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LotjaGi4g1v0103900.7

Overview

Field Value
Gene ID LotjaGi4g1v0103900
Transcript ID LotjaGi4g1v0103900.7
Related isoforms 9
Lotus japonicus genome version Gifu v1.2
Description Nicotinate phosphoribosyltransferase-like protein; TAIR: AT2G23420.1 nicotinate phosphoribosyltransferase 2; Swiss-Prot: sp|Q84WV8|NPRT2_ARATH Nicotinate phosphoribosyltransferase 2; TrEMBL-Plants: tr|Q6XQM5|Q6XQM5_MEDTR Nicotinate phosphoribosyltransferase-like protein; Found in the gene: LotjaGi4g1v0103900
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr4:14481440..14492401) extracted from Lotus japonicus Gifu genome v1.2.

GCGATTGTGATTTTGTTTTCAGGTTCGATTTGTATTTTCGGAAGAATCCATTTGGTGGGGAATATACTGTGTTTGCTGGT TTGGAAGAATGCATCAGGTTCATAGCTAATTTCAGACTCAACGAGGAGGAGATTGATTTTATTAGGAAGAGTTTATCTAC TTCATGTGAGGTAAGCCAAACCGCGTTCCTCGCCATAGCTATAACATCCTTGTTAAATTGATTGTAACGGTGGCGGGCGG GGGGCTAATTTAGACTCGGGTGTCCAATTCCGCCATTATTTGTCATGTATGGCGGGATTTCGGCTTTCCGCCATGACCGG CCATCCACAATTAACAACACTGACATAATCATTGCATTTCTTATTCCTGTTTTGCGTTTTTATTTTACAATTAATGTCAA CGATATGAACGTTTTCAGCTGGATATCAAACTAATTTTTGGAAATGATGGATATAAAGAGTCATGGCCCTTTATCCAAGG GGAATTTGTCTTTTTTTCACAACTTTATTATGTGTTTCTTTATAGATTGCATTGAGCCAAGTGTAAACCTGAAATAATGT GGCTGGTGATTCGGTTTGCTATGATTTTGCGGAAAATGCTGCTGGCGTTTTTAGTAGATTCCCCTTTCGAATTATTCTAA CTTAATAATAATCTATTGAATGTAGGACGGATTCTTTGACTATCTGAGAGGACTTGACTGCTCTGATGTTGAGGTGTATG CTATTCCTGAGGGATCAGTTGTTTTTCCAAAGATACCCCTCTTGAGAATTGAAGGTCCAGTTGCTGTGAGTATTTGCCAC CATTAAATACCCTCTTTTAATATTGGTTTCTTTCAAGAGTGGCCTATTTCTCACATTAAATTAGCTTTTATATTTTTTCA GGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAAATTATGCATCATTAGTTGCCACCAATGCGGCAAGGCATC GAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGACTACGAAGGGCTCAGGTTAATAGTCTTTTAAAATATTTT GTGATGAGTAAATTTTGGAACTGTCCTTCAGTATTCATTGAAAAGGGAAAAAAATCTTATTTTTAATGTAGGGGCCTGAT GGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATTTGACGCAACAAGGTATAATGGATTAAACAATTCAATTCT AACATGTCCGGCACTGTCAGTGTTGTTCATGGCGGATTATGGCTGAATATCAGCCATGGCGGCGCTGTCATGGTCAATAT TTGACAACACTGGGTACTGTATGATCTGGATGAGGAAATTTTCTTTACAATCTGTCTTAGAATTCGGGCTAAGCCTAACG CAATCCCAAAAGCTAGCTCAAATGTGAGGATCGCTAAAGCCTTTCTAAGGACTATTTTGGTTATATCTTTAGTTGATGTA GGATCTTTATACACCCCGTTCACGCCTAGAATTAGGTATCTGGAGCACGGAATTTGTAGAGTTCACAACTACAATGAAGG CACCTAGGGTGGCTGCAATGAAGTCTGAATTTTGGGGCCAATTTCAGATTTAGGAATTGCTTTGATTCAATCTTTAGAAG GTAGATGGAAAACTGAAATGTTATTTCTGAACAAATTTTCACTTGATGGGCAAATAATTTTCATAATATATACAAATCCC