Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
| Field | Value |
|---|---|
| Gene ID | LotjaGi6g1v0348500 |
| Transcript ID | LotjaGi6g1v0348500.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Aldehyde dehydrogenase; TAIR: AT2G14170.1 aldehyde dehydrogenase 6B2; Swiss-Prot: sp|Q0WM29|MMSA_ARATH Methylmalonate-semialdehyde dehydrogenase [acylating], mitochondrial; TrEMBL-Plants: tr|A0A1J7GWW1|A0A1J7GWW1_LUPAN Uncharacterized protein; Found in the gene: LotjaGi6g1v0348500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:66127733..66137100) extracted from Lotus japonicus Gifu genome v1.2.
AGGTTGATAAGAACCGGGTGACCAATCCAAATCCAGTGCCATCCAATCCAAAATCGTATAAATACGAAACATTTTACGAC GACAGTGAGTGAGTTTTGTGTTTGCAGAATCAGTTTCATTCATTTGGTCATTGCTGTGACTCTCTAAGCTCATTTCCACG AGGTACACTCTACTCCTCTGTTGAATGAATCATTATTGTATAACCAATCATGAATAATTAATTAATTAATTGTGTAATTT GAAATCTGACCATTTTTCATTTGATGTTGTTGTTGTTGCAGTGAAGACGTTGAACCCTTTTGAGGCCTCAGATCTTTGCT ATGGCTACACCTGCTCCCCCGGTAAGCTCAACCTTAGTTTCTAGCCTGAACAGTAAACTTGTTTTGATTGAATTCATGGG TATCTATTAACTCACTCCCTAGTTTGTAAAAACTCATGCCTTAACTGAGGGTCACTTGTGTTGTATCAGAGGGTTCCAAA TCTTATTGGGGGCAAGTTTTCTGACTCAAAATCAGCGACCTTCATCGATGTTATAAACCCTGTAAGTGTTTTTTTTGTTG GTAGCTTGCATTTGAGACTTGAGACCCTTGTTTGTGGTCTTGATTGTATGATTTGATAATTATAGGCAACGCAAAAAGTT GTTTCCCAACTTCCTTTGACTACAGATGAAGAGTTTAAAGCTGCAGTTGCTGCAGCAAAGAAGGCGTATCCATCATGGCG TAACACTCCAATCACGAGACGCCAACGAGTTATGTTGAAGTTCCAAGAGCTTATACGCAGAGATATTGTAAGCACCTTAC AATGTTTAATGTCCCTTAGATATACATCAACTTAGACAAGGCATCCATATCAGCATATATTCTAGTAATTTTTTATTTTG ATGTGATTATTACTTTGTAATTTTTTCAGGATAAACTTGCCCTGAATATTACCACTGAACAAGGGAAGACTTTAAAGGAT GCACAAGGAGATGTATTCCGTGGTTTAGGTTGGTCTTTATGTTGCCTGAAAAGAAAGTTTAGTAATATAATGATTTGAGC TCAATTTTTGATGATGGAGTTCTCTGAACATTTTAACTTATGTCATTTAGAGGTGGTGGAACATGCTTGTGGGATGGCAA CTCTACAGATGGGGGAGTATGTTTCCAATGTATCACGTGGAATTGATACTTTCAGCATTAGAGAACCACTAGGTGTTTGT GCTGGTATTTGCCCATTCAACTTTCCTGCAATGATTCCCTTGTGGGTAAGCTGTCTTATACTTTGTGGGTGGATTTTTGG CTATGTGACTAACTTTTGCTTTTTAGTCATTGGGTTCTTTGCTTGGTCATCTCATCCATATATCAGCATGCATAAGATAG