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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0103900 |
| Transcript ID | LotjaGi4g1v0103900.2 |
| 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|A0A1J7HTG5|A0A1J7HTG5_LUPAN Uncharacterized protein; Found in the gene: LotjaGi4g1v0103900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:14481100..14492401) extracted from Lotus japonicus Gifu genome v1.2.
ACGAAGCCGAATGGACCGAGCAAGCAACCTTCGAATGCCGGCATCGATGGACCAACCAACCCGATGGTCACGCCTCTGCT CAATGATCTCTACCAATTCACCATGGCTTATGCGTATTGGAAAGCTGGCAAGCATCAAGAGCGTGCTGTGTCAGTATTCG AATTCGTTTTTGCATTTATGAACTTCTGCAACTGAAACTGGAATTGATTCTGTTAATTCTGTTAGGGTTAATGTTTTGAA TCTTGATTGCGGTTAATTTTATTGGTTTTTTAATCACTGGATGTAGTGAGCTTGATTTTAGGATCAGAGTTTTAATGCGT GGAAATGATGTTGATGATATGCGATTGTGATTTTGTTTTCAGGTTCGATTTGTATTTTCGGAAGAATCCATTTGGTGGGG AATATACTGTGTTTGCTGGTTTGGAAGAATGCATCAGGTTCATAGCTAATTTCAGACTCAACGAGGAGGAGATTGATTTT ATTAGGAAGAGTTTATCTACTTCATGTGAGGTAAGCCAAACCGCGTTCCTCGCCATAGCTATAACATCCTTGTTAAATTG ATTGTAACGGTGGCGGGCGGGGGGCTAATTTAGACTCGGGTGTCCAATTCCGCCATTATTTGTCATGTATGGCGGGATTT CGGCTTTCCGCCATGACCGGCCATCCACAATTAACAACACTGACATAATCATTGCATTTCTTATTCCTGTTTTGCGTTTT TATTTTACAATTAATGTCAACGATATGAACGTTTTCAGCTGGATATCAAACTAATTTTTGGAAATGATGGATATAAAGAG TCATGGCCCTTTATCCAAGGGGAATTTGTCTTTTTTTCACAACTTTATTATGTGTTTCTTTATAGATTGCATTGAGCCAA GTGTAAACCTGAAATAATGTGGCTGGTGATTCGGTTTGCTATGATTTTGCGGAAAATGCTGCTGGCGTTTTTAGTAGATT CCCCTTTCGAATTATTCTAACTTAATAATAATCTATTGAATGTAGGACGGATTCTTTGACTATCTGAGAGGACTTGACTG CTCTGATGTTGAGGTGTATGCTATTCCTGAGGGATCAGTTGTTTTTCCAAAGATACCCCTCTTGAGAATTGAAGGTCCAG TTGCTGTGAGTATTTGCCACCATTAAATACCCTCTTTTAATATTGGTTTCTTTCAAGAGTGGCCTATTTCTCACATTAAA TTAGCTTTTATATTTTTTCAGGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAAATTATGCATCATTAGTTGC CACCAATGCGGCAAGGCATCGAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGACTACGAAGGGCTCAGGTTA ATAGTCTTTTAAAATATTTTGTGATGAGTAAATTTTGGAACTGTCCTTCAGTATTCATTGAAAAGGGAAAAAAATCTTAT TTTTAATGTAGGGGCCTGATGGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATTTGACGCAACAAGGTATAAT GGATTAAACAATTCAATTCTAACATGTCCGGCACTGTCAGTGTTGTTCATGGCGGATTATGGCTGAATATCAGCCATGGC GGCGCTGTCATGGTCAATATTTGACAACACTGGGTACTGTATGATCTGGATGAGGAAATTTTCTTTACAATCTGTCTTAG