TAGTTACTTTCCTTAATCATAATTATATTACAACTGTACAAATTGGTCCTGAAAAAACTAATTAGAAAATATAGCTGTAC AATAATAATGATTCCTAACAATATGCATTTCTACCAGATCATGGTTGAGGTTTTGTGGTCTAAAACCTTGATGATGCTAA TCTTGTCTAAGGTGTCATCATTATTGTTTATCAAATGTGTTTGAACGTGGAATTTTTATCACATATAATAGATAATTTAT TTACTATTAATTTAGATGCAAGGCTCTGTTTTCATGACATGTTATGTTAACTCTACTTTTACATGATTTGAGTGTAATTC CTCTTAGTTTGTACATTGTATTTGAATTTCTTTATGAATGTTTTTGAAGGAACCTATATTTGGTTATTCCTTTTCAAAGC AATTCGAGCTACTGTCATTCATATTTTGTCATTTCAAGTTTGTAACTGCACTTCTAATATTGAAGTTCTTAACATTAAAT ACTGTTAGATCAAATAGAGTGATGGCCTAATTAAGTTCCTCAGTACCTATTCCTCACATATGGTAAGTTGGTGACAATAA CATGTATGTACATGTCTTCATGCAATTACTTGGATAATTCACAACCTTTATTTGCATAATGTGGTATATATGGGACATTA TGCACTTGGAAGTCACACACTGAGTGGACCCATTCTGAAAGACCTGAGTGAAATTGCCCTTTTTTAGGGGGAGGGATTAA GTTTTGTATTTTGGCTTAGTGAATTCTTCTTATTTCTTACCTTGCTTTTTCCTTTGTGTCAATAGCAATGTTGCGGCAGG AAAGTTATTCGGGATACCCATTCGTGGTACTCATTCCCATGCCTTCGTTAGCTCATATATGGTGTGTAACCAATCCACTG ACTACATATTTGGTTAATGTTTATGAGGTGAATTTCCAATAAGTAAACATGTCATTTGTAATACATACTTGAAAGAACAG AATCTCTGTTTAAATCTATCCATTCAAATTGTCTAGAGGCACCAACATGATTTTAATGTTTCTAATAACTATGTATGACA AGGACAGTTAGAAATTTGTCTTGGAATGAAAAGTTAAATGATAGGGGATGAGACACTGCAGTGAAGTTCAGTGAGAATAT CGGTATAAATGTTATATAAATAGGGGAAGTCATAAAATTTAGAAGCAGTGTTAAACCACTTTGGAGATTATTGAAGTTTA GGCCTAGGAAAGATCAAATGTAATATATACTCTGCAGAGTGACACTGTAACAGTGAATTCAGAAGGACCTGATGAAATTT TTGTCCCTATATGCAGCCAGCCTCTATAAATCCAAATATAGTAGTGTTAGACTTAGACCTAATGAAACTATGAAATAATG AGGTAGATCTGCTATTTTATAACAATGGAGTTTCAGCAAAAGCTAAGTTGTAATTTCTTGGTGCCTTTTATATGTAAATT TTGTTGTTAGAATTGTAGTACTTTATATGATTTGAGGCACTTTATGTTAAATTTCATTTGCTTACTTTTTGTCTACTTGT CTGTATCGTGATGTGCAGAGCCTTGATGAGATCATAGATAAGTCACTTCGAAGAAAGGATGGATCAAGCACATGCGAAGA TTTTGTTAGTATGGTTCAAACATGGCTGAGCAAAATTCAGGTATCGCGACATAAGCATATACATCCTTTTTCTTTTTTTG GTTCTTATCTATTCCTGTTTTTCGGCTTTTGCTTGTTTGTATCTGTGGGGGAGGATGGGGGATTTGATGAGGTGTCATCC TTATGCAAACCAATTTGGAAGGTGTTTTTTTGCAGAGACACTAAACTAGTTTTTTCTTCTTAGGTATTTCCTGAACTGGA ATTTTTATATTAAAAACTAAAGCTCATTGATATGAAATGTTTATACATGTGCTTTGTGCAAATTTCAATATTTGTATTAT TGAGCATTTGCGAGATCTTGAATACCACCACATATACCAGTGATGTTCGAATGAGTTGTTTTAAGTAACTATTGTGATTT GCATTGCCATGTCCAAAGGGCTGGAAGCCTTAGTTTTGTTCATTTATAATTTAAATAGAAGAAAACTTAGTATAGAGAAA GGAAATATGGAAAGAAAGCCTCAAGCAGGTGGTATCTTGCATTGTAATTATTTTAGAAAGATTAGATTAAATTCAAGGCA AAACTTCTTCCATATTATTAAATTTGGGTTCACAAAGTATTCTTCTCAATCCTTCTGCTACCAGTTGAGGTTGATTCTTT CATCACTACACAAATGTGTTCAGTCACATGCTCACCAAGCAAACAATTATGTGAGCGTATTATGCAATGCCCTGGCAGGC TAAGAAAACATAATTAGTAGCTGAGTTGTAACTTTGAGATTTTTAATAAAAACCATACACGCCCCTTTTTAAGAGCTCAA