Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0103900
Transcript ID	LotjaGi4g1v0103900.6
Related isoforms 9	LotjaGi4g1v0103900.1 LotjaGi4g1v0103900.2 LotjaGi4g1v0103900.3 LotjaGi4g1v0103900.4 LotjaGi4g1v0103900.5 LotjaGi4g1v0103900.7 LotjaGi4g1v0103900.8 LotjaGi4g1v0103900.9 LotjaGi4g1v0103900.10
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\|A0A1J7HTG5\|A0A1J7HTG5_LUPAN Uncharacterized protein; Found in the gene: LotjaGi4g1v0103900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:14481110..14492401) extracted from Lotus japonicus Gifu genome v1.2.

ATGGACCGAGCAAGCAACCTTCGAATGCCGGCATCGATGGACCAACCAACCCGATGGTCACGCCTCTGCTCAATGATCTC TACCAATTCACCATGGCTTATGCGTATTGGAAAGCTGGCAAGCATCAAGAGCGTGCTGTGTCAGTATTCGAATTCGTTTT TGCATTTATGAACTTCTGCAACTGAAACTGGAATTGATTCTGTTAATTCTGTTAGGGTTAATGTTTTGAATCTTGATTGC GGTTAATTTTATTGGTTTTTTAATCACTGGATGTAGTGAGCTTGATTTTAGGATCAGAGTTTTAATGCGTGGAAATGATG TTGATGATATGCGATTGTGATTTTGTTTTCAGGTTCGATTTGTATTTTCGGAAGAATCCATTTGGTGGGGAATATACTGT GTTTGCTGGTTTGGAAGAATGCATCAGGTTCATAGCTAATTTCAGACTCAACGAGGAGGAGATTGATTTTATTAGGAAGA GTTTATCTACTTCATGTGAGGTAAGCCAAACCGCGTTCCTCGCCATAGCTATAACATCCTTGTTAAATTGATTGTAACGG TGGCGGGCGGGGGGCTAATTTAGACTCGGGTGTCCAATTCCGCCATTATTTGTCATGTATGGCGGGATTTCGGCTTTCCG CCATGACCGGCCATCCACAATTAACAACACTGACATAATCATTGCATTTCTTATTCCTGTTTTGCGTTTTTATTTTACAA TTAATGTCAACGATATGAACGTTTTCAGCTGGATATCAAACTAATTTTTGGAAATGATGGATATAAAGAGTCATGGCCCT TTATCCAAGGGGAATTTGTCTTTTTTTCACAACTTTATTATGTGTTTCTTTATAGATTGCATTGAGCCAAGTGTAAACCT GAAATAATGTGGCTGGTGATTCGGTTTGCTATGATTTTGCGGAAAATGCTGCTGGCGTTTTTAGTAGATTCCCCTTTCGA ATTATTCTAACTTAATAATAATCTATTGAATGTAGGACGGATTCTTTGACTATCTGAGAGGACTTGACTGCTCTGATGTT GAGGTGTATGCTATTCCTGAGGGATCAGTTGTTTTTCCAAAGATACCCCTCTTGAGAATTGAAGGTCCAGTTGCTGTGAG TATTTGCCACCATTAAATACCCTCTTTTAATATTGGTTTCTTTCAAGAGTGGCCTATTTCTCACATTAAATTAGCTTTTA TATTTTTTCAGGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAAATTATGCATCATTAGTTGCCACCAATGCG GCAAGGCATCGAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGACTACGAAGGGCTCAGGTTAATAGTCTTTT AAAATATTTTGTGATGAGTAAATTTTGGAACTGTCCTTCAGTATTCATTGAAAAGGGAAAAAAATCTTATTTTTAATGTA GGGGCCTGATGGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATTTGACGCAACAAGGTATAATGGATTAAACA ATTCAATTCTAACATGTCCGGCACTGTCAGTGTTGTTCATGGCGGATTATGGCTGAATATCAGCCATGGCGGCGCTGTCA TGGTCAATATTTGACAACACTGGGTACTGTATGATCTGGATGAGGAAATTTTCTTTACAATCTGTCTTAGAATTCGGGCT AAGCCTAACGCAATCCCAAAAGCTAGCTCAAATGTGAGGATCGCTAAAGCCTTTCTAAGGACTATTTTGGTTATATCTTT AGTTGATGTAGGATCTTTATACACCCCGTTCACGCCTAGAATTAGGTATCTGGAGCACGGAATTTGTAGAGTTCACAACT ACAATGAAGGCACCTAGGGTGGCTGCAATGAAGTCTGAATTTTGGGGCCAATTTCAGATTTAGGAATTGCTTTGATTCAA