AATTCGGGCTAAGCCTAACGCAATCCCAAAAGCTAGCTCAAATGTGAGGATCGCTAAAGCCTTTCTAAGGACTATTTTGG TTATATCTTTAGTTGATGTAGGATCTTTATACACCCCGTTCACGCCTAGAATTAGGTATCTGGAGCACGGAATTTGTAGA GTTCACAACTACAATGAAGGCACCTAGGGTGGCTGCAATGAAGTCTGAATTTTGGGGCCAATTTCAGATTTAGGAATTGC TTTGATTCAATCTTTAGAAGGTAGATGGAAAACTGAAATGTTATTTCTGAACAAATTTTCACTTGATGGGCAAATAATTT TCATAATATATACAAATCCCTAGTTACTTTCCTTAATCATAATTATATTACAACTGTACAAATTGGTCCTGAAAAAACTA ATTAGAAAATATAGCTGTACAATAATAATGATTCCTAACAATATGCATTTCTACCAGATCATGGTTGAGGTTTTGTGGTC TAAAACCTTGATGATGCTAATCTTGTCTAAGGTGTCATCATTATTGTTTATCAAATGTGTTTGAACGTGGAATTTTTATC ACATATAATAGATAATTTATTTACTATTAATTTAGATGCAAGGCTCTGTTTTCATGACATGTTATGTTAACTCTACTTTT ACATGATTTGAGTGTAATTCCTCTTAGTTTGTACATTGTATTTGAATTTCTTTATGAATGTTTTTGAAGGAACCTATATT TGGTTATTCCTTTTCAAAGCAATTCGAGCTACTGTCATTCATATTTTGTCATTTCAAGTTTGTAACTGCACTTCTAATAT TGAAGTTCTTAACATTAAATACTGTTAGATCAAATAGAGTGATGGCCTAATTAAGTTCCTCAGTACCTATTCCTCACATA TGGTAAGTTGGTGACAATAACATGTATGTACATGTCTTCATGCAATTACTTGGATAATTCACAACCTTTATTTGCATAAT GTGGTATATATGGGACATTATGCACTTGGAAGTCACACACTGAGTGGACCCATTCTGAAAGACCTGAGTGAAATTGCCCT TTTTTAGGGGGAGGGATTAAGTTTTGTATTTTGGCTTAGTGAATTCTTCTTATTTCTTACCTTGCTTTTTCCTTTGTGTC AATAGCAATGTTGCGGCAGGAAAGTTATTCGGGATACCCATTCGTGGTACTCATTCCCATGCCTTCGTTAGCTCATATAT GGTGTGTAACCAATCCACTGACTACATATTTGGTTAATGTTTATGAGGTGAATTTCCAATAAGTAAACATGTCATTTGTA ATACATACTTGAAAGAACAGAATCTCTGTTTAAATCTATCCATTCAAATTGTCTAGAGGCACCAACATGATTTTAATGTT TCTAATAACTATGTATGACAAGGACAGTTAGAAATTTGTCTTGGAATGAAAAGTTAAATGATAGGGGATGAGACACTGCA GTGAAGTTCAGTGAGAATATCGGTATAAATGTTATATAAATAGGGGAAGTCATAAAATTTAGAAGCAGTGTTAAACCACT TTGGAGATTATTGAAGTTTAGGCCTAGGAAAGATCAAATGTAATATATACTCTGCAGAGTGACACTGTAACAGTGAATTC AGAAGGACCTGATGAAATTTTTGTCCCTATATGCAGCCAGCCTCTATAAATCCAAATATAGTAGTGTTAGACTTAGACCT AATGAAACTATGAAATAATGAGGTAGATCTGCTATTTTATAACAATGGAGTTTCAGCAAAAGCTAAGTTGTAATTTCTTG GTGCCTTTTATATGTAAATTTTGTTGTTAGAATTGTAGTACTTTATATGATTTGAGGCACTTTATGTTAAATTTCATTTG CTTACTTTTTGTCTACTTGTCTGTATCGTGATGTGCAGAGCCTTGATGAGATCATAGATAAGTCACTTCGAAGAAAGGAT GGATCAAGCACATGCGAAGATTTTGTTAGTATGGTTCAAACATGGCTGAGCAAAATTCAGGTATCGCGACATAAGCATAT ACATCCTTTTTCTTTTTTTGGTTCTTATCTATTCCTGTTTTTCGGCTTTTGCTTGTTTGTATCTGTGGGGGAGGATGGGG GATTTGATGAGGTGTCATCCTTATGCAAACCAATTTGGAAGGTGTTTTTTTGCAGAGACACTAAACTAGTTTTTTCTTCT TAGGTATTTCCTGAACTGGAATTTTTATATTAAAAACTAAAGCTCATTGATATGAAATGTTTATACATGTGCTTTGTGCA