGCCATTTTTGAACGATGTATACCAGTTACTTCATGAAATAGTCTACTTA TTATGTAGGTAATCTTTGTCTGGGTACATCTGATTAGGGATGCAGTGTCTAGTGTCATAGTGAAAATATAATAAAATAAG AGCAACTGCATTAGTTGTTCTGAATTTTATTTTGTAGGATCCTTCTGATATCTTTAGTCTAGTGCATCAATTTTGAGGAA AGCCTTTCTCTTGCTGCTTGCGTAGTTTCACTGCATGCTGTCATGATGTTCTAGAGGGCAGTGAACTCTAAACTTCTCAA AGGCCATCTCACCTTCTGTAAAGGGTGAGATAGAGTTTACATACACTTAGATTCAAATATTTGTCTGTATTTGTGTATAA GCGGTGGCTTTATAAAGGAATTCACTGGATGTCTTAGGTTTAGAGTTTCAAATAATAGGCAATGTGAAACTTTACACAAA CTAGATGGTGGAAGTCTTAGATGATGATGTATGCTGCTTTCGAACTGTTGCTTCTGTTCTCAGTTTTGTTAGTTTTCTGA TATCAGTTCTGCATAAATAAGTTGTTTCTTGTATCAATTTTTTTTCCTTAAATATTACTGGAATAATATATTTCTCCTTG GACTGAAATTATGAAGTAGGACTAGGTTAATTCCGAGTTCTATGGAGTTCATTCCTCGTTTTTATCTATCAGGAGGACAT CATTAGAAGATGTCATAATATGAAAAAGCCAGTTATTGTGGCAACAAATATGCTTGAAAGCATGATTAATCATCCCACAC CAACTAGGGCAGAAGTTTCGGACATTGCAATTGCAGTAAGACAAGGTGCTGATGGTATCATGCTTTCAGGAGAAACTGCA CATGGAAAGTGAGTTTGCTATTCCTTGGTGATCTTGGATTTTTTTGTCTTTATGTTTTTTTTTTTATCAATTATGTTGTT TTTTAAATTTTCATTTTACTATGTTTGTTTTGGTACATTGGAAGATAAACTACATCCCTCCATGGTTGAACCCTAGACCT CCCCCTCCCTAACTCATATGTCCACCAGCTCTTACTACTTGAGCTATCCTTCGGGTAGTTCATTTCACTATTTGAAATGC AAAATAGATACTGATTACCTCTTTTCATATAGAAAAAGTATCATTAGAGAAGAGAATGAATAATTACAAGAATGGGGGTA TCATATCATTTTATTCTTAGACGAAACTAAAAAAATACAAAAAGAAGAACAAATTAAAGAACCTAAACTAAACAAAGCGT GAGAATCTCTCTGCATATTCAACAAAGGGGAAATATACCTTAATTTAGTCTACTTCAAAACTGTGGTCTTTTTCTCTTTT TAATAATTTTCTATAGGCTTAAATACTCTATTAGCCCCTGAAATTATAAAGGGAATCAAACCTAGTCCTTGTAAAATTTT CGCATCAAATTGGGTCCCTAAAATAATTTTTTTAATCTAATTGGGTCCAAAGTGTGTCTGAGTCTGATGTGGATTGTTTT TAATCTCAATCATCTTTTCCACGTGACTTTTTTTAATATAATTATTTGTTCTTATTATTTTTTAATTCCAACTCATAATT AATGAAAAACCTAATTAATCAATTTCTGAAAAACACTAATAACTCAGACCAAATAAAAAGAAAAAATTAGAACCATATCC TTTTTATCATTCAACTCCATCTTTGATAACCCAAAAATTATGAGAAGCAAAGAGAGTTATACTAAATAACTCATAAGGAT TTCAAATTTGTTATGTTAATTAATTATCTTTATATTTTCAAAAAGTAAAAAATATATTAATAAGTTGAAACCAACGTTAG TTTTTTTTTATGATTAGATTAGGTTTTTTTAATGATATGAGTTGGAATTAAAAAAAACAAATAATTATATTAAAAAAAAG AAAAAGCCACATGGAAAAGCTGACCAAGATTAAAAAGAAGCCACATCAGATTCAGACACACTTTGGACTCAATTAGATTA AAAAAAATATATTAGGGACTTAATTTGATGCGAAAAATTTACAAGGACTAAGTTTGATTCCCTTTTCAATTTCAGGGACT AATAGAGTATTTAAGTCTTTTCTATATTAAATTTTTCTGGCGGTTTACAATTGGAAGGCTTATCTTTTTCTGGAGTACAA TGCTTTCAGGAAAAAAAAATCATTCATAATAATAATTAGTTCTTGTTGTCCTGCAATGGCTACTCTAATTTGTCAGACTT TTGTATGTATGTTTGTAGGTTATAATAATTACTATAGTTTATAGAACTACATTCCATTTAAAGATGTATGTCATTCAATT CTTTTTCTTGTTTGTTTTTGGAACCTGGTAATGTAAGAATCATTTGACAGTATGTGTGTTATGCTGATCAATTATGCATT