TCTTTAGAAGGTAGATGGAAAACTGAAATGTTATTTCTGAACAAATTTTCACTTGATGGGCAAATAATTTTCATAATATA TACAAATCCCTAGTTACTTTCCTTAATCATAATTATATTACAACTGTACAAATTGGTCCTGAAAAAACTAATTAGAAAAT ATAGCTGTACAATAATAATGATTCCTAACAATATGCATTTCTACCAGATCATGGTTGAGGTTTTGTGGTCTAAAACCTTG ATGATGCTAATCTTGTCTAAGGTGTCATCATTATTGTTTATCAAATGTGTTTGAACGTGGAATTTTTATCACATATAATA GATAATTTATTTACTATTAATTTAGATGCAAGGCTCTGTTTTCATGACATGTTATGTTAACTCTACTTTTACATGATTTG AGTGTAATTCCTCTTAGTTTGTACATTGTATTTGAATTTCTTTATGAATGTTTTTGAAGGAACCTATATTTGGTTATTCC TTTTCAAAGCAATTCGAGCTACTGTCATTCATATTTTGTCATTTCAAGTTTGTAACTGCACTTCTAATATTGAAGTTCTT AACATTAAATACTGTTAGATCAAATAGAGTGATGGCCTAATTAAGTTCCTCAGTACCTATTCCTCACATATGGTAAGTTG GTGACAATAACATGTATGTACATGTCTTCATGCAATTACTTGGATAATTCACAACCTTTATTTGCATAATGTGGTATATA TGGGACATTATGCACTTGGAAGTCACACACTGAGTGGACCCATTCTGAAAGACCTGAGTGAAATTGCCCTTTTTTAGGGG GAGGGATTAAGTTTTGTATTTTGGCTTAGTGAATTCTTCTTATTTCTTACCTTGCTTTTTCCTTTGTGTCAATAGCAATG TTGCGGCAGGAAAGTTATTCGGGATACCCATTCGTGGTACTCATTCCCATGCCTTCGTTAGCTCATATATGGTGTGTAAC CAATCCACTGACTACATATTTGGTTAATGTTTATGAGGTGAATTTCCAATAAGTAAACATGTCATTTGTAATACATACTT GAAAGAACAGAATCTCTGTTTAAATCTATCCATTCAAATTGTCTAGAGGCACCAACATGATTTTAATGTTTCTAATAACT ATGTATGACAAGGACAGTTAGAAATTTGTCTTGGAATGAAAAGTTAAATGATAGGGGATGAGACACTGCAGTGAAGTTCA GTGAGAATATCGGTATAAATGTTATATAAATAGGGGAAGTCATAAAATTTAGAAGCAGTGTTAAACCACTTTGGAGATTA TTGAAGTTTAGGCCTAGGAAAGATCAAATGTAATATATACTCTGCAGAGTGACACTGTAACAGTGAATTCAGAAGGACCT GATGAAATTTTTGTCCCTATATGCAGCCAGCCTCTATAAATCCAAATATAGTAGTGTTAGACTTAGACCTAATGAAACTA TGAAATAATGAGGTAGATCTGCTATTTTATAACAATGGAGTTTCAGCAAAAGCTAAGTTGTAATTTCTTGGTGCCTTTTA TATGTAAATTTTGTTGTTAGAATTGTAGTACTTTATATGATTTGAGGCACTTTATGTTAAATTTCATTTGCTTACTTTTT GTCTACTTGTCTGTATCGTGATGTGCAGAGCCTTGATGAGATCATAGATAAGTCACTTCGAAGAAAGGATGGATCAAGCA CATGCGAAGATTTTGTTAGTATGGTTCAAACATGGCTGAGCAAAATTCAGGTATCGCGACATAAGCATATACATCCTTTT TCTTTTTTTGGTTCTTATCTATTCCTGTTTTTCGGCTTTTGCTTGTTTGTATCTGTGGGGGAGGATGGGGGATTTGATGA GGTGTCATCCTTATGCAAACCAATTTGGAAGGTGTTTTTTTGCAGAGACACTAAACTAGTTTTTTCTTCTTAGGTATTTC CTGAACTGGAATTTTTATATTAAAAACTAAAGCTCATTGATATGAAATGTTTATACATGTGCTTTGTGCAAATTTCAATA TTTGTATTATTGAGCATTTGCGAGATCTTGAATACCACCACATATACCAGTGATGTTCGAATGAGTTGTTTTAAGTAACT ATTGTGATTTGCATTGCCATGTCCAAAGGGCTGGAAGCCTTAGTTTTGTTCATTTATAATTTAAATAGAAGAAAACTTAG TATAGAGAAAGGAAATATGGAAAGAAAGCCTCAAGCAGGTGGTATCTTGCATTGTAATTATTTTAGAAAGATTAGATTAA ATTCAAGGCAAAACTTCTTCCATATTATTAAATTTGGGTTCACAAAGTATTCTTCTCAATCCTTCTGCTACCAGTTGAGG TTGATTCTTTCATCACTACACAAATGTGTTCAGTCACATGCTCACCAAGCAAACAATTATGTGAGCGTATTATGCAATGC CCTGGCAGGCTAAGAAAACATAATTAGTAGCTGAGTTGTAACTTTGAGATTTTTAATAAAAACCATACACGCCCCTTTTT AAGAGCTCAAGCTTCAAGTCTATTTGGTTTTTGATGTGGTATGAGAGTCTCATCCTCCAAGTGATGAAAAGTTCAATACT