AATTTCAATATTTGTATTATTGAGCATTTGCGAGATCTTGAATACCACCACATATACCAGTGATGTTCGAATGAGTTGTT TTAAGTAACTATTGTGATTTGCATTGCCATGTCCAAAGGGCTGGAAGCCTTAGTTTTGTTCATTTATAATTTAAATAGAA GAAAACTTAGTATAGAGAAAGGAAATATGGAAAGAAAGCCTCAAGCAGGTGGTATCTTGCATTGTAATTATTTTAGAAAG ATTAGATTAAATTCAAGGCAAAACTTCTTCCATATTATTAAATTTGGGTTCACAAAGTATTCTTCTCAATCCTTCTGCTA CCAGTTGAGGTTGATTCTTTCATCACTACACAAATGTGTTCAGTCACATGCTCACCAAGCAAACAATTATGTGAGCGTAT TATGCAATGCCCTGGCAGGCTAAGAAAACATAATTAGTAGCTGAGTTGTAACTTTGAGATTTTTAATAAAAACCATACAC GCCCCTTTTTAAGAGCTCAAGCTTCAAGTCTATTTGGTTTTTGATGTGGTATGAGAGTCTCATCCTCCAAGTGATGAAAA GTTCAATACTTGCTCACTCATTCTTCTAATTAAAATTTCAGGGCTTTCCCATTAGTCGGTGTGTATGTTAACATAAAGCA TCCCAGAATCTTGGGCCTAATCCTAACAAGTTTAGTTTTTGGGGTACTTGTCTTTATCAGTAACACTTGATATGATTCTT GAGATTGGCATATGAATTAATTAGCTTTTTAATCCTTCGCTTGCATTCTACACAAGAATGAATGTTTTTTTTTTTTCCAA TGAAGTTGAAATATAACCATATGCCTGGAGATCCAGGAATAAGCTATGCAGTATAATACTAGATTTAATTAACATAAGTA AAATACCTAACTTAATATTATAGCAGAGGTATTTTAGATCATGGCTATCTCATTTGTGATCCTTTCCTTACCTTCTGAAA AAATATTTGAATGATCATTTCACGTCAATGATGTAAAGAATCTGATTACCATCATTGTATCATATGTTTATCTTTTGCAC TCTTACAAAATTGAAGATTTGTCAGTGAATATTCTAATGCGTGTTCCCACTCTGCAGTTGCTAAATGGTGTTTTTGGTGA GACCAATCAAAGTGAGTTGGCAGCATTCACATCATATGCATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACAT ATGATGTAAGTATTTTGGTAGACTTTTTATTTCTTAAACTGCCATAATTCTTGTTAAATCCTAACATCATTTTAACCTGT AATGCAAATTATTAGGGGTTAATATTGTTTTTCCCTCCTATATGACTTTTGGTATCCTGCCCTCTCCCCCCCCCCCCACC CAATATATATATAATACACACACACATACATGATCGCAACTGCAACCATTAACAATGTACATGCAAACTGCAACTCTGAG TGGTGATAATCAGTTATTCTGGGATCTTGAATTAATTTAGGCTTTGGGACATAAAATATAAGGGAATTGCATAACTGCGA AGATGAGTAAATGGTCGTGATTGTGTGCTTACTACAAATATGTGTGTAGGTATTGGTAGGTACTATTTTGATATTTTCCA TTGTCCTAAAGAAGTGCATAACATTAAGTTTCAACTTACTCAAAAGACATATGAAGAAGCACATGTATCATTTACTGTCT ACTCAGTAGGAAAAATTTACGCATGATTCACCTCACGTCTCATGATTTAGATCAGTTATATGCCTGACCGGTGAGAGGAT GGGTGGGTAATTTTGTGGTAAACCCATACCATTCACAGGTCAGTGCCTTCAATTTCAAAACAAAATTTAACTTTACTGAA TGGGTAGTTCTTGTACTACAGAGATACAAAGCTGCAGATGCTGAAAAACGGATCTATTAGCATGATAAACCATATTAGTG CTGTGCTGCCTATTGCAGTCTTGAATATTGTAATTTGTATCACCCATTGCTCTCCAACTTCTTTGTGCTAATCGTTTATC TTATATCCTGACCTGAAGTTAAAAACATGTTGCAATTACACAAGTTTTATTTCCAGCTACTAGGTCATCTGTCAAGCGGT TATTGTTTGTGGATAATTTGTTTGATAATCAGTACTAAGTTAACTTTTTAGGGTTCCAGTGTTATCAAATATCCGCCATG