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LotjaGi3g1v0536900.6

Overview

Field Value
Gene ID LotjaGi3g1v0536900
Transcript ID LotjaGi3g1v0536900.6
Related isoforms 9
Lotus japonicus genome version Gifu v1.2
Description Cinnamyl alcohol dehydrogenase; TAIR: AT1G51410.1 NAD(P)-binding Rossmann-fold superfamily protein; Swiss-Prot: sp|Q500U8|TKPR1_ARATH Tetraketide alpha-pyrone reductase 1; TrEMBL-Plants: tr|I3T4I3|I3T4I3_LOTJA Uncharacterized protein; Found in the gene: LotjaGi3g1v0536900
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr3:95351871..95363744) extracted from Lotus japonicus Gifu genome v1.2.

CCGCAATATGCTATGCGTAATTTCAATTTCACTGTCCGTTCATAGAAATTAATCTCCCATGCAAACTTTGTCTGTGTCCT TGCCAGTGGCAGAAAAGTAAACAAGTTATTTCTTCCACCAAGGCACCAACCATCAAGGGGTTGACTTATTAAATGCCTAG CTGCTTACTTCTTCAACCCTGTGACTAACACTGAAGAAAACAAAGACATAGGATGAGCATCGGTGAAGGAAAGTTGGTGT GTGTTACTGGTGCTTCTGGCTATGTTGCTTCATGGATTGTCAAGTTTCTTTTGGAACATGGTTACACTGTTAGAGCCACT GTTCGTGACCCCAGTCAGTGCCTCCATTTCTCTTAGTTTCTCCATACATAATACATCCATTCATTCATTCAATCATTGTT TGTCTTTTTCTGTTTTACTTTTCCTATGTATGAATTAGTCTCATCATCATGATGTTGTAATATTGGTGGAAGCATGTGTA TATATGTAGGTAATCCCAAGAAGGTTGAGCACTTGGTTAAACTTGATGGAGCAAAAGAGAGATTGCATCTGTTTAAGGCA GATTTGTTAGAAGAAGGTTCCTTTGACTCTGCTATTCAGGGATGTGATGGTGTCTTTCACACTGCTTCACCTGCTCGCCA TATCGTCAAAGATCCACAGGTTCATTTCACTTTATTATTGATCAATAATTAATTACGTGGTTGGATTAAGTGGTACATGT TTGACCCCCTTAAGCAAAGTTCGACTCTTGAATGAAGATAACCTTTGTTGGTAGAGTGAATAGAATTGGCTTCCATGGAG ATGTATTAATGTATGCTATGTTTAGTAATTGATGAGATGAGAGATAGACACTAAGTTTAACATGACCATGGCAAGTGATA TGAGAGGAATTCAGTAACTAACATAAAAAAACTAACTGAAATTAGTTAAACCGTTCTGTACTGGGCAATAACAATAGGAT GGAGACTCTTAATACAAAGGAGCTTTCATGTTAACCCATTTGGTGCCTTCCAATCAAATATGTTTATTATTTCTTTATAA AATAAGAAATATCATATATTTTCTTAAGAATTTGTCATTCTCCATGGGACAAATTCTTGGATGGTTTAACTTTGTTGAGA CAAAATTCAGCTCTAATTACCAGTTTATCCACTGTTAATTTTATATTTCTTTATGTCAGGCTGAGTTGATTGGTCCAGCA GTGGAGGGAACTCTTAATGTTCTTAAGTCATGCGCAAAATCACCATCTGTGAAACGAGTTGTCTTAACTTCTTCTACTGC TGCAGTTCAATTTAATGAAAGGCATAAAAGTTCAGAAGTAGTGGTTGATGAGACATGGTATTCAGATCCAGATTTCTGTA GGGAATCAAAGGTTTGTGTTAGAAATGAAAAACTTGAAGCTCAAGCTGCTGGAATATGTGATTTTGATGTAGTTTGATCA AGTTGGGATTCTTGGGGATGGAATGTCATTTTTGTTCTCTTTCTGAAAAAAAGGAGAAACAATTATAGTTAAAGGAAGAA