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LotjaGi4g1v0103900.8

Overview

Field Value
Gene ID LotjaGi4g1v0103900
Transcript ID LotjaGi4g1v0103900.8
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_chr4:14482201..14492401) extracted from Lotus japonicus Gifu genome v1.2.

TTGAGAATTGAAGGTCCAGTTGCTGTGAGTATTTGCCACCATTAAATACCCTCTTTTAATATTGGTTTCTTTCAAGAGTG GCCTATTTCTCACATTAAATTAGCTTTTATATTTTTTCAGGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAA ATTATGCATCATTAGTTGCCACCAATGCGGCAAGGCATCGAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGA CTACGAAGGGCTCAGGTTAATAGTCTTTTAAAATATTTTGTGATGAGTAAATTTTGGAACTGTCCTTCAGTATTCATTGA AAAGGGAAAAAAATCTTATTTTTAATGTAGGGGCCTGATGGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATT TGACGCAACAAGGTATAATGGATTAAACAATTCAATTCTAACATGTCCGGCACTGTCAGTGTTGTTCATGGCGGATTATG GCTGAATATCAGCCATGGCGGCGCTGTCATGGTCAATATTTGACAACACTGGGTACTGTATGATCTGGATGAGGAAATTT TCTTTACAATCTGTCTTAGAATTCGGGCTAAGCCTAACGCAATCCCAAAAGCTAGCTCAAATGTGAGGATCGCTAAAGCC TTTCTAAGGACTATTTTGGTTATATCTTTAGTTGATGTAGGATCTTTATACACCCCGTTCACGCCTAGAATTAGGTATCT GGAGCACGGAATTTGTAGAGTTCACAACTACAATGAAGGCACCTAGGGTGGCTGCAATGAAGTCTGAATTTTGGGGCCAA TTTCAGATTTAGGAATTGCTTTGATTCAATCTTTAGAAGGTAGATGGAAAACTGAAATGTTATTTCTGAACAAATTTTCA CTTGATGGGCAAATAATTTTCATAATATATACAAATCCCTAGTTACTTTCCTTAATCATAATTATATTACAACTGTACAA ATTGGTCCTGAAAAAACTAATTAGAAAATATAGCTGTACAATAATAATGATTCCTAACAATATGCATTTCTACCAGATCA TGGTTGAGGTTTTGTGGTCTAAAACCTTGATGATGCTAATCTTGTCTAAGGTGTCATCATTATTGTTTATCAAATGTGTT TGAACGTGGAATTTTTATCACATATAATAGATAATTTATTTACTATTAATTTAGATGCAAGGCTCTGTTTTCATGACATG TTATGTTAACTCTACTTTTACATGATTTGAGTGTAATTCCTCTTAGTTTGTACATTGTATTTGAATTTCTTTATGAATGT TTTTGAAGGAACCTATATTTGGTTATTCCTTTTCAAAGCAATTCGAGCTACTGTCATTCATATTTTGTCATTTCAAGTTT GTAACTGCACTTCTAATATTGAAGTTCTTAACATTAAATACTGTTAGATCAAATAGAGTGATGGCCTAATTAAGTTCCTC AGTACCTATTCCTCACATATGGTAAGTTGGTGACAATAACATGTATGTACATGTCTTCATGCAATTACTTGGATAATTCA CAACCTTTATTTGCATAATGTGGTATATATGGGACATTATGCACTTGGAAGTCACACACTGAGTGGACCCATTCTGAAAG ACCTGAGTGAAATTGCCCTTTTTTAGGGGGAGGGATTAAGTTTTGTATTTTGGCTTAGTGAATTCTTCTTATTTCTTACC TTGCTTTTTCCTTTGTGTCAATAGCAATGTTGCGGCAGGAAAGTTATTCGGGATACCCATTCGTGGTACTCATTCCCATG