TGCTCACTCATTCTTCTAATTAAAATTTCAGGGCTTTCCCATTAGTCGGTGTGTATGTTAACATAAAGCATCCCAGAATC TTGGGCCTAATCCTAACAAGTTTAGTTTTTGGGGTACTTGTCTTTATCAGTAACACTTGATATGATTCTTGAGATTGGCA TATGAATTAATTAGCTTTTTAATCCTTCGCTTGCATTCTACACAAGAATGAATGTTTTTTTTTTTTCCAATGAAGTTGAA ATATAACCATATGCCTGGAGATCCAGGAATAAGCTATGCAGTATAATACTAGATTTAATTAACATAAGTAAAATACCTAA CTTAATATTATAGCAGAGGTATTTTAGATCATGGCTATCTCATTTGTGATCCTTTCCTTACCTTCTGAAAAAATATTTGA ATGATCATTTCACGTCAATGATGTAAAGAATCTGATTACCATCATTGTATCATATGTTTATCTTTTGCACTCTTACAAAA TTGAAGATTTGTCAGTGAATATTCTAATGCGTGTTCCCACTCTGCAGTTGCTAAATGGTGTTTTTGGTGAGACCAATCAA AGTGAGTTGGCAGCATTCACATCATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACATATGATGTAAG TATTTTGGTAGACTTTTTATTTCTTAAACTGCCATAATTCTTGTTAAATCCTAACATCATTTTAACCTGTAATGCAAATT ATTAGGGGTTAATATTGTTTTTCCCTCCTATATGACTTTTGGTATCCTGCCCTCTCCCCCCCCCCCCACCCAATATATAT ATAATACACACACACATACATGATCGCAACTGCAACCATTAACAATGTACATGCAAACTGCAACTCTGAGTGGTGATAAT CAGTTATTCTGGGATCTTGAATTAATTTAGGCTTTGGGACATAAAATATAAGGGAATTGCATAACTGCGAAGATGAGTAA ATGGTCGTGATTGTGTGCTTACTACAAATATGTGTGTAGGTATTGGTAGGTACTATTTTGATATTTTCCATTGTCCTAAA GAAGTGCATAACATTAAGTTTCAACTTACTCAAAAGACATATGAAGAAGCACATGTATCATTTACTGTCTACTCAGTAGG AAAAATTTACGCATGATTCACCTCACGTCTCATGATTTAGATCAGTTATATGCCTGACCGGTGAGAGGATGGGTGGGTAA TTTTGTGGTAAACCCATACCATTCACAGGTCAGTGCCTTCAATTTCAAAACAAAATTTAACTTTACTGAATGGGTAGTTC TTGTACTACAGAGATACAAAGCTGCAGATGCTGAAAAACGGATCTATTAGCATGATAAACCATATTAGTGCTGTGCTGCC TATTGCAGTCTTGAATATTGTAATTTGTATCACCCATTGCTCTCCAACTTCTTTGTGCTAATCGTTTATCTTATATCCTG ACCTGAAGTTAAAAACATGTTGCAATTACACAAGTTTTATTTCCAGCTACTAGGTCATCTGTCAAGCGGTTATTGTTTGT GGATAATTTGTTTGATAATCAGTACTAAGTTAACTTTTTAGGGTTCCAGTGTTATCAAATATCCGCCATGGCAGTTTCTC ATGGCGGTTTTTTGGCTTTCCGCCATGGCCGATATCCCGCCAGATTTCACCATATCCCGCCATATTCCGCCATTATTTGT CCTGTATGGCGGGATTTTGGCTTCCTGCCATCCGCAATTAACAACACTGTAGGGTTCATATTAGAAGGGCTAGGCCGAAC TCCACCCTAAAATCTAGCTTAGCGGGGAGGATTGCATTCCCATTTATAAGGACTTCTTTAGCCATATCTATAGTCAATGT GAGTCCTTAACACTCCTTCAGACCTAAGACTATCATGTGGAGTGTTCAAATTTATCGAAATTCCCTTATCCTCATTACAG GATATCTACAGGGCTAGATTAACTTCATTTTTTCCTGAAATAGCCCGCAGGTCAGATTGACTTCATAATGTTTTTTGGAA CAACACGGGTCAGGTCAGTTTTTGAACTTCACATTTCAATGGGTGGCCCAACAAGGGATCTAGGACATCTTAATTGATAA TTGATTAATATAATGTGATTTTGAAGTACAATATTTATATATAAGGTTTCCCAGTCCTAGTCCAACTACATAGGAAAACA AGTTAACAAACTATAAGATATCAAGGAATAATATCAGAATAAAATCTAATTATAACAAACTACATCCTAGTCCAATTATC TCAACAATTTATATCCTTACAATTAACTCAACAGTTCATTCCGTATTTTCCACATTTGATTTATCTATTTCTCTAGATGA TTACATTTGCATTTATTGACAGGTGATGAGAAGTGGAATCCCTAATTTCTGTGCAGTTGCATTAGCTCTCAATGATTTAG GGTATGTCAGGAAACATTTCTGTTATTATCACTTGATTAGAGGTTTTACATGACTATGATTTTTTATTCTTTTATGTAAT