GCTTCAAGTCTATTTGGTTTTTGATGTGGTATGAGAGTCTCATCCTCCAAGTGATGAAAAGTTCAATACTTGCTCACTCA TTCTTCTAATTAAAATTTCAGGGCTTTCCCATTAGTCGGTGTGTATGTTAACATAAAGCATCCCAGAATCTTGGGCCTAA TCCTAACAAGTTTAGTTTTTGGGGTACTTGTCTTTATCAGTAACACTTGATATGATTCTTGAGATTGGCATATGAATTAA TTAGCTTTTTAATCCTTCGCTTGCATTCTACACAAGAATGAATGTTTTTTTTTTTTCCAATGAAGTTGAAATATAACCAT ATGCCTGGAGATCCAGGAATAAGCTATGCAGTATAATACTAGATTTAATTAACATAAGTAAAATACCTAACTTAATATTA TAGCAGAGGTATTTTAGATCATGGCTATCTCATTTGTGATCCTTTCCTTACCTTCTGAAAAAATATTTGAATGATCATTT CACGTCAATGATGTAAAGAATCTGATTACCATCATTGTATCATATGTTTATCTTTTGCACTCTTACAAAATTGAAGATTT GTCAGTGAATATTCTAATGCGTGTTCCCACTCTGCAGTTGCTAAATGGTGTTTTTGGTGAGACCAATCAAAGTGAGTTGG CAGCATTCACATCATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACATATGATGTAAGTATTTTGGTA GACTTTTTATTTCTTAAACTGCCATAATTCTTGTTAAATCCTAACATCATTTTAACCTGTAATGCAAATTATTAGGGGTT AATATTGTTTTTCCCTCCTATATGACTTTTGGTATCCTGCCCTCTCCCCCCCCCCCCACCCAATATATATATAATACACA CACACATACATGATCGCAACTGCAACCATTAACAATGTACATGCAAACTGCAACTCTGAGTGGTGATAATCAGTTATTCT GGGATCTTGAATTAATTTAGGCTTTGGGACATAAAATATAAGGGAATTGCATAACTGCGAAGATGAGTAAATGGTCGTGA TTGTGTGCTTACTACAAATATGTGTGTAGGTATTGGTAGGTACTATTTTGATATTTTCCATTGTCCTAAAGAAGTGCATA ACATTAAGTTTCAACTTACTCAAAAGACATATGAAGAAGCACATGTATCATTTACTGTCTACTCAGTAGGAAAAATTTAC GCATGATTCACCTCACGTCTCATGATTTAGATCAGTTATATGCCTGACCGGTGAGAGGATGGGTGGGTAATTTTGTGGTA AACCCATACCATTCACAGGTCAGTGCCTTCAATTTCAAAACAAAATTTAACTTTACTGAATGGGTAGTTCTTGTACTACA GAGATACAAAGCTGCAGATGCTGAAAAACGGATCTATTAGCATGATAAACCATATTAGTGCTGTGCTGCCTATTGCAGTC TTGAATATTGTAATTTGTATCACCCATTGCTCTCCAACTTCTTTGTGCTAATCGTTTATCTTATATCCTGACCTGAAGTT AAAAACATGTTGCAATTACACAAGTTTTATTTCCAGCTACTAGGTCATCTGTCAAGCGGTTATTGTTTGTGGATAATTTG TTTGATAATCAGTACTAAGTTAACTTTTTAGGGTTCCAGTGTTATCAAATATCCGCCATGGCAGTTTCTCATGGCGGTTT TTTGGCTTTCCGCCATGGCCGATATCCCGCCAGATTTCACCATATCCCGCCATATTCCGCCATTATTTGTCCTGTATGGC GGGATTTTGGCTTCCTGCCATCCGCAATTAACAACACTGTAGGGTTCATATTAGAAGGGCTAGGCCGAACTCCACCCTAA AATCTAGCTTAGCGGGGAGGATTGCATTCCCATTTATAAGGACTTCTTTAGCCATATCTATAGTCAATGTGAGTCCTTAA CACTCCTTCAGACCTAAGACTATCATGTGGAGTGTTCAAATTTATCGAAATTCCCTTATCCTCATTACAGGATATCTACA GGGCTAGATTAACTTCATTTTTTCCTGAAATAGCCCGCAGGTCAGATTGACTTCATAATGTTTTTTGGAACAACACGGGT CAGGTCAGTTTTTGAACTTCACATTTCAATGGGTGGCCCAACAAGGGATCTAGGACATCTTAATTGATAATTGATTAATA TAATGTGATTTTGAAGTACAATATTTATATATAAGGTTTCCCAGTCCTAGTCCAACTACATAGGAAAACAAGTTAACAAA CTATAAGATATCAAGGAATAATATCAGAATAAAATCTAATTATAACAAACTACATCCTAGTCCAATTATCTCAACAATTT ATATCCTTACAATTAACTCAACAGTTCATTCCGTATTTTCCACATTTGATTTATCTATTTCTCTAGATGATTACATTTGC