Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0283600
Transcript ID	LotjaGi2g1v0283600.1
Related isoforms 2	LotjaGi2g1v0283600.2 LotjaGi2g1v0283600.3
Lotus japonicus genome version	Gifu v1.2
Description	Phosphoenolpyruvate carboxylase; TAIR: AT1G68750.1 phosphoenolpyruvate carboxylase 4; Swiss-Prot: sp\|Q8GVE8\|CAPP4_ARATH Phosphoenolpyruvate carboxylase 4; TrEMBL-Plants: tr\|A0A151QSL0\|A0A151QSL0_CAJCA Phosphoenolpyruvate carboxylase 4; Found in the gene: LotjaGi2g1v0283600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:75590798..75601567) extracted from Lotus japonicus Gifu genome v1.2.

AATTTTTTCATGTATCTAAAATTTGATTGGGTTACATTGCATATGCATTTTCTCCAAGTTTATTAGGAGCATATTCGAAT TTGGATGATGATGCATGAAATAGAAATATAATTGACCAAGTAATCAGAGTGTGTTACATTCCACACCGTGGAGCAGGGAA CAGTCACAGTTTCACAACCGTTCCCTCCGCTCCCGCGGTGGTTGCCACTTGTCAGCACCCATTTCGCCACCTTATAAAAC ACCATTACCATGCTACCTTCTCTCTTCTTCCACCTGCAACCATTCTCTCTCTTTCTTCTACATTCATTGCTACGTTGTAA CAACAATGACGGACAACACTGACGACATTGCAGAGGATATCTCGTTCCAGAGCTTCGACGATGACTGCAAATTGCTTGGC AATCTTCTCAACGACGTTCTGCAGCGTGAGGTTGGCACCCACTTCGTTGAACAGCTCGAAAAGATTCGAGTCCTTGCACA GGTTTTGCCTTCATTCAGTCATTTTCTCAAATGGGTTATGCTCACTTTGCATGTTCTTAGAATATTCACCCTTGTTATGG GGTTTAGCTGTTTTTGTTTGTTTGTTATGATTTTCATTTTATCACTGTTTTCTGGGAACCATGCTTGATTGCTGAGAAAA ATGGTTAGTGAACGCTGAAGGATGAAACATGACATGCATTTAATGTTTTAATATGCTGCATGCAAGTTTGGTTGCATTGG ATGTGATAATCAAAGACTCAGATGATGACTGAAGCAACCCTTTATGGCAGTTTTTGATTGGGAGTGTACTTAACTCAAGT TATGAAAAAGCTTCAATGTTCTTTGTTAAGATATGGGGATTGATAATTGCTTTGTGTTACATTTGGCTACCAATTTGTAA GGTGTCCTCAAATGATAGCTCAAGTGGTAAGAGCTAGGGGACATGTAGCTTGGGTGGGGGAGGTCTAGGGATCAATCTCC GGCGGGTGTAAATTATATTTCCGATGTACCAGAAAAAAAAATTTGTAAGGTGAAAATCTAGGATGTGAAAGTTCATTAAT ACTTTTTCTTTTTCTTTCCCCTTTCAGAGTGCATGTAATGTGAGACAGGCAGGGATTGATGATATGGCAGAGCTGTTAGA GAAGCAGTTGGCTTCAGAGTTATCCAAGATGACATTGGATGAAGCTCTGATGATTGCTCGCGCCTTCAGCCATTATCTTA CTTTGATGGGTATAGCTGAAACCCACCATAGGTAGTTTGGCTTTTCAACTTTTTAACTTTTGGTCTTTTATTCTGTTGTT TGAATATTTGTCTTGTCTCTTTCACTGATTGCTATGAAAATCAGAACATGAAGACTGGTGGTGACTTTGAGAGAGTTTTC TGTAGTTCCATTTCTTGCCTTGGACCTTGGCAAGTTATTCTTTCTCACAAACTCTGTTTATGCAGGGTTCGTAAAGGAGG AAATGTGTCAATTTTCGCAAAATCTTGTGACGATACCTTTAACCTGCTGGTGCAAGGTGGAGTTTCCCCAGATGATCTTT ATAACACAGTTTGCAAGCAGGTCTGTTTTTTTCTTCACTTCTGTGCAGTTCTGAGTAAAGATGGAAATAGGCTAGACCCT TCATTATCATTCTAACCATTTCTGGATTCTTCGAATAAAAAAGTGGAATGGAGATTATAATATGTAATTATTTACCTTCT AACCATTATCATTAATGATGCAGTTGTTTCTTATTTCTGGTGATTATTCCCTTATATGATTTCCTAGTCTGTTTTGTTAT TCAAAATCCAAGTCTATTTTCGTTCCCACAGGAGGTTGAAATTGTTCTTACAGCTCATCCCACACAAATTAATCGGCGTA CCTTGCAATTCAAACACATTAAAATTGCTGTGAGTTCATTTTTTTTTTTTTTTTTTTTTTTTCATTTCAAGTGAAACTTA