AGGAGAAACAAAGGGATTTAGTGAGGGGAGTAATGCCTTTTACAAGTGAAAAAGAAATGCCTTGCTTTTTTATATTCAGT AGGAAATTCTTTACAGAGATGAGAATGTTATAGCGGATGAGTAGATAGGTGGTTTGGGCATGTTTAGATATGTCCTATAG AAGGCTCTCAATAAGGAGAGGTGGAGGGGAGACCTAGAATAAGTCAAGCCATTAGGAAGGATTTAGAGTGAACTGGTTTG TTTTTACTTTTTAGACATGATTTGATATAAAATATTATGTTATCTTTTCATTTATATAACTAACCTTTCTTAGTGGAGAA AAGCCTTTTTGTTGCTGTTTGATATTCATTAGTTACAAGATCAAGTTGAGATCACTAAGTCTCTAAGGATAGACTGTTCT ATTAGTTTTCTTTTAATGGAAGAAAAAAAAAATCTTGTTAACAGGAAGAAAATTGTTCAATTGAGAAGATTTCCTCTCAG AGATACAAGTGTTATACATGTTAACATGTTGAGTTTGGTTAACTTCACTAATTAGTTTGTTGGATTGATTCATTTAAAGA AGTTAGCAATGTGGTAGTGTTACTGTACATAAGCTCATGATGTTATGTGTAACATACTTTTATCTTCAAATCAATTTCAG TTTCTTCACACTCTTATCTCAATTTTATCTCTTCTTTACCAATATTTTCCAGTAAGAGAGAAAAATGTTCTTAAAGGAAG AAGTGAAAGATTTAATGGTAGTAAACTTTCCTCCCATTGGAAACTACCAGTGCCTCTTCCAAATTCCAATGTTGTAGAGA TGGTCCATAACCCTTTTAAAACTGTTTCAAGTTTCAAGACTTCCAACCCTCCAGCTGATATTATGAATCTTGCTTAGTAC TTTCAATCTTGTATTCACTTGACAATTGCAGTTGAGTTATGCACAAATGTAACAATTTTTCCTTTATGATGTCTTATCTG CTTCCTGACTTTCTTGCCATTTTTTATGTATTTACAGATGTGGTATGCCCTTTCAAAGACCCTGGCTGAGGATGCTGCAT GGAAATTTGTAAATGAAAACAGAATTGATATGGTTGTTATTAACCCAACAACGGTGGCTGGACCTCTCTTACAACCAGAG GTTAATCTTAGTGTTGAGCCAATTTTAGACCTAATTAATGGTAATTTTAATTTACTCTCAAACTTATACTGCATGAGACT TATTTTATCTGCTTTTCTTACATCTGTATTACATGATGTATTCCAACTGCACTAGTTTTTCTGTGCCAACTACACCATAA ATATTATCAAACACCTGTCACTATATTCGACACGATTAAGTTGCTAATGACCATTGAATCTTGTAGTGCATTATTACTGC CATTGTTTGGAGGCTCACGTTAAAGTTCCATGGTCTCTGGGTTTGTGTGTGTTTTGTTACTGTTTATAATTGACCGAATC TTGTAGTGAATACCTTTTTGGAGCATTTCCGTGAGATGTCGAATCACTTAAATTTTGTATCTTCTCCTATTTTCTGCGGT GAATTTTTTATGCGTTTCCATTTTTTATCTGGATATTGTTGTACCATCACTTCACAATAGGTGCAATCAGTTACCCAACA CGGCTAAGTCAACACATTGTTTTGTTATACAATTTTAGTATGTTTGTTTTTTGGTTGACAGCTCCGTTTGAGTCATTGGA ATTCTAAATCTCTAATTCCTAGACGGTGAACGTGAAAGACACTGCGAACTGAAATTCAAACATGTCATTAGTTAGAGTTT AGCTTATAGCAGTTATTAGTTTCTAAGGCAGTGGTTGATGAGACATGGTTTTCAGATCCAGATTTCTGCAGGGAATCAAA GGTTTGTGCTAACTTATTCAGAAATGAAACACTTGAAGCTCATGCGGATGGAATATGATTTTGATGTAGTTTGCTTAAGC TGGGATTCTTGGTAATTGAATGACATGTTGCTTCTTGCTTCTCTAAACATACATCTATGTATCTTAGCATTGCATTGGAA AATATGAACTGTATACTTGTGCATTTGCTAAGTAATCATAATTGTGAGGGATGTGGATTCCGTGGGTAGCCAGGTAGGGG ATACTTATGTTCTGTTAGATGATAGAAAGTGTTTAAACTACTTTGAAAGGCATCACTTTCCCTGAAGAAACAGAGCAGAA