GAAAGGTCCAATTATGTAAAATGGTCCAGAAATATTAGGTTAGAATAGCTTGGTATTTTTCTCTTCCCATATATTATTGT CATTTCTCAAGGGAATATAACTTACATTGTATAGGGCACAAAAATGACATCCTTTAATAAATTCTTAATGTTTATGATCT ATCTGTAGATGTTCCCGATAGCAGTAACATGTGGCAATACCTTTATTCTAAAACCATCAGAGAAAGATCCAGGTGATGTT GTCTACTTATTTTGGTTGTTTATCAATACCCTTGAATTTACTTCTCAATTTTCTGTTGAATAAAATGGAAAATATTCTCT GTCATTCAAAGCAAGCTTGTGCTTCTTTAACGTGTTATTGGCATTCTGGCATTTCGAACATATCACCATAAAATTTACTG TGAACACCAGGAGTAAGAGTTTTTTTACAATAAATAAAACACTTCTTACTTTTTCATAAGCAACTACTCAGGATTTTGCG GTCACTATGTATATATCATCTATATTACTAATCTGAATATTAATAAATTGCAGATTCTTTCGAAAGCAAAATTCCTGAAA ACGATATAATGTGCTTTACGCTGAAATTGTAAAGTTTTCCTTTCTTATTACATTTAAATATCATATGATTTTCTTGACTG CGATTTTGAGGATGGAAATTTGCAAAGAATATTTTTAGGAGCAATATAATGAGATGTTTTTAGTTAAAATAATGCTTCGC TATCCTTCAACTGGTTTGAAAGCTGTCCACACTTGCACTTTCTGCTATGTAAATTTATTTAAACTAAGGATGAGTTACTT TCCAGATTAGGTTTGCATTTTGTTAATGATACTCTGGCAACAAAAGGAAGCAAGTCAAGACCCAAGTAACATTGATGTCT TTTGACGGTGCCCATGTAAATTTGATATCTAGATAGATATCATTATTAGGAAGAATTTTTTTAGATCTTACCGTTTACAT AAGAAGTATATATTAATGTAATTAGTGTTGACTGATTAATGTGATCTTATTTATCCATCTAGTAATGAAATACTGAACAT TGTAAGCCGCCAGTTTGTTTTTCTTCCCTACCCCTATGATGGCATGCATGCTCCTTTGCTAATGAAACACTTTTCTGGCA GAACTCAGTCACTCAAAAACATACAGTCTTCTTTGTCCGCTTTCATGATTCCTCAATTTTGGTTACCTACAACTTATCGG ATGTTGTGTTTTGACTTTAGTATTTTTGCAGGTGCTTCTATAATTCTTGCAGAATTGGCCATCGAGGCTGGTTTGCCTGA GGGTGTCCTAAATATAGTTCATGGAACTCATGTATGTTATCACTTTTTTTTAAATTAAACTTTTGTTCTCCACTTGTTTC TTGTGATACTTTCAAAGTAAAGGAACTCAAGGGTTCATTTTGCATTTTCTATTTTCAAAACCTATCCAAGTTTTAAATAA GAACTTTGCACATGACAACGGGTTATATTGTCATACTCAATGCCGCTTGCTTTTTTTTTTGTTCTTTTTATTGATGTTCT TAATTATCCAATTGGTGACAGGATGTTGTTAATGCTATTTGTGATCATGAAGACATCAAAGCCATATCTTTTGTTGGTTC AAATATTGTAAGTCATCCAACATTTTATTTTTCAGTGTACTGATTCTATGTGATGCCTTGTGACACTAGATGATGGACTA AAATATTTCAACCAGAATCCAATTATATCAGCAAAATCAAATCATTTTACAATTTGATTGTATTTATATAGAGAGATGGA TGATTGCAAGTGATTAAAATGCTCTTTCTTTCAAATGGTAGTCCCACCTTACATATCCTTATTTGATGTTCTTATTTTGT ATTTAAGGCTGGAATGCACATATATGCAAGAGCAGCAGCTAAAGGGAAACGTGTTCAGGTCGGTGTACTTAGTTTTCTCC TGCCCTTGGTAAAATTGATTCTTTCTACCCATGCTAATGATCAGAAATTGCTCATCTTATCATTTTTCTTTTTATTTCAG