TGATGCATTTCTTTTTCAATATTTTTACTTCAATAAAATTATTTTAAAGACAATTACAACTGCTTCAGGTATCCATTGAA AGCAGTTAAAGTTATGCATTCGGTGGCTCTAAGAAATGAATCAAGTGTTCCCAGAAGTGATGCTTATCCATATCAATTGA GTTCCCATAAAGTACGTTCTTTACTCAGAAATAAGTCTCCTTGTAACTCATGCAGTTTTGGAATTTTGTTTCACGTGCTG TAGAGGATTTATTGATATAGATTGATTATTAATATCTTAAAATCTAATTAATTTTCATTTACTTTTGACAGAACCATATG GGAGAAATGTTTGCTTTCCATGCGACAACTATGTCCAACACTCTTAATACTCCTATTATTGTTTTCACCAGAACAGGATC CATGGCTATTTTTTTGAGCCATTATAGGCCCTACTCAACAATCTTTGCATTCACAAATGAGTGAGTATCTGCAACATGCG TTAATTTTTTATGTCATACGTATATGTATGTGAGATGTAGAAATTATTGTAGGCATGTGATATTCTTTGTTCTTGGTCAA TAATCTTTTGCATCCACAACTTCATGATTTTCGCAGTGCAAGGATTAAGCAGAGGTTGGGACTTTATCATGGTGTCACGC CCATATACATGCACTTTTCAAATGATGCAGAAGAGACCTTCTCTAGAGCCCTCAAACTACTATTGGTGAGTAATATCTCT TTCACTTGCACACATCTCCCTTTTCTTGATGGATTTTGTTATAAATGATGCTGAAAGTCTTCATGCTTCAGAGTAAGGGT CGTTTACAGAAGGGACAGCATGTTACTCTTGTTCAAAGTGGTGCACAACCAATCTGGCGTAAGGATTCCACTCACCACAT TCAAGTTCGTCAGGTTTATGGATAAAATTTATCTTTGAAGGATCTTTCTACATCCTGACCATGCAATTGTTTATCCCCCT GTCCCTCCCCCCTCTTGTTTTCTCTCTTGTAACTAGTTATGCTTCCTTTGAATTATAGTTATGGCTGTAATGCTTGTGAA ACCCCAAAGTTGGACCATGTAGGAATCTTTATGATGCAAATAAGGATTTATTGATGTGTATTACCAATTACCATGGCTTC CATAAATTTTTCTCTCTTGTACTATCTATAATTCTATTCTTCAACATACTTGTCATCATGATGTTTTTCTTGGCTGAAAA AAATCACCTTGTTCTATTGCTATTTGTGCAACCACTGTGACATAGATTTGATTAGTTATGATATTCCATTGTGGCATAAT GTCCTCTTTTCACGAGGGTAAGGTTGTTACTTCTGACTTCTGAGTGCCGACATTCACAATGGTGAGCCTTGGGATTACAT ACACTGGGCCACCCTTTATATCGGGTACAATTTTCAGTCTATACATTTCAAAGGTGACATTAGACATCAAAACAAGAAAA AATAATGAAAGAAGTTAAGTTCTACCTTGTACTACTTGATGAAAGAGAAAACTGGGCCAAACAGGTATACCACTTGTGCC AGATAACAAACGGTGGGACTTGATGGAATTGAATGAGTCGCTCACACAACTATACTTTGGATTAGGAATGATTATACAAT TTCATGTTTCCACTTTTATTTTGCAAAAATTTATTCTTTGGATCAAGCATTGCATCAATTAGCAAATTTTTATATTTTCT ATTAGTGCTGGGGGAGTTCTTGGTACCCTTAAAGCGCATTTTGTAAGTTTCTTATTCTGTCAAATATATTGCAAACAATA TAATTTAATGCTTTATATTGTTGTTTGTAAGTGATCTTATCCATAATTCCTTGCCTGACCACGTTACTGTAGGAATGGCA TTGGATCTGCTACTCTGCCAGTTCAGATTTTATTTGGTGGTTGATTGGCTAAACCAGCTAAATTAAAATATACAGGGAAG TTCTCACAAAAAAATTCTGTTTCTGCGTCTTTGAATTTTTTTACTTAATTTGTGGATTGTCCCCCGATTGCAGTACTTGT TCACGAGAGTTTCAGACATCAGGGAGTGGAGTTCTTGTGTTAGGAATGGACTTCACAAGAGAGAAGGGACGCTTCTATAA ATAGTTGGAACCATTTAACACTAGGAAATTAAAATAGCAATATGTAACTTCTTTAAAATGGAACTTAATTACAAGGTGAA TGGATGCTTCTAGGACCCTAAACAGTCATTGTCTCATCAAAGTTTAGTTTACATAACTCAGGCTTGAAGATACATAAACT GAAAATCCAAAGGTGTCGTAAATACAAACTCCAGTTGGAAGATGGCCAGAGACTCGTGCAGGAAGGGCTTCTCTTTCTGT