GCAGTTTCTCATGGCGGTTTTTTGGCTTTCCGCCATGGCCGATATCCCGCCAGATTTCACCATATCCCGCCATATTCCGC CATTATTTGTCCTGTATGGCGGGATTTTGGCTTCCTGCCATCCGCAATTAACAACACTGTAGGGTTCATATTAGAAGGGC TAGGCCGAACTCCACCCTAAAATCTAGCTTAGCGGGGAGGATTGCATTCCCATTTATAAGGACTTCTTTAGCCATATCTA TAGTCAATGTGAGTCCTTAACACTCCTTCAGACCTAAGACTATCATGTGGAGTGTTCAAATTTATCGAAATTCCCTTATC CTCATTACAGGATATCTACAGGGCTAGATTAACTTCATTTTTTCCTGAAATAGCCCGCAGGTCAGATTGACTTCATAATG TTTTTTGGAACAACACGGGTCAGGTCAGTTTTTGAACTTCACATTTCAATGGGTGGCCCAACAAGGGATCTAGGACATCT TAATTGATAATTGATTAATATAATGTGATTTTGAAGTACAATATTTATATATAAGGTTTCCCAGTCCTAGTCCAACTACA TAGGAAAACAAGTTAACAAACTATAAGATATCAAGGAATAATATCAGAATAAAATCTAATTATAACAAACTACATCCTAG TCCAATTATCTCAACAATTTATATCCTTACAATTAACTCAACAGTTCATTCCGTATTTTCCACATTTGATTTATCTATTT CTCTAGATGATTACATTTGCATTTATTGACAGGTGATGAGAAGTGGAATCCCTAATTTCTGTGCAGTTGCATTAGCTCTC AATGATTTAGGGTATGTCAGGAAACATTTCTGTTATTATCACTTGATTAGAGGTTTTACATGACTATGATTTTTTATTCT TTTATGTAATAATGTTCATTTTCTAGTTGATTTTTTGGTCTATGGATACAATGTTTTGTTCTGTTTCTTTTTGTGCAAAT GAAACAATGAATGAGAAATGATATGCTGTGGGAGTATTGGCAGAGATGCTGTACAAGGAATTAATGGCAATAGAAACTGA TAGTAGCAGTCTGGAATCTGGATGCAGTAGCATCCTCCATACTGTTGATTAGGATCTACTTGATGCTGTATCTGTTAGGA CAGAAGATGCTGGGAAATAGTTAAGGATAGATACTAGATAGAGAAGTTATTTAGAGAGAATTAATGGTTGAGGGATTCAT TCAAAGAATTTAGGAAGCTGTGTGAAAGGGGAACCTTTTAGTGCAAGGGAAACTCTTGGAGGAGAATTCTTTCTCTTATT CTAGAACATTCAATTACTCGCTATTCAGACATGGGTGTATAAGGGGTGAAAAAAGCTGTGGATCAGATATCATCAAAATC CAGCTCCCCTGACACTTTCCTGCCAAGAAACAGAGGAGCTCAGTAGCTTCCTTGTGATGAGTGTGTCAGAAGACAGGAAG AAGAGAGATGTTTTCATTTTTCAATGTGGCCAACCTCTTTGCCCCAACTTCCCAGAAAATGTATGACGTTTATGATCTTG GTAGAATATGAACAAGTCGGCGAGAACGGGAACATTGCCCTAATTCAACAAGAATTATCGTGCAATGGGAATCCCTCAAG TTGGAATTTCCCTCGGGTGTGGGGGGGGGGAGGTTGATATTGTTAGGCTGGAAAGTTGGAACAGAAGATAAGGATAAAAT TGTTATGGTCTGTTAGGGCAATTAGTCAATTAGTTAGTTGGGAGTATTAACTAGATGAATAGTTGGAATCAGGGTGGAGT CATTCAGAAATTTAGAAGGTTGTGTAATAGGGAAACGTTTTGGTGAAGGGGAAACACGTCTGGAGGACAATTCTTTCTTC TATTCTCAATCATTCTAAGATTGTTCTTTAACTTCATTTCTATGTATTTCTCATTTCTCTTTTTCCAGGTTCCAATCACT AACAGAACTCATTAGTCATTACTCATTACATTAGGTGCAAGTTCCTTGTTTTTTAGTTAAGGGTTACTTCAAATTTTTCT TGAAAATGTTTTTTTATGGGCTTGCTTCCTTGAACTGCTTTCTCAACTATTAGCTAAAATACCCCTACCAAAAAAAAAAC TATTAGCTAAAATACTATATTTTTGCATTTTCTTAGTGTTCCGTTGTGCAGTTTGTCTGTATTTTGTTGCATACATTGTC