TCTAATATGGGGGCCAAAAATCATGCGGTTGTCATGCCTGATGCGGATGTCGATGCTACCATAAATGCTTTAATTGCTGC GGGTTTTGGTGCTGCTGGACAAAGGTGCATGGCTCTCAGCACAGTTGTTTTTGTTGGAGACTCAAAACCATGGTATGATG CTCCATTATTTTGATATTGAATTTGTGTTCATTATATTTTTGATTTAGCCTCTTACGGTTGAAACAATTTATGCTCTTCT TCTAGATGCTTTTTCCAAAATGATCTGGATGTTTGTGCCAAACTGAATCATCATTTCAACATCTCTAGAGAACATTTTGT GAATATCGTAATTGTCGTGCCAAGTAGAAGGATGATTAAGAATTTCCATGATTTAATAATTCTGGTGGGATTGTCCAGAA AAGACTGTTCCAAGTATTTGGACTTGTAATGCAATTATCAGAAAATGACTAAGTTCATTTTGTCCGTATAAAACTTTTTT CCACTTGCTGATAATCTTTTGAGTATAATTTCATCCTTAATTCTTCATATTTTTTTGTCCAGGGAAAATATACTTGTGGA GCGTGCCAAAGCCCTTAAAGTGAATGCTGGAAATGAGCCTGATGCAGACTTGGGTCCAGTCATTAGCAAACAGGTATGTT TATGGTTCTTTTTCCATGCTATGGACTGGAACTAAAATCTATTAGCAATCTTCATAGTATTGTTTGTCATAGCTATTCAG TATATCACATTTCCACATAAATCTTGTTATAAGTTAGCTATATATGTTTCTTAAATATTCTTTTTGACTGCACAGGCAAA GGAGCGAATACACAGATTAATTCAATCTGGGTTTGAAAAGGGTGCCAGACTAGTGCTTGATGGAAGAAATATAGTGGTAG CTGCTATGTTCTCAACCACTTTTATCATTTCATATTTCATAATCCATACACATTTCTTGCATTTATGATCAATTTCCATT TTACCATAGAAGTTGACATAGGATTGTTTGGAAAGTGGAAACTCTCAGAAATATTTATGTACAGAAAGATTGTAAGCTGT AACTGAAGAAACATTCTTCAATTGTAATTGAACATATCTAGTGATAACATTTCTGATAAAAATCAATGAGAACAGTTAAT CTTGACCATACAACCATATATGGATGTTCAAGATTATTTTCCTTAAATATAATCTTGACTATCCATGTATTTAAAGAAAC CAGTCTTCACCATCTGAGTATGGTTATATGAAGATTAAATACACACAGACATACTATATATGGTGTGCTTGTTAACCAAT TAAGTATCCGTAAAAGAAATGGAACCTTTTCTTGCATAACTACTTCCGAAACCTTGAAAAAATTCTGTGGTTGTGGCGCT TGTTCAGTTGCTTGGTGGTTATATGAAGCCATAGTGTTTTAGCACACTGAAAATTGCTTTGACTTGACTTTTAACCCTTG AAGTTACTTGTTCATTCTTGCTCCTTGGTTCTCCCTTTCCTCGATTCCCATTAGTCTGAGATGCAACAAAATGAAGTACT CCAAAAGGAAAAGTAAAATGACACAGGCAAAGGATGTACAGTTTGGTGCATATTTGTATTCCACATGCTTAGGGTCTTTA TTTTTCCTTATAGTCAATGGCTTCTTTTAGAACTGCTTAAGAATTCTTACATGCATGTCAATTAGGTACCTGGATATGAA TCTGGCAATTTCATTGGCCCAACCATCTTAGCAGATGTCACTGCCGACATGGAGTGCTACAAGGTATTTTCTCATTTATC TCCAATCTCTCAAGTGTTCATTAACGAATTCCAGAAAATAGAAGGACTTGAAGTTTAGACTGAAATTTGACTATCTTTGT ACCGGGATGTGCAGGAGGAGATTTTTGGTCCAGTTCTTCTACTCATGGAGGTGCATTTTGTTTGTCTCATCCTTAGAATT