GAACCTGAAGGAATTTCTTGAAATGGTAAACCACGGTTATTTTGACTAGTTTCTCCTTTCTTTCTCTTACTAACATATGC TGTTACTACTGCCTTAGAATGACATCTCTTGCAAATCAGACTGAGAAGCTACCAGGCTCATTATTCTCTCCACCACGTTT CTCATCCAGTTGTATATTCTTGTACCACTTTGCACATGCAATATAGGCGATCAAGTCGATCGATGTCAAGGCAGCTAAGA GGAAGAAAAACCTGTCTAGGTGACCTTTATTGAGGTTTGCAGGGATCCACCCTGGCACATGATCCTCGGTGGAGATCTTC ATAACTATGCTAACAATTAAGCTACTCACGTAGTTCCCAAGGGAAATTGATGTCATGCAAAGTGCACTTCCGAAGCTCTT TAAGCCGTCTGGTGTCTGCGCATTGAAGAACTCTAACTGGCCTACATACATAAACACCTCAGAAGCTCCTATGAATGCGT ACTGGGGGATTTGCCAGAAGATGGATAAAGTGCTCGTGTCTTTACAGTCGGTACATTCTTGTTTTGCATACCTGAGCCTG TAGCACTCAACTATTCCAGCTGAAAGCATTGCCATCACAGCTATAACAAGTCCAACCCCCATTCTCTGAAGCTCTGTGAG TCCCTTGGAGTTTGACTTTTTAAGTTTTCCGACAAATGGATCAAGAACTCGACGGTAAAAGAAAATGAAGAGACATACAC TGAGGATATCAAAGCAAGACATGCTAGCTGCTGGTATTCTGAAATGGAAAACAGTGGAATCCATGACAGCACCTTGCTCC ACAAAAAGAGAAGCCATTTGTGTGAAAACCACGGAGTATATTATAGTACAGAGCCATATTGGAAGAAGTCTCAGTATGCA TTTCACTTCTTCAACTTGACTTACAGGACAGAGCCGCCAGGGGTTGTAACGGCCGTCTTTCTGGTCCACTACATCTCTTG AAGATATAAGCGCTGCCCTGTCCAAGAACCTTCAATGCAGCAACAAATGGCAAATTGATCAAATCGTTAGCTTGGTAGAA TAAAAAATGGCCAAGAAATGCTGGTAAAGCATATCATGCAGCCAGCCTTAGCTATCAGCATCAGGTATATATAAAAATCA GATAGCAGTTTCAGCTGAAAATAGCGTCTACTACTTACTTGAATCCGTGAGTGTGGAGGATTTTTCTATTGGCATTGGTG GAAGACTCCATTGTATCCAAGTTAAATAAGTCCTCTCCATTTGATGGCATTTGAACTCTCGATTTCCTCGATGCAGCGAC AAGGACTTGGCAAAACCTGGGGAGAGGGTTTCCACTGGGCTTGAAGTGTCTATACCTTTTGGTGCCTGCAAGGAACAATA CCAGTGCAGCAAAGGCAGAGCCTGCAGACACCCAGAAACCTAGAGCCCACATTCCTTCATCCTCCAAATATACCAGACCA GTGTTTGAGAAGAGTTGCCCAAAGTTCAGAGCTAGGTAGAAGTAGCTAAAGAAGGCCACCTTTAAGCGACCCTCTTTCGA GTGCTCCTCATCAAACTGATCAGCTCCAAATGTGGCGATATTTGGTTGATAACCTCCATTCCCCAGGGCAATGAGATAGA TTGAGAGGTAGAACATCCCCATCTCCAAACTTGAGTGTTTCCCACATTGAAGTGATTCCTTCCCACAACCTTTAGGTTTT AGCAAGAAGAGGTATGATGACAGGGATAAGGACATTAGACCCTGTTGTATCAAGCCACAAGGCTCGTTTAGTCTAGGGAT TCATGTAGTAGCAGGCAGAAGTTAAGGAGAGAGAGAGAGAGAGAGAGAGAGATTAAGGACAATAAAACTAGAGAGAAAAA TTAAGGTGTTACTTACTATCACAAAGATGACCTGAAACACAGCACAAGTTTTATATCTTCCCCAGTAAGAATCACTGAGG AAAGCACCCACAAGGGAGAAGATGTAAACAGTTCCAGTCCACTTGCTCACATTGTTGGCTGCTTCAGCATTGTTTTGTCC CACCACCCTTGTCAGGAACAGCACCAGGTTCACTCCGATCCCAAAGAATGCAAGGGTTGCCAGACCTTGGTTCACTAATT AATGCAATCAATGAATCACATAACAAGCAGCATTAGCTCCTTGTTCTTAACTGGATGCGTGAATTAAATACACGCTAACA TGCATATATTGTGCAGCTAGCTATAACTACATGCTTGCCACATTGATAAATATCTATCTATGTGTCCAAGGTTGTGTGTG AATGGGATTCACTTTATCTGAAGTGAGGATTCAGCTAATTAGAGGAGAAAGACATTCTGTTAAGATCATTTACTAAAGTT