ATTTATTGACAGGTGATGAGAAGTGGAATCCCTAATTTCTGTGCAGTTGCATTAGCTCTCAATGATTTAGGGTATGTCAG GAAACATTTCTGTTATTATCACTTGATTAGAGGTTTTACATGACTATGATTTTTTATTCTTTTATGTAATAATGTTCATT TTCTAGTTGATTTTTTGGTCTATGGATACAATGTTTTGTTCTGTTTCTTTTTGTGCAAATGAAACAATGAATGAGAAATG ATATGCTGTGGGAGTATTGGCAGAGATGCTGTACAAGGAATTAATGGCAATAGAAACTGATAGTAGCAGTCTGGAATCTG GATGCAGTAGCATCCTCCATACTGTTGATTAGGATCTACTTGATGCTGTATCTGTTAGGACAGAAGATGCTGGGAAATAG TTAAGGATAGATACTAGATAGAGAAGTTATTTAGAGAGAATTAATGGTTGAGGGATTCATTCAAAGAATTTAGGAAGCTG TGTGAAAGGGGAACCTTTTAGTGCAAGGGAAACTCTTGGAGGAGAATTCTTTCTCTTATTCTAGAACATTCAATTACTCG CTATTCAGACATGGGTGTATAAGGGGTGAAAAAAGCTGTGGATCAGATATCATCAAAATCCAGCTCCCCTGACACTTTCC TGCCAAGAAACAGAGGAGCTCAGTAGCTTCCTTGTGATGAGTGTGTCAGAAGACAGGAAGAAGAGAGATGTTTTCATTTT TCAATGTGGCCAACCTCTTTGCCCCAACTTCCCAGAAAATGTATGACGTTTATGATCTTGGTAGAATATGAACAAGTCGG CGAGAACGGGAACATTGCCCTAATTCAACAAGAATTATCGTGCAATGGGAATCCCTCAAGTTGGAATTTCCCTCGGGTGT GGGGGGGGGGAGGTTGATATTGTTAGGCTGGAAAGTTGGAACAGAAGATAAGGATAAAATTGTTATGGTCTGTTAGGGCA ATTAGTCAATTAGTTAGTTGGGAGTATTAACTAGATGAATAGTTGGAATCAGGGTGGAGTCATTCAGAAATTTAGAAGGT TGTGTAATAGGGAAACGTTTTGGTGAAGGGGAAACACGTCTGGAGGACAATTCTTTCTTCTATTCTCAATCATTCTAAGA TTGTTCTTTAACTTCATTTCTATGTATTTCTCATTTCTCTTTTTCCAGGTTCCAATCACTAACAGAACTCATTAGTCATT ACTCATTACATTAGGTGCAAGTTCCTTGTTTTTTAGTTAAGGGTTACTTCAAATTTTTCTTGAAAATGTTTTTTTATGGG CTTGCTTCCTTGAACTGCTTTCTCAACTATTAGCTAAAATACCCCTACCAAAAAAAAAACTATTAGCTAAAATACTATAT TTTTGCATTTTCTTAGTGTTCCGTTGTGCAGTTTGTCTGTATTTTGTTGCATACATTGTCGATATTATGAAACCTTTATC CATGTTAGATTGTGTGTTTGCTATGATGTTATTCTCAATTTAAAGATTGCAGCAGCATGTTGGTAATTTACTGTAGTGTC TCTTCGTACATGCATTACATTAAGCTGAAAAATTATAATGATTGTTGGATTCAACCAGTCTTGTAGCACCCTCCCTGCTC ATCCTCAAAAGTCTAGAGAAAACATCATCCTTCTCAAAGAATCACTTATTTTCTATTAATTGCTGACTTAGATGATGTCC TGTGCAGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTTGTCTTGTGAGGCCAGGAAATTTTTT TGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTGCTAGTAATGACCTCAATGAGGAAAC AATTGATGCTTTAAACAAACAGGTAGCTATTTATTGCAGACTCGAACTTGTAATTTTTTGCCTACTGATTCACAGTCAGC CTAACAATTGAGCAGTGTCTAAGATTGCCACCTTGTGTTTATGTGTGCGTGCAACCGTGCACGCATCGTTTAATTTCCGT ATGAAATAAAAGATCTTTTATTGAAACTATTAAACCTGGTTTGTTGGTTTATTATAAATTTTAATTTTTGAGTTTCTCAT ATATTCATTTACATCTATGCTAATATATTTATATCAAAACTTATCTTCTGTGTTTGATGATCTCTCCTTCCTGGTATATA AAATATGGATCTCAAAATTTAGTATACTGTGTTTAGTTATTGGAATACTTCTCATCCTCTAAAGGAAATAAAATAAAGAT AACTAATAGACAAACGTGTAGTTGGCAGAGAAAATTAGAGATTGGAACTTTACATTTTATTAAATTGACACGGTTAGCAT GCATGTCAAGATACTAGTGTGCATGAAATTCTGGAATAGAAAACTAACAGGATGTTTATATTGGTTCACATATTTGTTTA