ATAATTTCTTTCCAATAATATGGAAGTATATGTCAAACCTAATTGTTAGAATCAGGTAAAAGTAATCCCAGGTGTCCTAG CTCATTACAAGAAATAGTCTTGGAGTGTTATGTTAATCTAGTCACATCTCATCTGGTCCTTTTCTTTTAACCTGAAAGGC TGAAGTATCCTCACATTTCATTTTATTTTCTGATGAGAGAGAAAGAGGCAGACATATATTATTGTTGAAAATTGTTTCTT CTACCACTTTATAGTAAGCTAAGCAGCTTTTCTAACTATGCTAAAACCCTACAGAGAATGGAAGAAAATAAATGCTCAAT ACCCATGACAGAAGTACTGATAACAGTTATAGACTTTAGTTATTGAAAAGGGATTTGATGAGGGGAGTGATGCCTAATCA ACCAATGTGAATTGAAAAACTGTTTTAAAGAGAAATAGAAGTTCCTTTCTTTTGATATTCCTTGCTTGTTGCAGAGATGA GAATGTTCAGGTAGATGAGTAGATAAGTCGTTTGGGTATGTTGGAGAAGTTCTGTAGAAGGCTCAATAAGAGGAGACCTA GAAACACTATAAATATAAGTCAAGTCTTAAAGAAGGGCTTAGAATGGAACTCTTTGTGTTTACTTTTTAGATATAATTTA TGATAAAGTATTATGACATCATTTGATCCATATAACTAACCTTAATAGTAGGAAAAAAGGATTTTTGTTGCTGTATGATA TTTATTAGTCACAAGATCAAGTGGAGTTCACTAAGAGTTAACCTTTCTTCTTCCTTGCTGTTTCCTATTTGTGTTTTCAG TTGTGGTACACACTTTCAAAGACTTTGGCTGAGGATGCTGCCTGGAAATTTGTAAATGAAAACAAAATTGACATGGTTGT TCTTAACCCGTCACTGGTGTCCGGACCTCTCTTACAACCAGAGGTTAATTATAGTGTTGAGCGAATTTTAAACCTAATTA ATGGTAATTTTTATTTACTCGTGAAATTATGCTGCATGAGACTTCTTTTATCTGCTATGCCTGCATCTAGATTGCATGAT GCGTTCCAATTCCAAGTGCTCTAATTTTTCTGTACCAAGTGAATAGAAACAGAAACAGAAAATATGGAATGAAAAATGAA ATACTGTAAGAAATGGAGGGTACAATAATTCACAACTAAATTTTTAGTTAAACTTTATTCTCTAGGTTAATGGTAATTTT TATCTACTCGCGAACTGATGCTGCATGAAACTTCTATTATCTGTTTTGCCTGCATATTTGAATGGTAATTTCAAGAATTA TTTGAACTTCTTGATGCAGGTGTCCCATTTCCAAATTCGTCTATGGGATGGGTCGATGTGAAAGATGTTGCTAAAGCACA TATTCAAGCATATGAGATTGCTTCCGCTAGTGGAAGATATTGTTTGGTCGAGAGAGTGGTACACTACTCTGAACTTGCTA GGATTTTAGGTGATCTGTACCCAACAATACAAATTTCAAACAGGTAAGTTTCATTTCTATAACTTTGGCTTCTTATTTGA AAGCTCCACTCAAGCTGAAAACTCAGCATAGAAATTGATTTCCTGATATTTGTTCAATATATGCCAAAACTGAAATTTAG GGAACAAGTATAAAAATATTCAGCACATGATATCTCAATGAATGAATGCAAAATCAACTTTTATTTAAATCATGTAGTAA AAATAGATTCCTTTAGTGCAAGCCTTAATCATTATCTTCTCCGTTAATAGTTTTAATTCCTAATAATATGTTCATCTTGT CTACTATGTTAACAGGTGTGAGGACAATGGACCTTATGTGCCTACATATCAATATTCCCAAGAAAAGGCCAAGAGTTTAG GAATCGAGTTTACTCCTTTAGAAATAAGCATCAAGGGAACTGTGGAAAGCTTTAGAGAAAAGAAAATCGTCAACTTTTAA TCTGTGTTATCCTCTTGATGAATAAATTCATGTAACTAAATTTGCATCATTGAACAACATTTTCATATGTACTGTTTGTT GACAATAAGCCTTATATTGTGAGACATAAGTGAAATCATTCACCTTAAAACTTCAAGTTACTGTAAATGTAAATGAAGGG ACTGAATAATATTGATATTGAATAGATTCAACTGGGGAATATTATGAATGAGAGTCTCATTTGGTACAAGGTACACTGGA