AATGTTCATTTTCTAGTTGATTTTTTGGTCTATGGATACAATGTTTTGTTCTGTTTCTTTTTGTGCAAATGAAACAATGA ATGAGAAATGATATGCTGTGGGAGTATTGGCAGAGATGCTGTACAAGGAATTAATGGCAATAGAAACTGATAGTAGCAGT CTGGAATCTGGATGCAGTAGCATCCTCCATACTGTTGATTAGGATCTACTTGATGCTGTATCTGTTAGGACAGAAGATGC TGGGAAATAGTTAAGGATAGATACTAGATAGAGAAGTTATTTAGAGAGAATTAATGGTTGAGGGATTCATTCAAAGAATT TAGGAAGCTGTGTGAAAGGGGAACCTTTTAGTGCAAGGGAAACTCTTGGAGGAGAATTCTTTCTCTTATTCTAGAACATT CAATTACTCGCTATTCAGACATGGGTGTATAAGGGGTGAAAAAAGCTGTGGATCAGATATCATCAAAATCCAGCTCCCCT GACACTTTCCTGCCAAGAAACAGAGGAGCTCAGTAGCTTCCTTGTGATGAGTGTGTCAGAAGACAGGAAGAAGAGAGATG TTTTCATTTTTCAATGTGGCCAACCTCTTTGCCCCAACTTCCCAGAAAATGTATGACGTTTATGATCTTGGTAGAATATG AACAAGTCGGCGAGAACGGGAACATTGCCCTAATTCAACAAGAATTATCGTGCAATGGGAATCCCTCAAGTTGGAATTTC CCTCGGGTGTGGGGGGGGGGAGGTTGATATTGTTAGGCTGGAAAGTTGGAACAGAAGATAAGGATAAAATTGTTATGGTC TGTTAGGGCAATTAGTCAATTAGTTAGTTGGGAGTATTAACTAGATGAATAGTTGGAATCAGGGTGGAGTCATTCAGAAA TTTAGAAGGTTGTGTAATAGGGAAACGTTTTGGTGAAGGGGAAACACGTCTGGAGGACAATTCTTTCTTCTATTCTCAAT CATTCTAAGATTGTTCTTTAACTTCATTTCTATGTATTTCTCATTTCTCTTTTTCCAGGTTCCAATCACTAACAGAACTC ATTAGTCATTACTCATTACATTAGGTGCAAGTTCCTTGTTTTTTAGTTAAGGGTTACTTCAAATTTTTCTTGAAAATGTT TTTTTATGGGCTTGCTTCCTTGAACTGCTTTCTCAACTATTAGCTAAAATACCCCTACCAAAAAAAAAACTATTAGCTAA AATACTATATTTTTGCATTTTCTTAGTGTTCCGTTGTGCAGTTTGTCTGTATTTTGTTGCATACATTGTCGATATTATGA AACCTTTATCCATGTTAGATTGTGTGTTTGCTATGATGTTATTCTCAATTTAAAGATTGCAGCAGCATGTTGGTAATTTA CTGTAGTGTCTCTTCGTACATGCATTACATTAAGCTGAAAAATTATAATGATTGTTGGATTCAACCAGTCTTGTAGCACC CTCCCTGCTCATCCTCAAAAGTCTAGAGAAAACATCATCCTTCTCAAAGAATCACTTATTTTCTATTAATTGCTGACTTA GATGATGTCCTGTGCAGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTTGTCTTGTGAGGCCAG GAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTGCTAGTAATGACCTCA ATGAGGAAACAATTGATGCTTTAAACAAACAGGTAGCTATTTATTGCAGACTCGAACTTGTAATTTTTTGCCTACTGATT CACAGTCAGCCTAACAATTGAGCAGTGTCTAAGATTGCCACCTTGTGTTTATGTGTGCGTGCAACCGTGCACGCATCGTT TAATTTCCGTATGAAATAAAAGATCTTTTATTGAAACTATTAAACCTGGTTTGTTGGTTTATTATAAATTTTAATTTTTG AGTTTCTCATATATTCATTTACATCTATGCTAATATATTTATATCAAAACTTATCTTCTGTGTTTGATGATCTCTCCTTC CTGGTATATAAAATATGGATCTCAAAATTTAGTATACTGTGTTTAGTTATTGGAATACTTCTCATCCTCTAAAGGAAATA AAATAAAGATAACTAATAGACAAACGTGTAGTTGGCAGAGAAAATTAGAGATTGGAACTTTACATTTTATTAAATTGACA CGGTTAGCATGCATGTCAAGATACTAGTGTGCATGAAATTCTGGAATAGAAAACTAACAGGATGTTTATATTGGTTCACA TATTTGTTTACCACTAAAATCTATGATATGTTTGGGGTGTATTGCCTCCCATATTGCAGTTTGGTGGGGTATACATACAT GATACATCACATTACTCCTCCTGCTTGAGGGGTAGTGGGTAACTGATCTTCTGTATGCATGTAACATGGTGTCTTACCTT GTCATAACATTAATCATTACATTTAAGTATTGGTGCTTAAAATGGAAAAGATAACACGACATGATTTTACTGGATGATGT CACAAAACTCAGGTTAGTTTAAATAACCCCTAGTTCTTTAACCATAGGACCTGGCAGAGTGTAGCGAAGTTGGTCTTTTG