GATATTATGAAACCTTTATCCATGTTAGATTGTGTGTTTGCTATGATGTTATTCTCAATTTAAAGATTGCAGCAGCATGT TGGTAATTTACTGTAGTGTCTCTTCGTACATGCATTACATTAAGCTGAAAAATTATAATGATTGTTGGATTCAACCAGTC TTGTAGCACCCTCCCTGCTCATCCTCAAAAGTCTAGAGAAAACATCATCCTTCTCAAAGAATCACTTATTTTCTATTAAT TGCTGACTTAGATGATGTCCTGTGCAGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTTGTCTT GTGAGGCCAGGAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTGCTAGT AATGACCTCAATGAGGAAACAATTGATGCTTTAAACAAACAGGTAGCTATTTATTGCAGACTCGAACTTGTAATTTTTTG CCTACTGATTCACAGTCAGCCTAACAATTGAGCAGTGTCTAAGATTGCCACCTTGTGTTTATGTGTGCGTGCAACCGTGC ACGCATCGTTTAATTTCCGTATGAAATAAAAGATCTTTTATTGAAACTATTAAACCTGGTTTGTTGGTTTATTATAAATT TTAATTTTTGAGTTTCTCATATATTCATTTACATCTATGCTAATATATTTATATCAAAACTTATCTTCTGTGTTTGATGA TCTCTCCTTCCTGGTATATAAAATATGGATCTCAAAATTTAGTATACTGTGTTTAGTTATTGGAATACTTCTCATCCTCT AAAGGAAATAAAATAAAGATAACTAATAGACAAACGTGTAGTTGGCAGAGAAAATTAGAGATTGGAACTTTACATTTTAT TAAATTGACACGGTTAGCATGCATGTCAAGATACTAGTGTGCATGAAATTCTGGAATAGAAAACTAACAGGATGTTTATA TTGGTTCACATATTTGTTTACCACTAAAATCTATGATATGTTTGGGGTGTATTGCCTCCCATATTGCAGTTTGGTGGGGT ATACATACATGATACATCACATTACTCCTCCTGCTTGAGGGGTAGTGGGTAACTGATCTTCTGTATGCATGTAACATGGT GTCTTACCTTGTCATAACATTAATCATTACATTTAAGTATTGGTGCTTAAAATGGAAAAGATAACACGACATGATTTTAC TGGATGATGTCACAAAACTCAGGTTAGTTTAAATAACCCCTAGTTCTTTAACCATAGGACCTGGCAGAGTGTAGCGAAGT TGGTCTTTTGTCCAAAAATAAATTATTAAAACGTCTAGAACTGTTTCCCGAGAGCTAGTTTACATGAAAGGTGACAAAGA CAAATCCTACTATGGTACTGCTAACTTATTGGACAGAAAAATTTAAATATTTTTCTTAGCATTATTTTCTAATTGTCTTA GAACATGTTCATGTCATGTTGGAATTTCTTATACACAAACGGTTAATTTTTTAGTGCCAAGGCTTACAATTGTTATACCC TTTTCATTGGATTGCGTTTTCTCTGTAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACATACCTGGTCACATGTTATG CTCAAGCTGCCTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAAACTTTCTGAAGATGTGTCA AAGGTTTAAACATTCTAAACTAGACATGATATTACAATCATCTTTGTGGTATTTAATTATCTATGTTTGTTTCTTTCTCT GTATTAGGTCTCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCCTGGTAGACATAATGA CTGGAGGAAATGAACCCTCTCCAAAGGTATTATTTTCACATTATTCTCTCATCTTCTTGCTTTTACTATGTCATGTTTCA AGCCTATTGGCTACGTCTTGCTTCCAAATGAGTTGGTTTTCTGTAGTTAACAAATCCTGCCAGAAAAATGAATTTACCAT ATTTTATTTATAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGAGAGCATATGTGGTGCCACAGC GTGTTGAGGAGCTTCTAAAATGTTACTGGCCTGGGAGTTCAGGTGAGAACTAGCAACAAAGTTTAATAGCAATCATGTAT