CCTTCGTTAGCTCATATATGGTGTGTAACCAATCCACTGACTACATATTTGGTTAATGTTTATGAGGTGAATTTCCAATA AGTAAACATGTCATTTGTAATACATACTTGAAAGAACAGAATCTCTGTTTAAATCTATCCATTCAAATTGTCTAGAGGCA CCAACATGATTTTAATGTTTCTAATAACTATGTATGACAAGGACAGTTAGAAATTTGTCTTGGAATGAAAAGTTAAATGA TAGGGGATGAGACACTGCAGTGAAGTTCAGTGAGAATATCGGTATAAATGTTATATAAATAGGGGAAGTCATAAAATTTA GAAGCAGTGTTAAACCACTTTGGAGATTATTGAAGTTTAGGCCTAGGAAAGATCAAATGTAATATATACTCTGCAGAGTG ACACTGTAACAGTGAATTCAGAAGGACCTGATGAAATTTTTGTCCCTATATGCAGCCAGCCTCTATAAATCCAAATATAG TAGTGTTAGACTTAGACCTAATGAAACTATGAAATAATGAGGTAGATCTGCTATTTTATAACAATGGAGTTTCAGCAAAA GCTAAGTTGTAATTTCTTGGTGCCTTTTATATGTAAATTTTGTTGTTAGAATTGTAGTACTTTATATGATTTGAGGCACT TTATGTTAAATTTCATTTGCTTACTTTTTGTCTACTTGTCTGTATCGTGATGTGCAGAGCCTTGATGAGATCATAGATAA GTCACTTCGAAGAAAGGATGGATCAAGCACATGCGAAGATTTTGTTAGTATGGTTCAAACATGGCTGAGCAAAATTCAGG TATCGCGACATAAGCATATACATCCTTTTTCTTTTTTTGGTTCTTATCTATTCCTGTTTTTCGGCTTTTGCTTGTTTGTA TCTGTGGGGGAGGATGGGGGATTTGATGAGGTGTCATCCTTATGCAAACCAATTTGGAAGGTGTTTTTTTGCAGAGACAC TAAACTAGTTTTTTCTTCTTAGGTATTTCCTGAACTGGAATTTTTATATTAAAAACTAAAGCTCATTGATATGAAATGTT TATACATGTGCTTTGTGCAAATTTCAATATTTGTATTATTGAGCATTTGCGAGATCTTGAATACCACCACATATACCAGT GATGTTCGAATGAGTTGTTTTAAGTAACTATTGTGATTTGCATTGCCATGTCCAAAGGGCTGGAAGCCTTAGTTTTGTTC ATTTATAATTTAAATAGAAGAAAACTTAGTATAGAGAAAGGAAATATGGAAAGAAAGCCTCAAGCAGGTGGTATCTTGCA TTGTAATTATTTTAGAAAGATTAGATTAAATTCAAGGCAAAACTTCTTCCATATTATTAAATTTGGGTTCACAAAGTATT CTTCTCAATCCTTCTGCTACCAGTTGAGGTTGATTCTTTCATCACTACACAAATGTGTTCAGTCACATGCTCACCAAGCA AACAATTATGTGAGCGTATTATGCAATGCCCTGGCAGGCTAAGAAAACATAATTAGTAGCTGAGTTGTAACTTTGAGATT TTTAATAAAAACCATACACGCCCCTTTTTAAGAGCTCAAGCTTCAAGTCTATTTGGTTTTTGATGTGGTATGAGAGTCTC ATCCTCCAAGTGATGAAAAGTTCAATACTTGCTCACTCATTCTTCTAATTAAAATTTCAGGGCTTTCCCATTAGTCGGTG TGTATGTTAACATAAAGCATCCCAGAATCTTGGGCCTAATCCTAACAAGTTTAGTTTTTGGGGTACTTGTCTTTATCAGT AACACTTGATATGATTCTTGAGATTGGCATATGAATTAATTAGCTTTTTAATCCTTCGCTTGCATTCTACACAAGAATGA ATGTTTTTTTTTTTTCCAATGAAGTTGAAATATAACCATATGCCTGGAGATCCAGGAATAAGCTATGCAGTATAATACTA GATTTAATTAACATAAGTAAAATACCTAACTTAATATTATAGCAGAGGTATTTTAGATCATGGCTATCTCATTTGTGATC CTTTCCTTACCTTCTGAAAAAATATTTGAATGATCATTTCACGTCAATGATGTAAAGAATCTGATTACCATCATTGTATC ATATGTTTATCTTTTGCACTCTTACAAAATTGAAGATTTGTCAGTGAATATTCTAATGCGTGTTCCCACTCTGCAGTTGC