CCTTTTGAAGTCGGAAATAGTCAATGCACGCCTTGCTCAGGTAGAGTTGCATGCTAAGGAATATGATTCTTTTTTATATA AAAGGAAAAATCATTGAATGTTTTATATGCATGGCTAATTAAGTCAAAGCCGCATCAGTCATCACTCCCTACTATTGTGA GTGTTGGTTGATCTATATATACGTGCACTCTTTTCTAAAATAGACCAAGGACTTTGATGACGCCTCCATGAACTTTTCAC TGAGAGATTATTGCATTGCCATTTATAAACATTATATTTATATATATATCATCACCATATATTTATTTATAAACATTATA TTTATATATATATATCATCACCATATAGTTAGTCGTTAGGTCTGATAGGGTTTGCCTTTATATAGCACGCCCTCATAATA GTGGTTTCACAGGTGACATAACACTGAAAGACTAGGTTTGTAAAACGAAATCAATATATAAATATAAATATATATATATA TATATATTTTAACTACTTTTTTTTATAAAGTGATAAATGATTTTCATATCGTGATGACGTGATTCATGAATTCACCCTGT TATGTCACCGTATGCCGGGTGGAAGACACCTTTGCAAGTCTTTTTTTATTAACACCAAAATCGATATTTAAATATAACGC AAACAAAGTTGATTTATTTTTTCACAAATTTATATTTATTTATTATAATATTATCTTTCCTTTTATTCACACACAAACAA CCTCAATTGACATGGTTTCAGTGTCAGGTATTATTTAATTATCTACACACTTCGCACCACCATAATACCATTTGGTAAAT GAGAATTCCCTTCCATCACCACAAAACAAATTACTGTATAACAAATAAACACAATCCTATATAATTTGTAGCATAAATTA ATATATCCTTTTGAATTTTTTTCATTCGCGATAAAATTAGATTTGTAAATTACAATTCTTTTATCGTTTTTTTTAAAAGG CCAAAAATGCAATTCTTTTGTCTTGATGCCCAATCTCCGAAAATAGAAAAGAAGAAGACATTTTATTTCGCCTTCCTAGA ACAATGACACATTTCATGCTTGTACATTACTTGTTCACATTCTTTATCTCAGCACTTAACGGATGCGAGTCAGAAATAAC CTAAAGAGGATTCTAGAATCTAGATAGATAATTAAGGAACTATACTATTACTAGCTATAGCACTAATCAAGCAACACGCA ATAACCATCTATTACCTAGTATAACAAGCTTAGTTGTCATGCATGCTCTTTTTCTATGCGATAAAAATATACTAAATATA CATATAAACCTACACATGTATTCCGCGGTAAAATGATATATGTCAATGAGTCATGACACATGTCACCACCCTGATTACGT GTCAGTCAAGCATTTCTCTCAAATGCATGCATGCTAAATTTGCTCCATTTTGTATTTATCCTGTTTTCAAAGTTACCGCT TCTTAGTGCCACAGTTTCTGGACTGATGTCGTGTATACACATAAGTCAAGCCAAAAACTTCCATCAAGATTCAGAATCTC TTACTTTCCATTTCCTTGATTCATATCCACTTCATATAAAATTTCTTAACCATCTAGAAGATAGATACAGTGTATATATG CATGCTACAATGGATCATGAGGTAAGCGATAGCCAGGTTGTAACTAGCTGCATAGCACAATTCTCCAGGCAATGCAAACA AAGCTGACAGAAGCTTCGTCTGGTTCATATGGAACACGTTCCTGCATCTGTGTTGTCGTTTCTCCTGATTTAGATAACTT AAGAGCTTGTTTGCTTGTGGCTGTGCAGAACACAAAAGCAAACTTCCCTTGATAAGCTATCTAAATATATACGTCATTAT ATTTGTGAATTTAATTTCTATCTCTTCAACCAGGTTTCTCAAACTTATACGTCACCACCATAGTGTCTGCCACCTGCGAC TGCTCACGTCTATCATCATGAACTATATCCGTGTACGTATACGTATTATTTATACATACGTATTTGCATGTGTATTTTCT TTTTCTTTTTCAGGATTTATTAATCAATAAGCTCAAACTACAAGATATCAATACTAGTTATACTTTTATTACCCCAAGTG ATGGATATAATCTTGGAACTGGTAAAAGAAATCTCCATTAGGAGAAAAGGAAGTAGTACTAGTAGTTATACTAGTACACT ACTGCTACTCTACTTCGGTTTCCTAGATTTCTGTTTCTTGTACATATGGATAAAACCAACTATAAATAACGAAAGATATG TTTATTGGTGACAAAGTTTTTTTTAAAGAGGTAACAAAGTGAATTAGTCCTATATATAAATTTATGAGAATATATATATA