ATCAATAGTAACCATCATTTGTTTGATTAGGCTTTGTTTGGGAGTTTTTAGGGGAGGGGAGGCATAGGCTTAGGGAAGGG AGAGTAAGTCCTCCCCTTCTTTGGAAATTTAAATTCAACAAAACCACCCAATTTGGGAGAACTCAACAAAATAACTGAAG GAGGGTCTTGAAGGGCTTACAAAAATTCCTCAAACCCTTCCCTCTCTTTTAAAAAACTCACAAGGGGAGGGCTTCTCATT TCGCTTCTCTTCCTTCCAAAATCCAACTCACAAACAACTTTAGGGAAGTGGAAACTGCTGCATCGATTTTAAGAACATCC CATGATTCATTGTCAACCAACCGTTAATATTTTTTGTAGCTTAAGAACCTGTTGCCTTATCCCCCTTTAAACCAAGAAAA CAAAGATGTTATCTCACCTGTAACTGCTATGTTTACAAACTACGAGTTCCTGCATGAAATGATTATATCATATATGTCAT CAGATAGTCAAAGTTGCACTTAGGAACAATGGAGTATATAAAGGGGCTTACCAGCATTTATAAGCTATTTATACATTCAC TGAATGCAGCTTATGACCAATAGTTTTTACTATTATTTTGTAACCTGCTTTTTTTCCTTTTGGAAGATAAAAAGAGAGAA CCCTTACCAACTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGAGACT CAACCCAACTCCATATAAGGTCACAAAGTTATACCTTGCTCTTATATTACCCCATTGTTATCATCTTGAATAATTTTACT CATTTTTTTTCTTCTAATAAGCAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGC ACCAGTTGGGGAGCTGCAGTAA
CDS sequence (LotjaGi4g1v0103900.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTCACGCCTCTGCTCAATGATCTCTACCAATTCACCATGGCTTATGCGTATTGGAAAGCTGGCAAGCATCAAGAGCG TGCTGTGTTCGATTTGTATTTTCGGAAGAATCCATTTGGTGGGGAATATACTGTGTTTGCTGGTTTGGAAGAATGCATCA GGTTCATAGCTAATTTCAGACTCAACGAGGAGGAGATTGATTTTATTAGGAAGAGTTTATCTACTTCATGTGAGGACGGA TTCTTTGACTATCTGAGAGGACTTGACTGCTCTGATGTTGAGGTGTATGCTATTCCTGAGGGATCAGTTGTTTTTCCAAA GATACCCCTCTTGAGAATTGAAGGTCCAGTTGCTGCTGTTCAATTACTGGAAACTCCTTTTGTGAATCTGATAAATTATG CATCATTAGTTGCCACCAATGCGGCAAGGCATCGAAATGTTGCTGGAAAATCCAAAACTTTACTTGAGTTTGGACTACGA AGGGCTCAGGGGCCTGATGGCGGAGTAGGAGCATCAAAGTACTGCTATATTGGTGGATTTGACGCAACAAGCAATGTTGC GGCAGGAAAGTTATTCGGGATACCCATTCGTGGTACTCATTCCCATGCCTTCGTTAGCTCATATATGAGCCTTGATGAGA TCATAGATAAGTCACTTCGAAGAAAGGATGGATCAAGCACATGCGAAGATTTTGTTAGTATGGTTCAAACATGGCTGAGC AAAATTCAGTTGAGGTTGTTGCTAAATGGTGTTTTTGGTGAGACCAATCAAAGTGAGTTGGCAGCATTCACATCATATGC ATTGGCATTTCCTAATGGCTTTCTTGCCCTTGTAGATACATATGATGTGATGAGAAGTGGAATCCCTAATTTCTGTGCAG TTGCATTAGCTCTCAATGATTTAGGATATAAAGCAGTTGGCATTAGATTGGATTCTGGTGACCTTGCATATTTGTCTTGT GAGGCCAGGAAATTTTTTTGCTCGATTGAGAAGGAATTTGGAATGCCTGGATTTGGGAGGTTGGTAATCACTGCTAGTAA TGACCTCAATGAGGAAACAATTGATGCTTTAAACAAACAGGGTCATGAAGTTGATGCCTTTGGTATTGGTACATACCTGG TCACATGTTATGCTCAAGCTGCCTTAGGTGTTGTTTTCAAGCTGGTTGAAATCAATAATCAGCCTCGTATTAAACTTTCT