TTTGGCTTTAGTAAAATTACTATAGGCTTGAGCCTTGAACTTTAAGTCTCAAATATCATATAGCTGTTTTGTCTCTAACT ACTTCCCCCCATTCATGCAGCATCTTTTGGATTATAATGATCGACCTGATCTCACCCATGAAGATCGAGAAATGGTGATT GAAGATCTGGTACTCTTCAGCGAACGACCACTGTTTTACCACAAACAATTTTTTTTTTCACTGTAGTGCTTTGTGGGGGG GGGGGGGTGTGTGGGGGGGATATTCTGTAACTGTAAAATGGGTTTTGCAATTTCTTTTTCTAGTACACTTTCTTTTATTC TCATAAACATTCGATTTGGTAGGTGAGAGAGATAACTTCAATATGGCAGACAGATGAGCTTAGGCGCCAGAAACCTACAC CAGTTGATGAAGCTAGAGCTGGTAAGCTGCTTGAGTATTATTTGTTAGATATAAAACCATTCATATTCCTTACCTGAAAG ATTAAGCTTTTTAGTTAGTATTCCTTAACAATGTTAAGTCCCTTCTGACCAAGTGGTCATGAGTTTGGTCATTCTCAACA CCTAATAGCTTAACTCTTGAAATTATATATGTCAGATGTTGTATGATTTGATTCACTGAAAAAAAGTGGAAGAACACCTC AGTTTATTTCTCAATTCTCCCAGGGTTGAATATTGTGGAGCAGTCACTCTGGAAAGCTGTTCCTCGTTATTTACGTCGGG TCAGCAATGCTTTAAAGAAGGTTTGTTCACCTTTAATTTTTGTCAATGAATTTGTAGATTCTTCCCCTTTAAGATTTTCA ATGCAATCGATCCTTCCTTGCAGCACACGGGAAAACCACTTCCATTGACTTCCACTCCCATAAAGTTTGGATCTTGGATG GGAGGTGATCGAGATGGAAACCCAAATGTGACAGCAAAGGTAGGCTTTTTAAAATTCCATTCATGCTACCTGTACTTCAT GGTTTTATTTTTATTTATTTTTCCCAATAACTAAAGGAGTCTTTCTGAACAGGTGAGAAGTTTTCTGATAGTGGAAGCAT AGTTGAATTTTGTTATAACATTATATTGTTGACAATCTGAACATTTGCTGTGTGTCTGTCATTTGGGGAAGCACAAGTTT ATTGATGATTGAACTGGGAAAACTGTATACAAAAATAAATGAGTGATCAATATGTTAAATATTTCTTTGAATAATATTCT TGGAGCTTTGCCAATTACATATTTTTTGATAACTTTTACATAGAGGCGGCTTTGTTAGAAAGTTGATAGCCAATATAAAG TTTTGTAAGAAAATTTGGTTTTTGATTTGGCCCAGTGGCATCAGTTGATCCATTTTGTCCATTCCACAAAGTGCGGGATA ATTGATAAATCTAGATTGTTGTTGTTGTTATTATTGTTGTTGCTGCTGCTGCTGTTATAGTTTTCAAAAGGTGGTGGCAG GATGTGCATCGGTGTTTCAATTGTTGAAGTCTGTTGCTTGTAATTTAAACATTATCACTAAAATGCCTGAATGTATCCGG GTTATCTAGGAGTGGAGTTTTGTAGTTATAGAATATTTACTTTAGTGATTTTGATTTGTTCCTGAAAATCTTGAACTTCT GTAATTGGTTTCCCTTTTGTTCTTCAGGTCACAAAAGATGTTTCACTTTTATCAAGATGGATGGCAATTGATCTCTATGT TCGGGAAGTGGATAGCCTGAGATTTGAACTATCCATGAACCGGTGTTCTGATGAGTTGTCCAGACTGGCACATGAAATTC TAGAAGGTTATTCAGTTTAATATTGTATTAGTTGATATCTTCCAAATGCTAGTGAACGATGTAGTCTTCTTTGTTTGTAA CTTTGTATCATGTGACCACTGAATACCATTTGTCCAGAAGTATCATAGGCTCATTGCATACAACCAAATTGAAATGATTA TAGAAGAATAAAGTTGAATATTTTCAGTTTAGTTTGTTAGATTATCATATGAACTTTATAGTCTTTTTTAAAACCTTACC ATTATGGATTATGTCATTGTTTAAATGAGCGATGGTAGTCTATGTGTATTTACTCTTGTGGCTCTGTAATGTGTTTGATC CCTGTCTGGTCTATTTTATGCATTTTTCCTATGGTGGTTGGAGGCATTTGGAATACCTTTAAAGTTATCCTGGATTGGTG ACAGATCCACTTTCTGGCCATGCTAATAACTCACCAAATTTTTTGGTCATACTTTTTTCTTGTTTTCAATGACATAAACC TGTTGACTTTTATGTCTAATTCACTCTCTCAAATTTTGTCCAATTTAAGGATATGAGATTGACTGTAGCTGCTAATGTGA TGTAAAAACTTAAGAGCTAACTACATAGTTTCTGTGGAATATTTCTAAAGGTTTCATATAATTTCAAATGGGAGTTTTCT TCCAGTATCACTACCTTTGTCAATATATTAGACTTGTATTTATATGATCAGTGGCAGATATTTCTATGTGCACAATGTAG