CCACTAAAATCTATGATATGTTTGGGGTGTATTGCCTCCCATATTGCAGTTTGGTGGGGTATACATACATGATACATCAC ATTACTCCTCCTGCTTGAGGGGTAGTGGGTAACTGATCTTCTGTATGCATGTAACATGGTGTCTTACCTTGTCATAACAT TAATCATTACATTTAAGTATTGGTGCTTAAAATGGAAAAGATAACACGACATGATTTTACTGGATGATGTCACAAAACTC AGGTTAGTTTAAATAACCCCTAGTTCTTTAACCATAGGACCTGGCAGAGTGTAGCGAAGTTGGTCTTTTGTCCAAAAATA AATTATTAAAACGTCTAGAACTGTTTCCCGAGAGCTAGTTTACATGAAAGGTGACAAAGACAAATCCTACTATGGTACTG CTAACTTATTGGACAGAAAAATTTAAATATTTTTCTTAGCATTATTTTCTAATTGTCTTAGAACATGTTCATGTCATGTT GGAATTTCTTATACACAAACGGTTAATTTTTTAGTGCCAAGGCTTACAATTGTTATACCCTTTTCATTGGATTGCGTTTT CTCTGTAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACATACCTGGTCACATGTTATGCTCAAGCTGCCTTAGGTGTT GTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAAACTTTCTGAAGATGTGTCAAAGGTTTAAACATTCTAAAC TAGACATGATATTACAATCATCTTTGTGGTATTTAATTATCTATGTTTGTTTCTTTCTCTGTATTAGGTCTCTATTCCAT GTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCCTGGTAGACATAATGACTGGAGGAAATGAACCCTCT CCAAAGGTATTATTTTCACATTATTCTCTCATCTTCTTGCTTTTACTATGTCATGTTTCAAGCCTATTGGCTACGTCTTG CTTCCAAATGAGTTGGTTTTCTGTAGTTAACAAATCCTGCCAGAAAAATGAATTTACCATATTTTATTTATAGGTGGGAG AAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGAGAGCATATGTGGTGCCACAGCGTGTTGAGGAGCTTCTAAAA TGTTACTGGCCTGGGAGTTCAGGTGAGAACTAGCAACAAAGTTTAATAGCAATCATGTATATCAATAGTAACCATCATTT GTTTGATTAGGCTTTGTTTGGGAGTTTTTAGGGGAGGGGAGGCATAGGCTTAGGGAAGGGAGAGTAAGTCCTCCCCTTCT TTGGAAATTTAAATTCAACAAAACCACCCAATTTGGGAGAACTCAACAAAATAACTGAAGGAGGGTCTTGAAGGGCTTAC AAAAATTCCTCAAACCCTTCCCTCTCTTTTAAAAAACTCACAAGGGGAGGGCTTCTCATTTCGCTTCTCTTCCTTCCAAA ATCCAACTCACAAACAACTTTAGGGAAGTGGAAACTGCTGCATCGATTTTAAGAACATCCCATGATTCATTGTCAACCAA CCGTTAATATTTTTTGTAGCTTAAGAACCTGTTGCCTTATCCCCCTTTAAACCAAGAAAACAAAGATGTTATCTCACCTG TAACTGCTATGTTTACAAACTACGAGTTCCTGCATGAAATGATTATATCATATATGTCATCAGATAGTCAAAGTTGCACT TAGGAACAATGGAGTATATAAAGGGGCTTACCAGCATTTATAAGCTATTTATACATTCACTGAATGCAGCTTATGACCAA TAGTTTTTACTATTATTTTGTAACCTGCTTTTTTTCCTTTTGGAAGATAAAAAGAGAGAACCCTTACCAACTCTAAACGA GATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGAGACTCAACCCAACTCCATATAAGG TCACAAAGTTATACCTTGCTCTTATATTACCCCATTGTTATCATCTTGAATAATTTTACTCATTTTTTTTCTTCTAATAA GCAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGCACCAGTTGGGGAGCTGCAGT AA
Download Genomic Sequence