CTCTAATTTGGAATAGTTTGTTTTTATTTGTCTCTTTTTGGTCTTTTATATAGGAGACTCATGTATCTTTGAATTTTCAT TTTGGCCCCATATGATGTATTAATGTTATGGTGACTGCTGATAGTGTTTTTCTTTTGACTTCAGTCAGATAGTTTGGAGA AGGCCATAAACATTGTCAATGAAAACAAGTATTAGTTAACAACTGCTTCATGTTCATTTTCATTTTCATTTTGTTAAACT ACCATTTATCTCTTACCCTGACTTTTCCAACAGGTATGGAAATGGTGCTAGTATATTTACTGCTTCAGGTGTGTCTGCAA GGAAATTTCAGACAGAGATTGAGGCTGGGCAGGTTGGTGACCGAAGTTGGATGTTTGGTTTCATGTTGCTCTTCCACAGA AGCATTTCTAATCTTCTCTAACATGGTTTTTCATCATCAAAACATATTTGGGTGAAATTCTTAGAAGCACTTCAGGCTGA TAAAATCATGTTGAGGCCAAAGCAAAAGGACATTTTTGAGTTAACATGAAAGTGATTTTAGCTCTTCTCACAAGACATTT TTAATGTTTTCCTATAAAAATTACTTATAGTAAACATATCCAAACATAAATCACATCACTATCAACTTATTTTACAATAA TCAATTATGTCAGAATCAATTATATCCAAAAGATATTCTGCCAGTGCACCATTTGCTCTTGGAAGCACGTTAATAGATAG TAGTTTTATAGATTTGAACCAGTATATGCATTGGTGTCTGTTACTAGTCAACTTAATACCTTGCATTTTTCCCTTGGCTA TATTCTCTCTGCCACAAAAATAGAATGTTTATTTGATATTGTAATGGATCATCACTTGTCACTTCATTTGAATTAGGTGG GCATCAATGTTCCCATTCCTGTTCCTTTGCCCTTTTTCTCATTTACTGGCAACAAGGCATCATTTGCTGGCGATCTCAAT TTCTATGGTATCTCAAGTCTAACTCAACTCTTCCTATACTATTAGGTTTTGCATATGATACAGCCTATGCATTAGATTTG AACTTGATGTTATTTCTTGCATGACAGGCAAGGCAGGGGTTAACTTTTTTACACAGATTAAAACAATAACTCAGCAGTGG AAGGAATCAGCTAGTGAGAACAAGATTAACATGGCAATGCCAACCTCTCAAAAATCTTAGTATATGTTGCCTCTCTCAAG CCTTTGCACTTCAATAAATCTTGTCAATTACATGAACTTCTTAGGAGAGAGTCATCATGTAATTTCAACTTTGACAGTTT CAAATAAATGAAAATATTTTTCGCACGGTACGCACATTATTAAATAAAGTGTTTTCAAACTTTAAAAAGTATGTTTACAG TTACTTTTTCAATAAGTAAAGGTCTGTTTAGTGCTTGGGTACCCATAAAAAAACCACCATGAAAATGGTAAATACCCACT AGATTGGTATGAGGTTCGACATATGCATTTTATCTTCCCTTGTAATAGGATGTTAGCTTCACATTTCAGAGATTTGGTAT TTTCTTATTACTATGTGTAGGGATTAGCTTAAGTGCAGCAAAACATTTACACAAAATCATAGTTTTTTATGTGTGAATCA AGTAGTTGCTACTGTGATTCTGACCCAATTTAAGTCTGAAAACTGAATTAGAGAACAATTAGTATTAAGCTTGGCAGTAT TTAAGAAGGTTGGTCCGCGGACTCTGGTCTATAAACCCAGCTCTACCTCTTAGTTTCTATGCTTTAGCTTGGAAGTATTT GAGAAAATAGTGCCTTTCTTTTATCTATATGCATTATGAATTTTATCCGATAGAAATGTAATCATTAGGAGGGGCATAAT TGCATTTGTGCTTGAGAAGAATAGTGGTTGCAAGTGAAGTGGCGGTTAGTCATTAGCAAAGCTATCCCAACTTTTCAAAA GTTAGAAATAGATAAATTCACCATCTGTAATCTATTGTTTTTTTTTTTTTGAAAGGTAATCTATTGTTTATCCAATCTAA