TGTTCTTTATATTATGGTTTGCCACTGTCCTCAAGACATGCTTGATACTCTTTTAATGCATGTAATAGTTGATCACCACT TCTTTCTTTTCAGAAGCTAATAATGAGAACCAATGCGAGCATTGGAATCAATCTGCGAGTAGAAGTCAATTGAAAAATCA AAATCCTTCACTTCCAACTAAACTTCCATCTAGAGCTCATTTACCCTCTTTTGCTGGTATACATTAGTTTGCTCAAAATT TCTGTCTAGCCATTTGTTTGCTTTTCATGTTTTAGTGGGAATTTCCTCTCTAAGAACTGCATAAAAATATTCACATGTCT TTATGTGTCTCGTAACTATACTATTCTTTAGGGAACTCCCCTTACTGATTGCATGATATTGAAATGGAATTCCACCAATT TCTAAGATAACTTGTTCTTCTTCATGCATGAGGATAAGGTGCATTTTAATTCATTTGTTGACACATGACAATAAATTCCT GGCTCCTCCTCTCCTGCACCATGGTTTTTGGGGGGACACACACACACGCGCATGGTTTTTGGGGTGATCTCACCTTTTAT CATTCTGCCAATTGCTTATTTGAGCGCGCACACACACACACACACACATTCTTGCCCTAATCAAATATATCTCATTATCT ATTTCAAAAATCTGGTTTAAACATATTCTTTCATGTAGAAAATGGTCAGTCTGAGCATCCCAGACTCGACATTCCGGGAT CTGATCACAATAAACTCAATCACAAGGTATATGAATTCAGTAATTATAGGATTTCTTAATTTTCCATTGAATCCTAGATT ATATAAATGTCTACATATTTTCACTGATAGGATGGTAAGTTTTCACGTTCAACTAAGAGCGATGGTGGAAGTTGCAAAAT TCATTCATCGCTAGCAAGTCCAGCTAATTCCAATGCTTCTTCACCACCTTCAATTTCACGCTCTCCTTCTCAACAACTTC TTGCTCAGAGGAAATTGTATGCGGAATCCCAGATAGGAAGATCAAGTTTTCAGAAGCTTTTGGAGCCAAAGCTCCCTCAG CGTCCGGGAATTGCTCCTTACAGAGTTGTCCTTGGGAATGTAAAAGATAAGGTATTACTTCTGATTTACTTGAATTATAC TTCAAAGATGACTGACTGTATGTACATCATAGATATTCAATTTCTGCTGTTGTACTTTATACAATGCATGTTATATATGT TGCTTCTTTCCTCGAGGTTATTAGCTTTATACCCTGACCTATGCTAGAGCCTAGATGTGTTCCTGTGCTGGTTCTATAAA GGCTTTAAATGAATCCTTCAGACAGTAGTTTGAAAAGAAAATAACTGATGTTGCATAGTCTTAGAATTTGGGAGGCCTAA CTCAACCCCAAAAGCTAGCTCAAGAGGCCAGGATTGTCTTCCCATATATAAGGGTTATCTTGGTCATATGAGGAGCCACA CTTAATATGGTGAAAGCACATTGTGTTTTGTTCAAAGGTTGTCAAATGATCTTGAGATAAATCTATTGCTTAGTTCGAGG CCTTTCACTTGGCGGATGCTTATATAGACAGCATCATTTGTGCTAGTGTGTGTATAATGTAAAACATATATTTCCCCATT TGATTAGAATAATTGTCCATAAAGGGTTTGGTTCTGTATGTGTCATTAAGACTAATTCATATCTGCATATGTTACTGAAC TTGCTAATTTTATATATTGTCATGTTAGTTGGTAATTTTAAATTGTCAATCTATGGTGAGATAGTAAATGCTTACATCTT CTGTTCCATGTGTTTTAGCTTCTGAGAACTCGTAGATTATTGGAGATTCGTCTAGAGGAAGGTCCATGCGAACACAATCC TTCTGATTACTTTGAAACTAAAGATCAGCTTTTGGAACCTCTGCTCCTCTGTTATGAATCTCTGGTACTCTTTAACCTTC TCCTACCCATCTTTCCTCCAAGGTTGTCCAAATTTATTATTTAGCTCTCCATTTCTTCAGCAATCATGTGGATCCGGGGT GCTAGCTGATGGTCGACTTGCTGATCTGATTAGAAGAGTTGCTATCTTTGGCATGGTGTTAATGAAGCTTGACTTGCGTC AGGTCTGATTTAAGGTTTTTGCTCATTTTTGTTTGGATAACAAGTTGTGTCCTGAAACTAGCAGTGTGACAGGAATCTAC CAGACATGCTGAAACACTGGATGCAATTACAAGGTATTTGGATATCGGAACATACAGTGAATGGGATGAAGAAAAGAAAC TGGACTTCTTAACTAAAGAACTGAAAGGGAAGAGGCCACTGGTTCCATATGGTATAGAGGTGAGATGGATAATATATACT AAGGCACCAGCTTTACGAGCTTTGTATCTAGGGACCAAAAACTTATTTAAGCCTATTTTTATTTTAGATACGGAAAGAAG TTGATATTTTTAAAATTCATATCTATTTTATTTTCATTTATTTATATGAATGATTGAATTTTGAATGTGTTGTTTTGTAT