GCAACAACGGTGGCCGGACCTCTCTTACAACCAGAGGTTAATTCTAGTGCTGAGCTAATTTTAGACCTATGTAATGGTAA TTTTTATTTACTGATATTTGTTCCATATATGCCAAAACTGAAATTAAGGGAACAAGTGATAAAAATATTCAGCACATGGT ATATCAATGAATAACTGCAAAACAACTTCTATTTTAATTATTTAGTGAAAATAGATTCCTTTAGAATAAGCCTTATTCAT TATGTTCAATAGTTACTTGTTTTTATAATAATATGGTTCACTTTCTCTTTGACAGTTGTGTGGACAATGAGTCATATGAG CCAACATGTCAATTTTCCCAAGAAAATGCCAAGAGCTCATGAGTCGAGTTTACTCCTTTAGAAATAAGCATCAAGGAATG GAAAGTTTTAGAGAAAAGAAGATTGTCAATTTTTAATTTGTATTGTGTTATCCTCTTGATGAATATATCTTGACCGTTTT TAATTCATGTAACTAAACTCGTCATTATTATTGTGTTATTAATCACTTTAAGGTTCTCCTTTTCATTTGTTTCTTTTTCA CTTTCTCAGCAATTTTATCTGGTATGTTGACAAGAGTCTTGGTTGGAGCAAAATTTGCAGAGTTACTTAAGCACATGTGA CAGTACGAGCCCACATAAATAGTGCTAAGAACTAGCATTGGAGATGCTTTTATTTAGAACTAAGAACCAAGAGAAGGTAA AAACTTAGTGCTTGTTTAATTTTCCATTGCATTTCCTGCAATTGTTGAAATTCCTTTCCACCATTGGTATCGAAAATCAA ACACATCCTTAGGAGTTATAATTTCTACAGAAGTGAGCCCCAAGGAGATTGTGGGATGCATTAGGGGAAAAAAACAGAAG TGGCCTCCCCACATTTAATTGCATGTTTGAAAATTCTTTAACAATTAATTCTAATTTTAGAATTAATGAATTAATTATGA TGAGAAACTTTTGTGAATAGTTTTTGGGTTTGGACATTTTAGACTTGGTTTTGAGAAAATAGAAGGTGATACAAGGCCAT ATATAAAACTTTACTCAGAAAGTAGGATTCTATAAAATAAAAAGATTCGGTTTGAATGTTGTGCACGTTGAATGACTCAA ATATTTGATTTTCCATACGTGTCTTTTTTGTCTTTTGGGTCACACCTTACAGTGTTAGAGCCACTGTTCATAATCAATTG AAAACATAAAGAGTTTCAACACAAGCTTGGTTTTCTTTTTCATTTTTAATAAATGGCTAGGCCCTTCTTCAGTTCTTGAC CTTTGAACAAAACGAAGAGAAAGGATGAGCAATGAGGAAGGAAAGTTGGTGTGTGTGACTGGTGGTTCAGGCTATATTGC TTCATGGATTGTCAAGTTTCTTTTGGAAAATGGTTACACTGTTAGAGCCACTGTTCGTGACCCTGGTAAGTGCCTCCCTT TCTGTTAATTTCTACATACATTCATTTATAACATTGTTTGTCTTTTTTGTTTCACTTTTCTTTTGTATGAATGACTCTCA TGATGATGCTGTAATATTGGTGGAAACATGCAGGTAATCACTACAAGGTTGAGCACTTGGTTAAACTTGATGGAGCAAAG GAGAGGTTGCAACTGTTTAAGGCAGATCTGTTGGAAGAAGGTTCCTTTGACTCTGCTATTGAGGGCTGCAATGGCGTCTT CCATATCGCTTCACCTGTTCGTATGTTTGTCGAGGACCCCCAGGTGATTGTTGAGATGAGTGAGCAAGATATTTATAGGG TCAAGTTAAAATTTTGTGGCTATCTCTCTGTTAATAAATATTTAGAGTCCTAAGTATCAAATATTTATGAAGGGAGCGAT AGACACAAAGTTTACCATGACCATGCTGTCACGTGACATGAGAGGATGCCTTATATATTATGCTATGCAAGTAATTCTGT TACTGCATTAACTAACATCAACAACTAACCAAAATTAACTAACTAGATACATCTTAAATCACTGTGTACTAGGCAATGGT ATTAGTATGAAGACTATTAATCTTAATACAAAAGAGCTTACCTGCTAACCCATTTGAAGTTCCATGCCTTGGGTGCCTTA GCATAAGTGTTCTTTTTATATTTCTTTATCTCAGGCTGAATTGATTGATCCAGCAGTGAAGGGAACTCTTAATGTTCTCA