TAAATGGTGTTTTTGGTGAGACCAATCAAAGTGAGTTGGCAGCATTCACATCATATGCATTGGCATTTCCTAATGGCTTT CTTGCCCTTGTAGATACATATGATGTAAGTATTTTGGTAGACTTTTTATTTCTTAAACTGCCATAATTCTTGTTAAATCC TAACATCATTTTAACCTGTAATGCAAATTATTAGGGGTTAATATTGTTTTTCCCTCCTATATGACTTTTGGTATCCTGCC CTCTCCCCCCCCCCCCACCCAATATATATATAATACACACACACATACATGATCGCAACTGCAACCATTAACAATGTACA TGCAAACTGCAACTCTGAGTGGTGATAATCAGTTATTCTGGGATCTTGAATTAATTTAGGCTTTGGGACATAAAATATAA GGGAATTGCATAACTGCGAAGATGAGTAAATGGTCGTGATTGTGTGCTTACTACAAATATGTGTGTAGGTATTGGTAGGT ACTATTTTGATATTTTCCATTGTCCTAAAGAAGTGCATAACATTAAGTTTCAACTTACTCAAAAGACATATGAAGAAGCA CATGTATCATTTACTGTCTACTCAGTAGGAAAAATTTACGCATGATTCACCTCACGTCTCATGATTTAGATCAGTTATAT GCCTGACCGGTGAGAGGATGGGTGGGTAATTTTGTGGTAAACCCATACCATTCACAGGTCAGTGCCTTCAATTTCAAAAC AAAATTTAACTTTACTGAATGGGTAGTTCTTGTACTACAGAGATACAAAGCTGCAGATGCTGAAAAACGGATCTATTAGC ATGATAAACCATATTAGTGCTGTGCTGCCTATTGCAGTCTTGAATATTGTAATTTGTATCACCCATTGCTCTCCAACTTC TTTGTGCTAATCGTTTATCTTATATCCTGACCTGAAGTTAAAAACATGTTGCAATTACACAAGTTTTATTTCCAGCTACT AGGTCATCTGTCAAGCGGTTATTGTTTGTGGATAATTTGTTTGATAATCAGTACTAAGTTAACTTTTTAGGGTTCCAGTG TTATCAAATATCCGCCATGGCAGTTTCTCATGGCGGTTTTTTGGCTTTCCGCCATGGCCGATATCCCGCCAGATTTCACC ATATCCCGCCATATTCCGCCATTATTTGTCCTGTATGGCGGGATTTTGGCTTCCTGCCATCCGCAATTAACAACACTGTA GGGTTCATATTAGAAGGGCTAGGCCGAACTCCACCCTAAAATCTAGCTTAGCGGGGAGGATTGCATTCCCATTTATAAGG ACTTCTTTAGCCATATCTATAGTCAATGTGAGTCCTTAACACTCCTTCAGACCTAAGACTATCATGTGGAGTGTTCAAAT TTATCGAAATTCCCTTATCCTCATTACAGGATATCTACAGGGCTAGATTAACTTCATTTTTTCCTGAAATAGCCCGCAGG TCAGATTGACTTCATAATGTTTTTTGGAACAACACGGGTCAGGTCAGTTTTTGAACTTCACATTTCAATGGGTGGCCCAA CAAGGGATCTAGGACATCTTAATTGATAATTGATTAATATAATGTGATTTTGAAGTACAATATTTATATATAAGGTTTCC CAGTCCTAGTCCAACTACATAGGAAAACAAGTTAACAAACTATAAGATATCAAGGAATAATATCAGAATAAAATCTAATT ATAACAAACTACATCCTAGTCCAATTATCTCAACAATTTATATCCTTACAATTAACTCAACAGTTCATTCCGTATTTTCC ACATTTGATTTATCTATTTCTCTAGATGATTACATTTGCATTTATTGACAGGTGATGAGAAGTGGAATCCCTAATTTCTG TGCAGTTGCATTAGCTCTCAATGATTTAGGGTATGTCAGGAAACATTTCTGTTATTATCACTTGATTAGAGGTTTTACAT GACTATGATTTTTTATTCTTTTATGTAATAATGTTCATTTTCTAGTTGATTTTTTGGTCTATGGATACAATGTTTTGTTC TGTTTCTTTTTGTGCAAATGAAACAATGAATGAGAAATGATATGCTGTGGGAGTATTGGCAGAGATGCTGTACAAGGAAT TAATGGCAATAGAAACTGATAGTAGCAGTCTGGAATCTGGATGCAGTAGCATCCTCCATACTGTTGATTAGGATCTACTT