AACTGAAATCTACAATTTAGACTCGTTCTATATCTTGCTTTTTGTTCTTTTTTATGCTTTAAGTGGAGTAGCAAAATTGT TTTGATGCTAAACTCCATATCTCTGAAGTTAATTTGTTGTGCAGCAAATCATGGATACTACTACCACTGCACTATGAGGA GCTTCCTAGTTGAATTTCGTCATTAAACGAACCATGATATGCTGCATGCTCATTCCAATGTTCTTTCCTAGTTTATGCTT TAAATAAATGTAATATTTTTTTGGATTTTCTGGCTATCCCCACAATCTAATTTTGGTATCCTAGTTAGACTCAAAATATA AGATTATTTGTCGAATTTTAGCCTAGATACAAATTTTTTTCTTTTCTATTATTTTTTGGCCTGATTTTATGCACCAATTC CAAACTCTTGAGGGAATACTTGTTGAAATTCTTCGTGTTTTATTACTTCCTTTCAGAATTGAAAAACAAAAAGAAAATGA AGAAAATAATGATATAGTAAGAGTGTAATGAGATCTGAAACAGTTCTTGTTCTCATTATATGTATTGTGGGTTAACGAAA TTCCTGATTGAAGCATATGCCTTCTGAAACTTTGTTTGTAACCTCAGCGATGGATTGATCCTGATCCATCGTTCAAGTTC TAATTCGATATTACATCCTTTCATTATCAAACCCGTTTGACCAGGGTATTTATTTCTTAATGGGAATTAAATTCATCTCC CTGAATTTCTGTTTTTGATTCTATCTGGATTTATTCCTTTCAGGTTTCTCCAGATGTTAAAGAAGTCTTGGACACATTCC AAATTGCTGCTGAGCTTGGAAGTGATTCACTTGGAGCCTATGTTATCTCCATGGCCTCAGATGTATGATTAACTGCCATT ACTTTTACAAATTATACATTGACTTTGTCATTGCAACTCCAATTTAGGTTCTGAACTCAACTGACCTTTTGACATTGAAT CATTTCTTTGAGGTGTTTGGCAATCATTTATTGACTTTTTTTTCTTCTTCTTCTTGTTTGATTTTACAGGAAAAGAGTCA TTTTTGTTTTATTCTTTGGAGCCGATGTTGATAAAATTTAGTTATTTAATATATTATTTCCATTTTAACCCTACAGTGGC ACAACCTGCAAAAGAAAGCATCTAGGGACTAGGATATTCGAAATGAGCTGTTACTTGTTAGCCTTAATATTGACAGTTTC TACATTGCTTGATTCTCAGGCAAGTGATGTCCTTGCAGTAGAGCTTTTACAGAAGGATGCACGGCTTGCTGTTAGTGGGG AGTTAGGAAGAGCATGTCCTGGTGGAACGTAAGTACGGAACTGAAATGTTTGTATCCATTGAGTAGAACTAATCTAATGA TCTTTATTACACTTACCTGATCATCACGATGCTTGAGATGTAAAATCATTCTTGCAATTTGTATCTTCATGTATATATTA TTCTCCAAGTTAAAAATTGGAATAAATGTGTGAATCATGTATATTACATGTTAGCTATACTCATACACTCATGATTCATG CATGTAAATTTTATATTACAATGCTTGTCAAGTCCAAGAAACTTAAGTCAATTTTCTTGTTAGTGTTTGGAAAATGAGTA GCAGGACTTGCCTGATCTTATAATTTAGAATCAGAAGAACACTCTAGTTTTCATTATTTGTATTGGGTCAAAAGTTAAGG TGGTAGGAGAAGAGAAATTTTATGATTTGACTATGACAAGTTTGTGGTAAATTTCTGGATAATTGGTCTCAAGACTCCCC AGCACTAAAAAATTATCCGTTCAGTTAGAATGTTTGAAATTTAAAGACATGCATGTTTCCAACACAGGCTACGGGTGGTT CCTCTATTTGAAACTGTCAAGGACCTAAGAGCTGCTGGTTCAGTTATTAGAAAGCTGTTATCAATTGATTGGTATCGCCA ACACATCATTAAAAACCACAATGGGACTCAAGAGGTACTTTTTAACTAGAGATTCTTTTCATTTATAATATAGCTATTAT GGGGAACTTGTGCTAATATTATGAATTCCAATATGCAGGTTATGGTTGGGTATTCTGATTCTGGTAAAGATGCTGGGCGC TTTACTGCTGCTTGGGAACTTTACAAAGCTCAAGAGGATGTTGTGGCTGCTTGCAATGAGTACGGTATTAAGATTACCCT GTTCCACGGCCGTGGAGGGAGTATTGGTCGCGGTGGTGGCCCAACGTATCTAGCTATTCAGTCCCAACCACCTGGCTCTG TCATGGTGGGTTATGAATCTGAACCATAGTTATTAGTTTGATATCTAAATGCAATAGTCTGAATTTATGTTTCACTTTCA TTTTAGAAAAACCCAGCTGTTTCAAACTGATGGTATTAATCTATACTTTTGTTAATTTTTCTGGAACATAGTTCGAATCC AGAACTACACTTATAAGGGGCCGGGGTGTTAGTTAATTCAAGAATCATCTTCCTCATGATCATAATAGGGAGGCAATGTA