AATCATGCGCAAAATCACCATCTGTGAAACGAGTTGTCTTAACTTCTTCTACTTCTGCTGTTCTATTTAATGGAAGGCCT AAAAGTCCTGAAGTAGTGGTTGATGAGACATGGTTTTCAGATCCAGATTTCTTAAGGGAATCAAAGGTTTGTTCAACTTT ACCTAAATTTTATTCAAAAATGAAAATTTTGTAGCTAATGCAGCTGGTATATGTGATTCTAATACTGTTGAAAGTTGTTT CTTCTATCACTTTACTAGTAAGCTAAGCAGCTTTTCTAACTGTGCTAAAGCCATTCAATAAATAGAAGAAAATAAATCCT TAATAGCCATGATAGCAGAGACAATAGTTATAGTTTCAGGGAGAAAGGCGAAACAGAGCGATTTGATGAGGGTAGTAATG CCTAATTGACTAATCTGAATTGACAAAATGTTTTGAAAGTTGGAAAAAAAAGCGGTCTGGGAATTGGAAAAGTCCTATAG AAGGGGGAGGGTGGGGGGGGGGGGGGAGACCTATAGAAACACTTTAAGTCAAGCCATTAAGAAGTATTTAGAGTGAAACG ATTTGTTATTTACTTTTTTGGACATGATTTATGATAAAATATTCTGACATCATTTGAGTGAGCCATCCACTTTCTAGTGG GAAAAATGCTTTTTGTTGTTTGATATTTAATTAATCACAAGATCAAGTGGAGTTCACTTACTCTTGAAGGATTACAAAAA GGCTTTTTGTTGCTGCATTTGAATATGTTTGCATGATGTGGTAGTTTTACTTTGCATAATCTCATGATGTTATGTGTAAC ACACTTTATCATTCAATCAATTTCATTTTCTTGTCATTCTTATCTAAATTTTGTGTCTTCTCTTCTCTGTAAGAGAGAAA AATGCACTAATAGTAAAATGTCCTCCCATTGAAACTGCCTTGGCAACTCTTACTTCCATCAATGTGTTACCTGATTTATA ACTTTTCTTGCCATTTCCTGGTAGCTTTATCATTTGTGGTACACAATTTCAAAGACATTGGCTGAGGATACTGCCTGGAA ATTCGCAAACGAAAACAGAATTGACCTGGTTGTTATTGTCCCGGGTCTGGTAGCTGGACCTCCCTTACAACCAGAGGTTA ACTTTAGCCTTGAACCAATTTTAAACTTAATTAATGGTAATTAAACCTACTCAAACTTCTATTATCTGCTTTGCCTGCAT CTTTGAATGGTAATTTCAAGAATGGTCCTGTCCTTGATGCAGGTTTACCATTTCCGAATTCGTCTATTGGATGGGTTGAT GTGAAAGATGTTGCTAAAGCACATATTCAAGCATATGAGATTGCTTCAGCTAGTGGAAGATATTGTATGGTTGAGAGAGT GGTACACTGCTCTGAAATTGCAAGGATTTTACATGATCTGTACCCAACATTACAAATTTCAAATAAGTAAGTTTGATTTC TATAAATTGGCTTCTTATTTGAAAGCTCCACTAAAGCTGAAAACTCAGCATAGAAATTGATTTAGTGATATTTCTTTGAT ATATTTCAAAACTTAAATTGAGGGAACAAGTGAAAAACATATTCGGCACATGATATCTCCACGAATGAATGCAAAAACAA CAGCTTTTATTGAAATCATTTAGTGAAAATTTATACAGATTCGTTGAGTATACACCTTATTCATTATCTTTATGTTTTCC TTACTTTCTTTTAGTAATATGTTTGCTTTCTCTACAATGATTTCAGGTGTGGGGACGATGAGCCATATGATCCAACATAT CAAATTTCCCAAGAAAAGACCAAGAGCTTAGGAATTGAGTTTACTCCTTTAGAAATAAGTATCAAGGAAACTGTGGAAAG CTTCCGCGAAAAGAAAGTTGTCAACTTTTAATCTTTGATATTCTCGTGATGAATAAATTCATGATAACATATCATGATAA CTTTTAATTCATGTAACTAAACTCAGCATCATTTTGCAAACAACAGTGTCATTATTATTGTGTTTTTCTTCACATCTAAA TTTCTCCTTCTTTATTTGTTCCGCTTTCACCTTCAATTTTACCAGGTATGTTGACAAATAACAATGAGCCTTATATATAG ATGCTTTATATTTCTAAATCATCATCATTTCTCACCATTCTAAAGCATGATACAAATGTAATTTTTTTTATCTGACATGA