TAAATATATATATATATATATATAATTAGTTATATAAAAATTTCCTTTTATCTCTCTTTAAATATTTTGCTTTACTTTAC TTTGTACTTTAAAAAAAATATTTTATATAAGTACAAAAAAAAAAATATTTTATATAAGTACAAAAAAATATTTTATATTT TCTTTCTTTTATGTAACTCATTAGCACCGCTTCATACTTTTGTGTTGATGGTGAGGTGAATAATTAATCTTATGCAAGGC GTATCTGAGGGATCTAACAGTGCCATACTCCTAAGAATTAATCTAATGCAGGGCGTATATGATGGATTTAGCAGGGTCAT ACTCCTAAGAATTTTAATGTATTTATCAACCACATTTTTATATAGAGAATATTAATGTATTTAATTATCAACCATATTTT TATATAGATATTTTGTATTCTAAGTCCAGCCCAAAAAAAATTGTAGATTTTTAACATTTCGTTTTGGCACCTCAATGATA AATCTGGGATAGACCCCTGGTCTCATGGCTATCTAGTCTTATGTGAACCGCATTTTAATTTGTAAATTAAAAGACTGAAG AAGGTGTAGGATTTTCTTATATATGATTTAATGCATTGCTCAATTACAAAAACAAAATAGAAAAATATACTAAAAAAATT ACTCTGCAGATTATGATTTTGAAGCTTACAGAGTATGATAATTCCAGCAACCCATCTTCCAGATTTGGCTCTGATAGCAG GACGGCCATGGAGATCAACACTTCCATCAAGAGTGATTTCTGATTCTTCTTTGAAATGGTCCTGCACAGAGTTTTGAACA CAAAATAAATAACAGGATTATTCATTTTTACCACACCCATATTGTTGATAATCCTGATGATGCCCGTGCTTAATTAGAAG ATGCATAAGGTGATCACCACAATGTAGTAACAAAAACAACTAGAATTCTGATCCATGGCTCTACATATATGGTCTTTGAC TCAGACAAAGGATAATTAAGGCATGATAATGAGTCCTTTCAGGTTTTTAAGAATTAATTAGCATGGAATCAATAAACTTG TAATGAATGTATTAGCTTGATTTGTTTAGACTAACCTCTTGGCAGACCTGTAACGCTGAGCAAGACATTGGTGATCACAA AGACTGAAAGAAGTTCTATTGTTTTTTTAATTCTGCTGCAAAATGCAGGGGAGGGAACACTGGAACAGGGGCAGAGGAAG ATTGTCAATTGAGGTGAGGTGAAGGCTAATGAGAAGAAGGAAAGTTACTCAAGATAGAAGGAGTGACATCAATATATAGA GGAACTGAAGGGTGATACATGCATGAACGGTGGAGATTTCAGGGTCCACATGACACCACAAAATCATCCAAAACTGTGAA AATTCAATTTCACAAAAGTATCATGATATTTGATGCGTAACTAGAGATACTACATTTTAAGTAAAAGTAAAGAGGTGTTA TAGAAGTAGAAG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0415900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCAACCATTCATCTTTCTTCTGCTTTTGCCGCCACCATCTCATTCTCCCTCTTCAAATATCTCACCGTCACCGACCT TCCATTTCCATTCGATTCCAAGCCCCCAACCACAACGAAACGCATTCCATTCCACACCGTCACGCAAATCAACTCCTCCT ATGCCTCCCCCTCACTCGTTCGTAACTTCTTCTCTTTCATCCAGTTTCTCTCTACCACTTGTTTATTTATGGCAATCGAT CGATCGTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTGTTGTTGTTGCAGTTCGAGTCTGGTAATCATGGCGTGGG ACACACAGGGGAAAATTATTCAGATGCAGAAGAAGCACGTACGAAAACGAAGATCGTATGCACGATTGGTCCATCTACAA GCTCACGTGACATGATTTGGAAACTCGCTCAAGCGGGAATGAACGTCGCGCGTTTAAACATGTCGCACGGGGACCATGCT TCTCACCAGAGAACCATCCATTTCGTCAATGAGTACAATTCTCACTTCCAAGACAAGGTCATTGCCATCATGCTTGACAC CAAGGGTCCTGAAGTTAGGAGTGGAGATGTACCACAGCCAATTTTGCTGAAAGAGGGGCAAGCATTCAATTTCACCATTA GGAGAGGGGTATGCACAGAAGACACTGTAAGTGTGAATTATGATGGTTTTGTCAATGATGTCGAGGTTGGAGACGTCCTC CTCGTTGATGGAGGAATGATGTCTCTTGCTGTAAAGTCAAAGACAAAAGACATTGTTAGTTGTGAAGTTATTGATGGTGG