CATATAAATTATTGAGCTGCTGCTAGTGGGTTATCATAGAAACTTGTCATGCATTTTATGTTTCTTTTGTTCATATTGTT GATTTTCTGATTTTTATGTCTCGTAAACCATGAAATTGTCCAAGATTAAGTATCAGCTAGCATTCAGTAAGCCAAACAAC TCTTGAGACAAGAAGATAATTTGAAATTTATTATTTACTTGACAGCCAAGCTATATGTTTAACTATGCGAACTACATTTT GGATCATCTTTCCATTTAGTCTCCTGGAAAATCCGTCTTGCTTTTGATTTGCTGTCATCTGCATAGACATTGGAAGCACA ATTTTGTTCCATCTTTAACTGCATGTTATACATAACAATGCTCTAATAAATGATACTCCTCTGGTGTGTTTACACGTAGG GAACTCTTCGGTCAACTGAGCAGGGGGAGATGATACAGGCCAAGTTTGGGTTGCCACAGACTGCTGTAAGACAGCTTGAA ATATACACAACAGCTGTGCTACTTGCAACCCTTCGTCCACCGCTCCCGCCCCGGGAAGAAAAATGGCGCAATGTCATGGA AGATATTTCACAAGTCAGTTGCCAGTGTTACCGCAGTGTAGTCTATGAAAATCCAGAATTCTTGTCCTACTTCCATGAAG CTACTCCTCAAGCAGAGCTTGGCTTCCTCAACATTGGTAGCCGCCCCACAAGAAGAAAGAGCTCATCAGGAATTGGACAC CTTCGTGCCATACCATGGATATTTGCATGGACCCAAACCAGATTTGTTCTTCCATCCTGGCTTGGAATTGGAGCAGGTTT GAAAAGTGCCTGTGAGAAAGGACAAACAGAAGAGCTCAGAGCCATGTACAAAGAATGGCCTTTCTTTCAAAGCACAATAG ACCTGATTGAGATGGTTCTGGGAAAAGCAGATAGTCCCATTGCTAAGCACTATGATGATGTTCTCGTGTCAGAGGAGAGA AAGGAACTCGGTCGTCAACTACGGAGCGAGCTTGAAACAACTGGGAAGTTTGTACTTGTTGTTTGTGGGCAGGAGAAACT TCTGCAGAATAATAGGACCTTAAGGAGGTTGATTGAGAATAGACTTCCTTTCCTCAATCCCATGAACATTTTGCAGGTGG AGATACTTAAGAGGTTAAGATGTGATGATGACAACCATAAAGCCAGAGATGCTTTGCTCATCACAATTAATGGTATTGCA GCTGGAATGAAGAACACAGGTTAACTTTTTTAATCATTGTAAAAGTTAAAATGTTCACCTACAGATTTCCCATGTTATTT TATGACCCTTTCTATAAGTAGGCATGCTAATGAAAGATTTGCCAGAACCAGATATATTTTGTTTATAGTGTAGATAAAGA TGAACATGATATATCATATATGATGCAAAATTGTTTTTTCTGGTGTTTAA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0283600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGACGGACAACACTGACGACATTGCAGAGGATATCTCGTTCCAGAGCTTCGACGATGACTGCAAATTGCTTGGCAATCT TCTCAACGACGTTCTGCAGCGTGAGGTTGGCACCCACTTCGTTGAACAGCTCGAAAAGATTCGAGTCCTTGCACAGAGTG CATGTAATGTGAGACAGGCAGGGATTGATGATATGGCAGAGCTGTTAGAGAAGCAGTTGGCTTCAGAGTTATCCAAGATG ACATTGGATGAAGCTCTGATGATTGCTCGCGCCTTCAGCCATTATCTTACTTTGATGGGTATAGCTGAAACCCACCATAG GGTTCGTAAAGGAGGAAATGTGTCAATTTTCGCAAAATCTTGTGACGATACCTTTAACCTGCTGGTGCAAGGTGGAGTTT CCCCAGATGATCTTTATAACACAGTTTGCAAGCAGGAGGTTGAAATTGTTCTTACAGCTCATCCCACACAAATTAATCGG CGTACCTTGCAATTCAAACACATTAAAATTGCTCATCTTTTGGATTATAATGATCGACCTGATCTCACCCATGAAGATCG AGAAATGGTGATTGAAGATCTGGTGAGAGAGATAACTTCAATATGGCAGACAGATGAGCTTAGGCGCCAGAAACCTACAC CAGTTGATGAAGCTAGAGCTGGGTTGAATATTGTGGAGCAGTCACTCTGGAAAGCTGTTCCTCGTTATTTACGTCGGGTC AGCAATGCTTTAAAGAAGCACACGGGAAAACCACTTCCATTGACTTCCACTCCCATAAAGTTTGGATCTTGGATGGGAGG TGATCGAGATGGAAACCCAAATGTGACAGCAAAGGTCACAAAAGATGTTTCACTTTTATCAAGATGGATGGCAATTGATC TCTATGTTCGGGAAGTGGATAGCCTGAGATTTGAACTATCCATGAACCGGTGTTCTGATGAGTTGTCCAGACTGGCACAT