ACTTTAAGGACATTCCCATCAATTTATAATTTAAACTGGACCAGGTAGTTAGTAAATTTGAATCACACACCCACCTAAAC ACATACCATTCCAACTCCTCAGCAACCAGGTTCTGGTTTCATAGCATGCTTACATCAATTTTTCTTTCCTCATGATCATT TCTGGTAAGCAGTGGCTTCAGAATGAATTGTCAAAAGATTTCAAATAATCAATTCTGATAAGCAGTATGCGATATCAAAA CAAGGTTTAACCTCATCCCATGGCCCATTGATCTCAAACTTGTACTCGTGAATCTTTATAAGCCAATAAGGGCATCCCCA TGTTGACAAAAACCAGCAAACTAAGCAGCATCACAAAAAGCAAGAGATGCAGCATGTACACAAAACTCAAGGTCATGGCC ATCAAAGCAATAGAAAAGCACAGGTGTAACCACAGGGAATACTTTTTAACACAGTAAGTACTCAGTGGAACAAACAGGAA AACCTGTAATGAAGAACAGCAGCGCATGATAGCAAACACATGAAGTCTTGATGGAAGGTGAGAAGCAATGAAAACAGAAG CCGCCACAGAATCAGGAGGGCTTCACAGACTATGATAAGAACAACTTATAGAATAACTGCACATAGCATACCTGCTGTGT GTCATAACCACTTCAGAAGCACAGAGTTTTTCTTCAAGCTCATTATTTTCACTTTCAAATGAAAGGGCTCTTTGTCTCCA TTCTTGCACACACAATGTCAGTGATCCACTAGAAATTGCATCAGCAATATATGTAATCACAAACAACCGCATGCATAAAT ATTCTCTAGTTTATATGGCAATGACATGTTATGTCAAGAGCACTAATGTTGGGTTTACATAAGCAAAATAAACAAGTTCA ATTGGTTATTGCAGATAAGATAACTATCGATTTCTTTCTCATAAAAATAAAAGGAGAAATATAGATCAACCGGCAACAGT GAACTGTATATTTTTCTTTTTTTTACATTCTTTTCTACTTCATATGGAATAAAGAAGAAACATTACAGATTAGCAACCAA CTAATGGAGTCATCAATCCAGAAGAACAAATTGTCACCGAGGAGCTTAATCTTAACAAGGTGAAATCAGACTCTGCACAT AACCATTGTTATTCAAATTATATCCGATGTTGGGAAGTTGAATACACTTCACACTATTATCTCTGAGATTATACATGATC ATCACAGCCTTAAAATTTTGATATTTTACAAACAACAACATGTCGCCACTATCTCCACTCAAGCACATCAGCTGCTGTAA ACATGGAAAGCCATTATATAGAAGGTGCTCATAGCTGACACTCACCAACCAAGTCCAAGACTCCCGAACTCCATACTCTC TCATTTACCACACAACAAAATGGGTTGTCTCGTGGCCATGAAAAAGGCACAAGCAATTCCTCAAAACCCCAAGTTTTGAC TCACCATGAGGCCTCACATGACTAACACCCTCAGGCAGCGACAACAATTTATATTCCTCCTCAGGCATGTCAAAACTGCT TGACAGTAACATTGGCAGTGTGCCAGTGTTTATTATCACAATTCAACTTGTCAAGTGCTAACCAGTTAACACAACCACCC ACCATTTGTTACCAGGATCGCTCAAAATCTTTCTCCAACAACTATCACTCATTCATTTTTGTTCAAGCTTTTTACCTTGT AATCAGGGGCAGAACCAGGATTTTGATATCCGGG
Download Genomic Sequence

CDS sequence (LotjaGi3g1v0536900.6) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGCAATGAGGAAGGAAAGTTGGTGTGTGTGACTGGTGGTTCAGGCTATATTGCTTCATGGATTGTCAAGTTTCTTTT GGAAAATGGTTACACTGTTAGAGCCACTGTTCGTGACCCTGGTAATCACTACAAGGTTGAGCACTTGGTTAAACTTGATG GAGCAAAGGAGAGGTTGCAACTGTTTAAGGCAGATCTGTTGGAAGAAGGTTCCTTTGACTCTGCTATTGAGGGCTGCAAT GGCGTCTTCCATATCGCTTCACCTGTTCGTATGTTTGTCGAGGACCCCCAGGCTGAATTGATTGATCCAGCAGTGAAGGG