AGAACTGCAATCTAGGCGTCATTTAAATGTCCGTGGAAAAAGTGCAACGCTTCCTTCCATAACTGACAAGGACTGGGAAG ATATCAAGTTTGGCGTGGACAATCAAGTAGACTTCTATGCTGTATCATTTGTCAAGGATGCTGCAGTGGTTTATGAGTTA AAAAAATTTCTCAAAAGTCATAATGCTGATATACACGTGATTGTAAAGATTGAAAGTGCAGATTCCATTCCAAATCTTCA TTCAATACTTTCAGCTTCAGATGGGGCCATGGTTGCTCGGGGGGACCTTGGAGCTGAACTTCCCATAGAGGAGGTTCCTT TATTGCAGGAGGACATCATTAGAAGATGTCATAATATGAAAAAGCCAGTTATTGTGGCAACAAATATGCTTGAAAGCATG ATTAATCATCCCACACCAACTAGGGCAGAAGTTTCGGACATTGCAATTGCAGTAAGACAAGGTGCTGATGGTATCATGCT TTCAGGAGAAACTGCACATGGAAAGTATCCATTGAAAGCAGTTAAAGTTATGCATTCGGTGGCTCTAAGAAATGAATCAA GTGTTCCCAGAAGTGATGCTTATCCATATCAATTGAGTTCCCATAAAAACCATATGGGAGAAATGTTTGCTTTCCATGCG ACAACTATGTCCAACACTCTTAATACTCCTATTATTGTTTTCACCAGAACAGGATCCATGGCTATTTTTTTGAGCCATTA TAGGCCCTACTCAACAATCTTTGCATTCACAAATGATGCAAGGATTAAGCAGAGGTTGGGACTTTATCATGGTGTCACGC CCATATACATGCACTTTTCAAATGATGCAGAAGAGACCTTCTCTAGAGCCCTCAAACTACTATTGAGTAAGGGTCGTTTA CAGAAGGGACAGCATGTTACTCTTGTTCAAAGTGGTGCACAACCAATCTGGCGTAAGGATTCCACTCACCACATTCAAGT TCGTCAGGTTTATGGATAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0415900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MATIHLSSAFAATISFSLFKYLTVTDLPFPFDSKPPTTTKRIPFHTVTQINSSYASPSLVRNFFSFIQFLSTTCLFMAID RSCLFVCLFVCLFVLLLQFESGNHGVGHTGENYSDAEEARTKTKIVCTIGPSTSSRDMIWKLAQAGMNVARLNMSHGDHA SHQRTIHFVNEYNSHFQDKVIAIMLDTKGPEVRSGDVPQPILLKEGQAFNFTIRRGVCTEDTVSVNYDGFVNDVEVGDVL LVDGGMMSLAVKSKTKDIVSCEVIDGGELQSRRHLNVRGKSATLPSITDKDWEDIKFGVDNQVDFYAVSFVKDAAVVYEL KKFLKSHNADIHVIVKIESADSIPNLHSILSASDGAMVARGDLGAELPIEEVPLLQEDIIRRCHNMKKPVIVATNMLESM INHPTPTRAEVSDIAIAVRQGADGIMLSGETAHGKYPLKAVKVMHSVALRNESSVPRSDAYPYQLSSHKNHMGEMFAFHA TTMSNTLNTPIIVFTRTGSMAIFLSHYRPYSTIFAFTNDARIKQRLGLYHGVTPIYMHFSNDAEETFSRALKLLLSKGRL QKGQHVTLVQSGAQPIWRKDSTHHIQVRQVYG

Download Protein Sequence

Domain prediction

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

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	58	58	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	59	78	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	79	82	4	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	83	99	17	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	100	592	493	-	–