GAAATTCTAGAAGAAGCTAATAATGAGAACCAATGCGAGCATTGGAATCAATCTGCGAGTAGAAGTCAATTGAAAAATCA AAATCCTTCACTTCCAACTAAACTTCCATCTAGAGCTCATTTACCCTCTTTTGCTGAAAATGGTCAGTCTGAGCATCCCA GACTCGACATTCCGGGATCTGATCACAATAAACTCAATCACAAGGATGGTAAGTTTTCACGTTCAACTAAGAGCGATGGT GGAAGTTGCAAAATTCATTCATCGCTAGCAAGTCCAGCTAATTCCAATGCTTCTTCACCACCTTCAATTTCACGCTCTCC TTCTCAACAACTTCTTGCTCAGAGGAAATTGTATGCGGAATCCCAGATAGGAAGATCAAGTTTTCAGAAGCTTTTGGAGC CAAAGCTCCCTCAGCGTCCGGGAATTGCTCCTTACAGAGTTGTCCTTGGGAATGTAAAAGATAAGCTTCTGAGAACTCGT AGATTATTGGAGATTCGTCTAGAGGAAGGTCCATGCGAACACAATCCTTCTGATTACTTTGAAACTAAAGATCAGCTTTT GGAACCTCTGCTCCTCTGTTATGAATCTCTGCAATCATGTGGATCCGGGGTGCTAGCTGATGGTCGACTTGCTGATCTGA TTAGAAGAGTTGCTATCTTTGGCATGGTGTTAATGAAGCTTGACTTGCGTCAGGAATCTACCAGACATGCTGAAACACTG GATGCAATTACAAGGTATTTGGATATCGGAACATACAGTGAATGGGATGAAGAAAAGAAACTGGACTTCTTAACTAAAGA ACTGAAAGGGAAGAGGCCACTGGTTCCATATGGTATAGAGGTTTCTCCAGATGTTAAAGAAGTCTTGGACACATTCCAAA TTGCTGCTGAGCTTGGAAGTGATTCACTTGGAGCCTATGTTATCTCCATGGCCTCAGATGCAAGTGATGTCCTTGCAGTA GAGCTTTTACAGAAGGATGCACGGCTTGCTGTTAGTGGGGAGTTAGGAAGAGCATGTCCTGGTGGAACGCTACGGGTGGT TCCTCTATTTGAAACTGTCAAGGACCTAAGAGCTGCTGGTTCAGTTATTAGAAAGCTGTTATCAATTGATTGGTATCGCC AACACATCATTAAAAACCACAATGGGACTCAAGAGGTTATGGTTGGGTATTCTGATTCTGGTAAAGATGCTGGGCGCTTT ACTGCTGCTTGGGAACTTTACAAAGCTCAAGAGGATGTTGTGGCTGCTTGCAATGAGTACGGTATTAAGATTACCCTGTT CCACGGCCGTGGAGGGAGTATTGGTCGCGGTGGTGGCCCAACGTATCTAGCTATTCAGTCCCAACCACCTGGCTCTGTCA TGGGAACTCTTCGGTCAACTGAGCAGGGGGAGATGATACAGGCCAAGTTTGGGTTGCCACAGACTGCTGTAAGACAGCTT GAAATATACACAACAGCTGTGCTACTTGCAACCCTTCGTCCACCGCTCCCGCCCCGGGAAGAAAAATGGCGCAATGTCAT GGAAGATATTTCACAAGTCAGTTGCCAGTGTTACCGCAGTGTAGTCTATGAAAATCCAGAATTCTTGTCCTACTTCCATG AAGCTACTCCTCAAGCAGAGCTTGGCTTCCTCAACATTGGTAGCCGCCCCACAAGAAGAAAGAGCTCATCAGGAATTGGA CACCTTCGTGCCATACCATGGATATTTGCATGGACCCAAACCAGATTTGTTCTTCCATCCTGGCTTGGAATTGGAGCAGG TTTGAAAAGTGCCTGTGAGAAAGGACAAACAGAAGAGCTCAGAGCCATGTACAAAGAATGGCCTTTCTTTCAAAGCACAA TAGACCTGATTGAGATGGTTCTGGGAAAAGCAGATAGTCCCATTGCTAAGCACTATGATGATGTTCTCGTGTCAGAGGAG AGAAAGGAACTCGGTCGTCAACTACGGAGCGAGCTTGAAACAACTGGGAAGTTTGTACTTGTTGTTTGTGGGCAGGAGAA ACTTCTGCAGAATAATAGGACCTTAAGGAGGTTGATTGAGAATAGACTTCCTTTCCTCAATCCCATGAACATTTTGCAGG TGGAGATACTTAAGAGGTTAAGATGTGATGATGACAACCATAAAGCCAGAGATGCTTTGCTCATCACAATTAATGGTATT GCAGCTGGAATGAAGAACACAGGTTAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0283600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MTDNTDDIAEDISFQSFDDDCKLLGNLLNDVLQREVGTHFVEQLEKIRVLAQSACNVRQAGIDDMAELLEKQLASELSKM TLDEALMIARAFSHYLTLMGIAETHHRVRKGGNVSIFAKSCDDTFNLLVQGGVSPDDLYNTVCKQEVEIVLTAHPTQINR