GAAGATGTGTCAAAGGTCTCTATTCCATGTAAGAAGCGAAGTTATAGGTTGTATGGGAAAGAAGGTTATCCCCTGGTAGA CATAATGACTGGAGGAAATGAACCCTCTCCAAAGGTGGGAGAAAGAATCCTGTGCCGTCATCCCTTTCAAGAATCCAAGA GAGCATATGTGGTGCCACAGCGTGTTGAGGAGCTTCTAAAATGTTACTGGCCTGGGAGTTCAGATAAAAAGAGAGAACCC TTACCAACTCTAAACGAGATTAGAGAGCGGTGCATCAACCAAATTGAGCAAATGAGACCTGACCACTTGAGGAGACTCAA CCCAACTCCATATAAGGTTAGTGTAAGTGCAAAATTATATGAATTCATTCATTTCTTGTGGCTCAATGAGGCACCAGTTG GGGAGCTGCAGTAA
Protein sequence (LotjaGi4g1v0103900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVTPLLNDLYQFTMAYAYWKAGKHQERAVFDLYFRKNPFGGEYTVFAGLEECIRFIANFRLNEEEIDFIRKSLSTSCEDG FFDYLRGLDCSDVEVYAIPEGSVVFPKIPLLRIEGPVAAVQLLETPFVNLINYASLVATNAARHRNVAGKSKTLLEFGLR RAQGPDGGVGASKYCYIGGFDATSNVAAGKLFGIPIRGTHSHAFVSSYMSLDEIIDKSLRRKDGSSTCEDFVSMVQTWLS KIQLRLLLNGVFGETNQSELAAFTSYALAFPNGFLALVDTYDVMRSGIPNFCAVALALNDLGYKAVGIRLDSGDLAYLSC EARKFFCSIEKEFGMPGFGRLVITASNDLNEETIDALNKQGHEVDAFGIGTYLVTCYAQAALGVVFKLVEINNQPRIKLS EDVSKVSIPCKKRSYRLYGKEGYPLVDIMTGGNEPSPKVGERILCRHPFQESKRAYVVPQRVEELLKCYWPGSSDKKREP LPTLNEIRERCINQIEQMRPDHLRRLNPTPYKVSVSAKLYEFIHFLWLNEAPVGELQ
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 | 1 | 537 | 537 | 0.0 | ||
| PIRSF | 1 | 533 | 533 | 1.1E-166 | ||
| Gene3D | 1 | 152 | 152 | 6.1E-64 | – | |
| PANTHER | 1 | 537 | 537 | 0.0 | – | |
| SUPERFAMILY | 3 | 136 | 134 | 3.66E-42 | – | |
| TIGRFAM | 4 | 518 | 515 | 9.1E-151 | ||
| CDD | 4 | 389 | 386 | 0.0 | – | |
| Pfam | 5 | 132 | 128 | 6.8E-39 | ||
| SUPERFAMILY | 137 | 533 | 397 | 1.39E-104 | ||
| Gene3D | 153 | 243 | 91 | 7.8E-23 | ||
| Gene3D | 254 | 374 | 121 | 3.0E-73 | ||
| Gene3D | 375 | 521 | 147 | 3.0E-73 | – | |
| Pfam | 411 | 522 | 112 | 8.5E-35 |
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 |
|---|---|---|---|---|
| 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. | ||
| 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. | ||
| Molecular function | Nicotinate phosphoribosyltransferase activity | Catalysis of the reaction: diphosphate + nicotinate D-ribonucleotide = 5-phospho-alpha-D-ribose 1-diphosphate + H(+) + nicotinate. | ||
| 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. |
Expression pattern of LotjaGi4g1v0103900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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