PANTHER	PTHR11817 View details on PTHR11817 Search for proteins/transripts with this domain View external data on PTHR11817	115	590	476	0.0	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51621 View details on SSF51621 Search for proteins/transripts with this domain View external data on SSF51621	115	455	341	2.55E-91	IPR015813 Show description in modal box View details on IPR015813 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11817:SF63 View details on PTHR11817:SF63 Search for proteins/transripts with this domain View external data on PTHR11817:SF63	115	590	476	0.0	–
Pfam	PF00224 View details on PF00224 Search for proteins/transripts with this domain View external data on PF00224	122	458	337	9.4E-116	IPR015793 Show description in modal box View details on IPR015793 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01064 View details on TIGR01064 Search for proteins/transripts with this domain View external data on TIGR01064	122	590	469	1.4E-153	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.60 View details on G3DSA:3.20.20.60 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.60	122	460	339	1.5E-159	IPR040442 Show description in modal box View details on IPR040442 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	179	195	17	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50800 View details on SSF50800 Search for proteins/transripts with this domain View external data on SSF50800	190	281	92	1.17E-19	IPR011037 Show description in modal box View details on IPR011037 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.40.33.10 View details on G3DSA:2.40.33.10 Search for proteins/transripts with this domain View external data on G3DSA:2.40.33.10	191	284	94	1.5E-159	IPR015806 Show description in modal box View details on IPR015806 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	303	317	15	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00110 View details on PS00110 Search for proteins/transripts with this domain View external data on PS00110	331	343	13	-	IPR018209 Show description in modal box View details on IPR018209 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	333	359	27	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	360	384	25	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	385	409	25	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	410	428	19	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01050 View details on PR01050 Search for proteins/transripts with this domain View external data on PR01050	429	445	17	2.7E-62	IPR001697 Show description in