GATGCTGTATCTGTTAGGACAGAAGATGCTGGGAAATAGTTAAGGATAGATACTAGATAGAGAAGTTATTTAGAGAGAAT TAATGGTTGAGGGATTCATTCAAAGAATTTAGGAAGCTGTGTGAAAGGGGAACCTTTTAGTGCAAGGGAAACTCTTGGAG GAGAATTCTTTCTCTTATTCTAGAACATTCAATTACTCGCTATTCAGACATGGGTGTATAAGGGGTGAAAAAAGCTGTGG ATCAGATATCATCAAAATCCAGCTCCCCTGACACTTTCCTGCCAAGAAACAGAGGAGCTCAGTAGCTTCCTTGTGATGAG TGTGTCAGAAGACAGGAAGAAGAGAGATGTTTTCATTTTTCAATGTGGCCAACCTCTTTGCCCCAACTTCCCAGAAAATG TATGACGTTTATGATCTTGGTAGAATATGAACAAGTCGGCGAGAACGGGAACATTGCCCTAATTCAACAAGAATTATCGT GCAATGGGAATCCCTCAAGTTGGAATTTCCCTCGGGTGTGGGGGGGGGGAGGTTGATATTGTTAGGCTGGAAAGTTGGAA CAGAAGATAAGGATAAAATTGTTATGGTCTGTTAGGGCAATTAGTCAATTAGTTAGTTGGGAGTATTAACTAGATGAATA GTTGGAATCAGGGTGGAGTCATTCAGAAATTTAGAAGGTTGTGTAATAGGGAAACGTTTTGGTGAAGGGGAAACACGTCT GGAGGACAATTCTTTCTTCTATTCTCAATCATTCTAAGATTGTTCTTTAACTTCATTTCTATGTATTTCTCATTTCTCTT TTTCCAGGTTCCAATCACTAACAGAACTCATTAGTCATTACTCATTACATTAGGTGCAAGTTCCTTGTTTTTTAGTTAAG GGTTACTTCAAATTTTTCTTGAAAATGTTTTTTTATGGGCTTGCTTCCTTGAACTGCTTTCTCAACTATTAGCTAAAATA CCCCTACCAAAAAAAAAACTATTAGCTAAAATACTATATTTTTGCATTTTCTTAGTGTTCCGTTGTGCAGTTTGTCTGTA TTTTGTTGCATACATTGTCGATATTATGAAACCTTTATCCATGTTAGATTGTGTGTTTGCTATGATGTTATTCTCAATTT AAAGATTGCAGCAGCATGTTGGTAATTTACTGTAGTGTCTCTTCGTACATGCATTACATTAAGCTGAAAAATTATAATGA TTGTTGGATTCAACCAGTCTTGTAGCACCCTCCCTGCTCATCCTCAAAAGTCTAGAGAAAACATCATCCTTCTCAAAGAA TCACTTATTTTCTATTAATTGCTGACTTAGATGATGTCCTGTGCAGATATAAAGCAGTTGGCATTAGATTGGATTCTGGT GACCTTGCATATTTGTCTTGTGAGGCCAGGAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAG GTTGGTAATCACTGCTAGTAATGACCTCAATGAGGAAACAATTGATGCTTTAAACAAACAGGTAGCTATTTATTGCAGAC TCGAACTTGTAATTTTTTGCCTACTGATTCACAGTCAGCCTAACAATTGAGCAGTGTCTAAGATTGCCACCTTGTGTTTA TGTGTGCGTGCAACCGTGCACGCATCGTTTAATTTCCGTATGAAATAAAAGATCTTTTATTGAAACTATTAAACCTGGTT TGTTGGTTTATTATAAATTTTAATTTTTGAGTTTCTCATATATTCATTTACATCTATGCTAATATATTTATATCAAAACT TATCTTCTGTGTTTGATGATCTCTCCTTCCTGGTATATAAAATATGGATCTCAAAATTTAGTATACTGTGTTTAGTTATT GGAATACTTCTCATCCTCTAAAGGAAATAAAATAAAGATAACTAATAGACAAACGTGTAGTTGGCAGAGAAAATTAGAGA TTGGAACTTTACATTTTATTAAATTGACACGGTTAGCATGCATGTCAAGATACTAGTGTGCATGAAATTCTGGAATAGAA AACTAACAGGATGTTTATATTGGTTCACATATTTGTTTACCACTAAAATCTATGATATGTTTGGGGTGTATTGCCTCCCA