RTLQFKHIKIAHLLDYNDRPDLTHEDREMVIEDLVREITSIWQTDELRRQKPTPVDEARAGLNIVEQSLWKAVPRYLRRV SNALKKHTGKPLPLTSTPIKFGSWMGGDRDGNPNVTAKVTKDVSLLSRWMAIDLYVREVDSLRFELSMNRCSDELSRLAH EILEEANNENQCEHWNQSASRSQLKNQNPSLPTKLPSRAHLPSFAENGQSEHPRLDIPGSDHNKLNHKDGKFSRSTKSDG GSCKIHSSLASPANSNASSPPSISRSPSQQLLAQRKLYAESQIGRSSFQKLLEPKLPQRPGIAPYRVVLGNVKDKLLRTR RLLEIRLEEGPCEHNPSDYFETKDQLLEPLLLCYESLQSCGSGVLADGRLADLIRRVAIFGMVLMKLDLRQESTRHAETL DAITRYLDIGTYSEWDEEKKLDFLTKELKGKRPLVPYGIEVSPDVKEVLDTFQIAAELGSDSLGAYVISMASDASDVLAV ELLQKDARLAVSGELGRACPGGTLRVVPLFETVKDLRAAGSVIRKLLSIDWYRQHIIKNHNGTQEVMVGYSDSGKDAGRF TAAWELYKAQEDVVAACNEYGIKITLFHGRGGSIGRGGGPTYLAIQSQPPGSVMGTLRSTEQGEMIQAKFGLPQTAVRQL EIYTTAVLLATLRPPLPPREEKWRNVMEDISQVSCQCYRSVVYENPEFLSYFHEATPQAELGFLNIGSRPTRRKSSSGIG HLRAIPWIFAWTQTRFVLPSWLGIGAGLKSACEKGQTEELRAMYKEWPFFQSTIDLIEMVLGKADSPIAKHYDDVLVSEE RKELGRQLRSELETTGKFVLVVCGQEKLLQNNRTLRRLIENRLPFLNPMNILQVEILKRLRCDDDNHKARDALLITINGI AAGMKNTG

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
PANTHER	PTHR30523 View details on PTHR30523 Search for proteins/transripts with this domain View external data on PTHR30523	1	1048	1048	0.0	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR30523:SF6 View details on PTHR30523:SF6 Search for proteins/transripts with this domain View external data on PTHR30523:SF6	1	1048	1048	0.0	–
Hamap	MF_00595 View details on MF_00595 Search for proteins/transripts with this domain View external data on MF_00595	9	1048	1040	17.719	IPR022805 Show description in modal box View details on IPR022805 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	19	1048	1030	6.91E-302	IPR015813 Show description in modal box View details on IPR015813 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00311 View details on PF00311 Search for proteins/transripts with this domain View external data on PF00311	145	330	186	7.7E-59	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00150 View details on PR00150 Search for proteins/transripts with this domain View external data on PR00150	149	162	14	1.6E-17	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00781 View details on PS00781 Search for proteins/transripts with this domain View external data on PS00781	150	161	12	-	IPR018129 Show description in modal box View details on IPR018129 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00150 View details on PR00150 Search for proteins/transripts with this domain View external data on PR00150	202	218	17	1.6E-17	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00150 View details on PR00150 Search for proteins/transripts with this domain View