modal box View details on IPR001697 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52935 View details on SSF52935 Search for proteins/transripts with this domain View external data on SSF52935	439	590	152	1.08E-29	IPR036918 Show description in modal box View details on IPR036918 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.1380.20 View details on G3DSA:3.40.1380.20 Search for proteins/transripts with this domain View external data on G3DSA:3.40.1380.20	461	566	106	1.5E-159	IPR036918 Show description in modal box View details on IPR036918 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02887 View details on PF02887 Search for proteins/transripts with this domain View external data on PF02887	480	571	92	6.5E-14	IPR015795 Show description in modal box View details on IPR015795 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:0000287 View details of GO:0000287 AmiGO InterPro QuickGO	Molecular function	Magnesium ion binding	Interacting selectively and non-covalently with magnesium (Mg) ions.	Subterm of View details of GO:0046872
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:0004743 View details of GO:0004743 AmiGO InterPro QuickGO	Molecular function	Pyruvate kinase activity	Catalysis of the reaction: ATP + pyruvate = ADP + phosphoenolpyruvate.	Subterm of View details of GO:0016773
GO:0006096 View details of GO:0006096 AmiGO InterPro QuickGO	Biological process	Glycolytic process	The chemical reactions and pathways resulting in the breakdown of a carbohydrate into pyruvate, with the concomitant production of a small amount of ATP and the reduction of NAD(P) to NAD(P)H. Glycolysis begins with the metabolism of a carbohydrate to generate products that can enter the pathway and ends with the production of pyruvate. Pyruvate may be converted to acetyl-coenzyme A, ethanol, lactate, or other small molecules.	Subterm of View details of GO:0006754 View details of GO:0006757 View details of GO:0009166 View details of GO:0016052 View details of GO:0019359 View details of GO:0042866
GO:0030955 View details of GO:0030955 AmiGO InterPro QuickGO	Molecular function	Potassium ion binding	Interacting selectively and non-covalently with potassium (K+) ions.	Subterm of View details of GO:0031420

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0415900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0415900.1