TCCAAAAATAAATTATTAAAACGTCTAGAACTGTTTCCCGAGAGCTAGTTTACATGAAAGGTGACAAAGACAAATCCTAC TATGGTACTGCTAACTTATTGGACAGAAAAATTTAAATATTTTTCTTAGCATTATTTTCTAATTGTCTTAGAACATGTTC ATGTCATGTTGGAATTTCTTATACACAAACGGTTAATTTTTTAGTGCCAAGGCTTACAATTGTTATACCCTTTTCATTGG ATTGCGTTTTCTCTGTAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACATACCTGGTCACATGTTATGCTCAAGCTGC CTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAAACTTTCTGAAGATGTGTCAAAGGTTTAAA CATTCTAAACTAGACATGATATTACAATCATCTTTGTGGTATTTAATTATCTATGTTTGTTTCTTTCTCTGTATTAGGTC TCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCCTGGTAGACATAATGACTGGAGGAAA TGAACCCTCTCCAAAGGTATTATTTTCACATTATTCTCTCATCTTCTTGCTTTTACTATGTCATGTTTCAAGCCTATTGG CTACGTCTTGCTTCCAAATGAGTTGGTTTTCTGTAGTTAACAAATCCTGCCAGAAAAATGAATTTACCATATTTTATTTA TAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGAGAGCATATGTGGTGCCACAGCGTGTTGAGGA GCTTCTAAAATGTTACTGGCCTGGGAGTTCAGGTGAGAACTAGCAACAAAGTTTAATAGCAATCATGTATATCAATAGTA ACCATCATTTGTTTGATTAGGCTTTGTTTGGGAGTTTTTAGGGGAGGGGAGGCATAGGCTTAGGGAAGGGAGAGTAAGTC CTCCCCTTCTTTGGAAATTTAAATTCAACAAAACCACCCAATTTGGGAGAACTCAACAAAATAACTGAAGGAGGGTCTTG AAGGGCTTACAAAAATTCCTCAAACCCTTCCCTCTCTTTTAAAAAACTCACAAGGGGAGGGCTTCTCATTTCGCTTCTCT TCCTTCCAAAATCCAACTCACAAACAACTTTAGGGAAGTGGAAACTGCTGCATCGATTTTAAGAACATCCCATGATTCAT TGTCAACCAACCGTTAATATTTTTTGTAGCTTAAGAACCTGTTGCCTTATCCCCCTTTAAACCAAGAAAACAAAGATGTT ATCTCACCTGTAACTGCTATGTTTACAAACTACGAGTTCCTGCATGAAATGATTATATCATATATGTCATCAGATAGTCA AAGTTGCACTTAGGAACAATGGAGTATATAAAGGGGCTTACCAGCATTTATAAGCTATTTATACATTCACTGAATGCAGC TTATGACCAATAGTTTTTACTATTATTTTGTAACCTGCTTTTTTTCCTTTTGGAAGATAAAAAGAGAGAACCCTTACCAA CTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGAGACTCAACCCAACT CCATATAAGGTCACAAAGTTATACCTTGCTCTTATATTACCCCATTGTTATCATCTTGAATAATTTTACTCATTTTTTTT CTTCTAATAAGCAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGCACCAGTTGGG GAGCTGCAGTAA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0103900.6) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTCACGCCTCTGCTCAATGATCTCTACCAATTCACCATGGCTTATGCGTATTGGAAAGCTGGCAAGCATCAAGAGCG TGCTGTGTTCGATTTGTATTTTCGGAAGAATCCATTTGGTGGGGAATATACTGTGTTTGCTGGTTTGGAAGAATGCATCA GGTTCATAGCTAATTTCAGACTCAACGAGGAGGAGATTGATTTTATTAGGAAGAGTTTATCTACTTCATGTGAGGACGGA TTCTTTGACTATCTGAGAGGACTTGACTGCTCTGATGTTGAGGTGTATGCTATTCCTGAGGGATCAGTTGTTTTTCCAAA GATACCCCTCTTGAGAATTGAAGGTCCAGTTGCTGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAAATTATG CATCATTAGTTGCCACCAATGCGGCAAGGCATCGAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGACTACGA AGGGCTCAGGGGCCTGATGGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATTTGACGCAACAAGGTATAATGG ATTAAACAATTCAATTCTAACATGTCCGGCACTGTCAGTCAATGTTGCGGCAGGAAAGTTATTCGGGATACCCATTCGTG GTACTCATTCCCATGCCTTCGTTAGCTCATATATGAGCCTTGATGAGATCATAGATAAGTCACTTCGAAGAAAGGATGGA TCAAGCACATGCGAAGATTTTGTTAGTATGGTTCAAACATGGCTGAGCAAAATTCAGTTGAGGTTGTTGCTAAATGGTGT TTTTGGTGAGACCAATCAAAGTGAGTTGGCAGCATTCACATCATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTG TAGATACATATGATGTGATGAGAAGTGGAATCCCTAATTTCTGTGCAGTTGCATTAGCTCTCAATGATTTAGGATATAAA GCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTTGTCTTGTGAGGCCAGGAAATTTTTTTGCTCGATTGAGAA GGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTGCTAGTAATGACCTCAATGAGGAAACAATTGATGCTTTAA ACAAACAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACATACCTGGTCACATGTTATGCTCAAGCTGCCTTAGGTGTT GTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAAACTTTCTGAAGATGTGTCAAAGGTCTCTATTCCATGTAA GAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCCTGGTAGACATAATGACTGGAGGAAATGAACCCTCTCCAA AGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGAGAGCATATGTGGTGCCACAGCGTGTTGAGGAG CTTCTAAAATGTTACTGGCCTGGGAGTTCAGATAAAAAGAGAGAACCCTTACCAACTCTAAACGAGATTAGAGAGCGGTG CATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGAGACTCAACCCAACTCCATATAAGGTTAGTGTAAGTGCAA AATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGCACCAGTTGGGGAGCTGCAGTAA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0103900.6) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVTPLLNDLYQFTMAYAYWKAGKHQERAVFDLYFRKNPFGGEYTVFAGLEECIRFIANFRLNEEEIDFIRKSLSTSCEDG FFDYLRGLDCSDVEVYAIPEGSVVFPKIPLLRIEGPVAAVQLLETPFVNLINYASLVATNAARHRNVAGKSKTLLEFGLR RAQGPDGGVGASKYCYIGGFDATRYNGLNNSILTCPALSVNVAAGKLFGIPIRGTHSHAFVSSYMSLDEIIDKSLRRKDG SSTCEDFVSMVQTWLSKIQLRLLLNGVFGETNQSELAAFTSYALAFPNGFLALVDTYDVMRSGIPNFCAVALALNDLGYK AVGIRLDSGDLAYLSCEARKFFCSIEKEFGMPGFGRLVITASNDLNEETIDALNKQGHEVDAFGIGTYLVTCYAQAALGV VFKLVEINNQPRIKLSEDVSKVSIPCKKRSYRLYGKEGYPLVDIMTGGNEPSPKVGERILCRHPFQESKRAYVVPQRVEE LLKCYWPGSSDKKREPLPTLNEIRERCINQIEQMRPDHLRRLNPTPYKVSVSAKLYEFIHFLWLNEAPVGELQ

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
PIRSF	PIRSF000484 View details on PIRSF000484 Search for proteins/transripts with this domain View external data on PIRSF000484	1	549	549	5.8E-160	IPR007229 Show description in modal box View details on IPR007229 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11098:SF22 View details on PTHR11098:SF22 Search for proteins/transripts with this domain View external data on PTHR11098:SF22	1	553	553	0.0	–