TATTGCAGTTTGGTGGGGTATACATACATGATACATCACATTACTCCTCCTGCTTGAGGGGTAGTGGGTAACTGATCTTC TGTATGCATGTAACATGGTGTCTTACCTTGTCATAACATTAATCATTACATTTAAGTATTGGTGCTTAAAATGGAAAAGA TAACACGACATGATTTTACTGGATGATGTCACAAAACTCAGGTTAGTTTAAATAACCCCTAGTTCTTTAACCATAGGACC TGGCAGAGTGTAGCGAAGTTGGTCTTTTGTCCAAAAATAAATTATTAAAACGTCTAGAACTGTTTCCCGAGAGCTAGTTT ACATGAAAGGTGACAAAGACAAATCCTACTATGGTACTGCTAACTTATTGGACAGAAAAATTTAAATATTTTTCTTAGCA TTATTTTCTAATTGTCTTAGAACATGTTCATGTCATGTTGGAATTTCTTATACACAAACGGTTAATTTTTTAGTGCCAAG GCTTACAATTGTTATACCCTTTTCATTGGATTGCGTTTTCTCTGTAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACA TACCTGGTCACATGTTATGCTCAAGCTGCCTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAA ACTTTCTGAAGATGTGTCAAAGGTTTAAACATTCTAAACTAGACATGATATTACAATCATCTTTGTGGTATTTAATTATC TATGTTTGTTTCTTTCTCTGTATTAGGTCTCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTAT CCCCTGGTAGACATAATGACTGGAGGAAATGAACCCTCTCCAAAGGTATTATTTTCACATTATTCTCTCATCTTCTTGCT TTTACTATGTCATGTTTCAAGCCTATTGGCTACGTCTTGCTTCCAAATGAGTTGGTTTTCTGTAGTTAACAAATCCTGCC AGAAAAATGAATTTACCATATTTTATTTATAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGAGA GCATATGTGGTGCCACAGCGTGTTGAGGAGCTTCTAAAATGTTACTGGCCTGGGAGTTCAGGTGAGAACTAGCAACAAAG TTTAATAGCAATCATGTATATCAATAGTAACCATCATTTGTTTGATTAGGCTTTGTTTGGGAGTTTTTAGGGGAGGGGAG GCATAGGCTTAGGGAAGGGAGAGTAAGTCCTCCCCTTCTTTGGAAATTTAAATTCAACAAAACCACCCAATTTGGGAGAA CTCAACAAAATAACTGAAGGAGGGTCTTGAAGGGCTTACAAAAATTCCTCAAACCCTTCCCTCTCTTTTAAAAAACTCAC AAGGGGAGGGCTTCTCATTTCGCTTCTCTTCCTTCCAAAATCCAACTCACAAACAACTTTAGGGAAGTGGAAACTGCTGC ATCGATTTTAAGAACATCCCATGATTCATTGTCAACCAACCGTTAATATTTTTTGTAGCTTAAGAACCTGTTGCCTTATC CCCCTTTAAACCAAGAAAACAAAGATGTTATCTCACCTGTAACTGCTATGTTTACAAACTACGAGTTCCTGCATGAAATG ATTATATCATATATGTCATCAGATAGTCAAAGTTGCACTTAGGAACAATGGAGTATATAAAGGGGCTTACCAGCATTTAT AAGCTATTTATACATTCACTGAATGCAGCTTATGACCAATAGTTTTTACTATTATTTTGTAACCTGCTTTTTTTCCTTTT GGAAGATAAAAAGAGAGAACCCTTACCAACTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGAC CTGACCACTTGAGGAGACTCAACCCAACTCCATATAAGGTCACAAAGTTATACCTTGCTCTTATATTACCCCATTGTTAT CATCTTGAATAATTTTACTCATTTTTTTTCTTCTAATAAGCAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATT TCTTGTGGCTCAATGAGGCACCAGTTGGGGAGCTGCAGTAA
Download Genomic Sequence