AACTCTTAATGTTCTCAAATCATGCGCAAAATCACCATCTGTGAAACGAGTTGTCTTAACTTCTTCTACTTCTGCTGTTC TATTTAATGGAAGGCCTAAAAGTCCTGAAGTAGTGGTTGATGAGACATGGTTTTCAGATCCAGATTTCTTAAGGGAATCA AAGCTTTATCATTTGTGGTACACAATTTCAAAGACATTGGCTGAGGATACTGCCTGGAAATTCGCAAACGAAAACAGAAT TGACCTGGTTGTTATTGTCCCGGGTCTGGTAGCTGGACCTCCCTTACAACCAGAGGTTAACTTTAGCCTTGAACCAATTT TAAACTTAATTAATGGTTTACCATTTCCGAATTCGTCTATTGGATGGGTTGATGTGAAAGATGTTGCTAAAGCACATATT CAAGCATATGAGATTGCTTCAGCTAGTGGAAGATATTGTATGGTTGAGAGAGTGGTACACTGCTCTGAAATTGCAAGGAT TTTACATGATCTGTACCCAACATTACAAATTTCAAATAAGTGTGGGGACGATGAGCCATATGATCCAACATATCAAATTT CCCAAGAAAAGACCAAGAGCTTAGGAATTGAGTTTACTCCTTTAGAAATAAGTATCAAGGAAACTGTGGAAAGCTTCCGC GAAAAGAAAGTTGTCAACTTTTAA
Download CDS Sequence

Protein sequence (LotjaGi3g1v0536900.6) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSNEEGKLVCVTGGSGYIASWIVKFLLENGYTVRATVRDPGNHYKVEHLVKLDGAKERLQLFKADLLEEGSFDSAIEGCN GVFHIASPVRMFVEDPQAELIDPAVKGTLNVLKSCAKSPSVKRVVLTSSTSAVLFNGRPKSPEVVVDETWFSDPDFLRES KLYHLWYTISKTLAEDTAWKFANENRIDLVVIVPGLVAGPPLQPEVNFSLEPILNLINGLPFPNSSIGWVDVKDVAKAHI QAYEIASASGRYCMVERVVHCSEIARILHDLYPTLQISNKCGDDEPYDPTYQISQEKTKSLGIEFTPLEISIKETVESFR EKKVVNF
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.

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Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
PANTHER
PTHR10366:SF626
3 323 321 1.1E-170
PANTHER
PTHR10366
3 323 321 1.1E-170
SUPERFAMILY
SSF51735
4 321 318 9.08E-67
IPR036291
Gene3D
G3DSA:3.40.50.720
7 327 321 1.2E-130
CDD
cd08958
9 302 294 6.64145E-150
Pfam
PF01370
9 244 236 2.0E-18
IPR001509

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 , while the GO metadata was last updated on .

GO term Namespace Name Definition Relationships
GO:0003824
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
GO:0050662
Molecular function Coenzyme binding Interacting selectively and non-covalently with a coenzyme, any of various nonprotein organic cofactors that are required, in addition to an enzyme and a substrate, for an enzymatic reaction to proceed.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0536900.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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