PANTHER	PTHR11098 View details on PTHR11098 Search for proteins/transripts with this domain View external data on PTHR11098	1	553	553	0.0	IPR007229 Show description in modal box View details on IPR007229 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.140.10 View details on G3DSA:3.20.140.10 Search for proteins/transripts with this domain View external data on G3DSA:3.20.140.10	1	152	152	6.5E-64	–
SUPERFAMILY	SSF54675 View details on SSF54675 Search for proteins/transripts with this domain View external data on SSF54675	3	136	134	3.79E-42	–
TIGRFAM	TIGR01513 View details on TIGR01513 Search for proteins/transripts with this domain View external data on TIGR01513	4	534	531	4.0E-143	IPR006405 Show description in modal box View details on IPR006405 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01570 View details on cd01570 Search for proteins/transripts with this domain View external data on cd01570	4	405	402	0.0	–
Pfam	PF17767 View details on PF17767 Search for proteins/transripts with this domain View external data on PF17767	5	132	128	7.1E-39	IPR040727 Show description in modal box View details on IPR040727 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51690 View details on SSF51690 Search for proteins/transripts with this domain View external data on SSF51690	137	549	413	2.55E-98	IPR036068 Show description in modal box View details on IPR036068 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	153	259	107	3.3E-18	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	270	390	121	3.2E-73	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.140.10 View details on G3DSA:3.20.140.10 Search for proteins/transripts with this domain View external data on G3DSA:3.20.140.10	391	537	147	3.2E-73	–
Pfam	PF17956 View details on PF17956 Search for proteins/transripts with this domain View external data on PF17956	427	538	112	8.9E-35	IPR041619 Show description in modal box View details on IPR041619 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:0004514 View details of GO:0004514 AmiGO InterPro QuickGO	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 View details of GO:0016763
GO:0004516 View details of GO:0004516 AmiGO InterPro QuickGO	Molecular function	Nicotinate phosphoribosyltransferase activity	Catalysis of the reaction: diphosphate + nicotinate D-ribonucleotide = 5-phospho-alpha-D-ribose 1-diphosphate + H(+) + nicotinate.	Subterm of View details of GO:0016879
GO:0009435 View details of GO:0009435 AmiGO InterPro QuickGO	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 View details of GO:0019359 View details of GO:0019674

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0103900.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0103900.6