external data on PR00150	261	276	16	1.6E-17	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.1440.90 View details on G3DSA:1.20.1440.90 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1440.90	289	362	74	4.4E-9	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	333	431	99	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	333	354	22	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	375	395	21	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	396	431	36	-	–
Gene3D	G3DSA:1.20.1440.90 View details on G3DSA:1.20.1440.90 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1440.90	422	543	122	1.5E-28	–
Pfam	PF00311 View details on PF00311 Search for proteins/transripts with this domain View external data on PF00311	446	1048	603	6.3E-226	IPR021135 Show description in modal box View details on IPR021135 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00393 View details on PS00393 Search for proteins/transripts with this domain View external data on PS00393	706	718	13	-	IPR033129 Show description in modal box View details on IPR033129 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: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:0006099 View details of GO:0006099 AmiGO InterPro QuickGO	Biological process	Tricarboxylic acid cycle	A nearly universal metabolic pathway in which the acetyl group of acetyl coenzyme A is effectively oxidized to two CO2 and four pairs of electrons are transferred to coenzymes. The acetyl group combines with oxaloacetate to form citrate, which undergoes successive transformations to isocitrate, 2-oxoglutarate, succinyl-CoA, succinate, fumarate, malate, and oxaloacetate again, thus completing the cycle. In eukaryotes the tricarboxylic acid is confined to the mitochondria. See also glyoxylate cycle.	Subterm of View details of GO:0006101 View details of GO:0044238 Part of View details of GO:0009060
GO:0008964 View details of GO:0008964 AmiGO InterPro QuickGO	Molecular function	Phosphoenolpyruvate carboxylase activity	Catalysis of the reaction: phosphate + oxaloacetate = phosphoenolpyruvate + HCO3-.	Subterm of View details of GO:0004611
GO:0015977 View details of GO:0015977 AmiGO InterPro QuickGO	Biological process	Carbon fixation	A metabolic process in which carbon (usually derived from carbon dioxide) is incorporated into organic compounds (usually carbohydrates).	Subterm of View details of GO:0071704

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0283600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0283600.1