CDS sequence (LotjaGi4g1v0103900.8) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGCCTTGATGAGATCATAGATAAGTCACTTCGAAGAAAGGATGGATCAAGCACATGCGAAGATTTTGTTAGTATGGT TCAAACATGGCTGAGCAAAATTCAGTTGCTAAATGGTGTTTTTGGTGAGACCAATCAAAGTGAGTTGGCAGCATTCACAT CATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACATATGATGTGATGAGAAGTGGAATCCCTAATTTC TGTGCAGTTGCATTAGCTCTCAATGATTTAGGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTT GTCTTGTGAGGCCAGGAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTG CTAGTAATGACCTCAATGAGGAAACAATTGATGCTTTAAACAAACAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACA TACCTGGTCACATGTTATGCTCAAGCTGCCTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAA ACTTTCTGAAGATGTGTCAAAGGTCTCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCC TGGTAGACATAATGACTGGAGGAAATGAACCCTCTCCAAAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAA TCCAAGAGAGCATATGTGGTGCCACAGCGTGTTGAGGAGCTTCTAAAATGTTACTGGCCTGGGAGTTCAGATAAAAAGAG AGAACCCTTACCAACTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGA GACTCAACCCAACTCCATATAAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGCA CCAGTTGGGGAGCTGCAGTAA
Download CDS Sequence

Protein sequence (LotjaGi4g1v0103900.8) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSLDEIIDKSLRRKDGSSTCEDFVSMVQTWLSKIQLLNGVFGETNQSELAAFTSYALAFPNGFLALVDTYDVMRSGIPNF CAVALALNDLGYKAVGIRLDSGDLAYLSCEARKFFCSIEKEFGMPGFGRLVITASNDLNEETIDALNKQGHEVDAFGIGT YLVTCYAQAALGVVFKLVEINNQPRIKLSEDVSKVSIPCKKRSYRLYGKEGYPLVDIMTGGNEPSPKVGERILCRHPFQE SKRAYVVPQRVEELLKCYWPGSSDKKREPLPTLNEIRERCINQIEQMRPDHLRRLNPTPYKVSVSAKLYEFIHFLWLNEA PVGELQ
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:SF20
1 326 326 5.1E-201
PANTHER
PTHR11098
1 326 326 5.1E-201
IPR007229
PIRSF
PIRSF000484
29 322 294 1.0E-75
IPR007229
Gene3D
G3DSA:3.20.20.70
43 163 121 6.6E-74
IPR013785
SUPERFAMILY
SSF51690
45 322 278 6.87E-77
IPR036068
Pfam
PF04095
95 195 101 9.9E-5
IPR041525
Gene3D
G3DSA:3.20.140.10
164 310 147 6.6E-74
Pfam
PF17956
200 311 112 3.4E-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 LotjaGi4g1v0103900.8, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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