CDS sequence (LotjaGi4g1v0103900.7) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTGAGCAAAATTCAGGGCTGGAATTGCTAAATGGTGTTTTTGGTGAGACCAATCAAAGTGAGTTGGCAGCATTCAC ATCATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACATATGATGTGATGAGAAGTGGAATCCCTAATT TCTGTGCAGTTGCATTAGCTCTCAATGATTTAGGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATAT TTGTCTTGTGAGGCCAGGAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCAC TGCTAGTAATGACCTCAATGAGGAAACAATTGATGCTTTAAACAAACAGGGTCATGAAGTTGATGCCTTTGGTATTGGTA CATACCTGGTCACATGTTATGCTCAAGCTGCCTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATT AAACTTTCTGAAGATGTGTCAAAGGTCTCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCC CCTGGTAGACATAATGACTGGAGGAAATGAACCCTCTCCAAAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAG AATCCAAGAGAGCATATGTGGTGCCACAGCGTGTTGAGGAGCTTCTAAAATGTTACTGGCCTGGGAGTTCAGATAAAAAG AGAGAACCCTTACCAACTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAG GAGACTCAACCCAACTCCATATAAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGG CACCAGTTGGGGAGCTGCAGTAA
Download CDS Sequence

Protein sequence (LotjaGi4g1v0103900.7) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAEQNSGLELLNGVFGETNQSELAAFTSYALAFPNGFLALVDTYDVMRSGIPNFCAVALALNDLGYKAVGIRLDSGDLAY LSCEARKFFCSIEKEFGMPGFGRLVITASNDLNEETIDALNKQGHEVDAFGIGTYLVTCYAQAALGVVFKLVEINNQPRI KLSEDVSKVSIPCKKRSYRLYGKEGYPLVDIMTGGNEPSPKVGERILCRHPFQESKRAYVVPQRVEELLKCYWPGSSDKK REPLPTLNEIRERCINQIEQMRPDHLRRLNPTPYKVSVSAKLYEFIHFLWLNEAPVGELQ
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
PTHR11098:SF22
9 300 292 8.7E-187
PANTHER
PTHR11098
9 300 292 8.7E-187
IPR007229
PIRSF
PIRSF000484
11 296 286 8.6E-76
IPR007229
Gene3D
G3DSA:3.20.20.70
17 137 121 5.2E-74
IPR013785
SUPERFAMILY
SSF51690
20 296 277 1.14E-76
IPR036068
Pfam
PF04095
69 169 101 8.5E-5
IPR041525
Gene3D
G3DSA:3.20.140.10
138 284 147 5.2E-74
Pfam
PF17956
174 285 112 2.8E-35
IPR041619

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:0004514
Molecular function Nicotinate-nucleotide diphosphorylase (carboxylating) activity Catalysis of the reaction: CO(2) + diphosphate + nicotinate D-ribonucleotide = 5-phospho-alpha-D-ribose 1-diphosphate + 2 H(+) + quinolinate.
Subterm of
GO:0009435
Biological process NAD biosynthetic process The chemical reactions and pathways resulting in the formation of nicotinamide adenine dinucleotide, a coenzyme present in most living cells and derived from the B vitamin nicotinic acid; biosynthesis may be of either the oxidized form, NAD, or the reduced form, NADH.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0103900.7, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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