CTTTGTCTTTGTTGAGGTGAGTCTTTTGTACTATTAATCTATACATCTTTCATAAATAAATAAATAAAGACATTACATGC TTTTCGTTTGGGAAATAGAAGTTGAAAATTAATTAATATTTGTTCATTATTTATGTGGGCTCTTTTCTGTTTGTCATTAT CAAAAATTGAAGGTAATTTTTTTTTTACCAAGTATGGTTTTGACAGTAAGATCTTAACTGCCCCATAAAGATCATCATCA GGTAGAAACAGCAGATCTTCAAAAAATCCCAATAGTGTGGCATGAAAATCATCAGGGCATGAACCTGCAGTGAATATACA GGTCATGAGATCCCTAAGAGTTTGTTGTCCGGCATTTCCATGAATCTCAATTAACTCTTGCAGGGATTGCTCTCTCCCTA TTTCAGTTAGCTTCAAAAGAAGATCATGACTAGTGGGCAGCATCTCACGAGCTTCCTGCAATTGGACTTCAGTGTATCCA TAACTGCACCGATGAAGCTATAGTTTCTTTCTCCATAAAAGGAGAAGCCATCAACCATGGATCTAAACCTATAAACATCT ATTACTGAAATCATTCTCCCATACAAAAATATAAAAAATAAATTTCACATCAATTCCTTCAATTATTCAATAATTAGACA CAAGAATCAAAGCAAATAACTCCATTAACATACTGTAAACATGAGAGAAATGATATTGAAACAAACCTTGCCTTGAAATG GGAGCCTATGTTGTCCCAAAAATTCAAGATTTTGCCCTTTGACAGTTTCTCAATGTCAATGCCTTTAATCAAATGGTCAT ACGGTCATACCCATTTGAATGAATATAAGCCCATGAAAAACTAAATCTTGCATTAACAAGGCAATGAGCATGAAGGGGTC TATCCCATTGTTTATGGCCATCTGAATTTGGAGGTAAAATTCCCTCCCCAACCTAAAAAGGAACAAGATCACCCAAATCA TAAATTCAACTAAAAATATATTTAAGTATATATATATATATATATATATATATATTGTGCATGTTTTTGTATGTGCATTT ACTTTCATTTAATCTACATAACACTTTCATTTAATCTACAGTTATCTACAAAAATTGGTATGAATAATTTTTTTCTTCTT ATAGTGCTCATCTTGAAAATACTTTTCACTATTTAACATTAATTTTATGACATTGTCTACTACTCTCTCTGTCCCTATTT AACTGTCCGTTTTGAAGAAATATTTTTGTTCCTATTTAACTGTCTACTTAGTATTTTAAGAGAGCATTAAATGGTGTTTT TACAACAAATGTCATTGTCAGTACAATAAATGAGAAGAGATAACTCATACTTTAAATGGTAAATTAAAATAGAAAAATAA TCTTCATTTTTTCTAAAAATCAATAAAATTAATCACACCATTAATATGTGCATCCACTCAAAGTGGACAGTTAAATAGGA ACGAAGGGAGTATGTTTTAAGAAAAATTCAGTCACAACTTAAAAAAATTATTTGCAAATTAACTTTAACGCATAAAGAAC ATATTATAAATAATACTCCCTCCGTTCCTAAATATAAGACCTAGTTTCAAAATTTTGAAGTTCCTAAATATAAGACCTAG TTACAATAATCTAACAAAAGGTTTTGTACTCTTTCATTTTTACCCTCCACATTAATTATATGTTTTCAATTCCAAAGTTA CCACCTACCATTAATTACTACTAATCCAACTAAATATGACTTTTGGGATATCAATGGTGAGTGCATAACAAAGGTTAAAT AAGGAAGAATGTATGTTTTTTTAAAAAATCAATACAATAACTAGTCACATTAAGTGCTTCCTTAATAAACGCAATTTTTT GGAATAGGTCTTATATTTAGAAACGAAGGAAGTATATACTACAAGTAAAAACATGGTTTGTGGTCATGATGAATCAGATT TTAGCATAGTTTACAACAGAGCTACCTCCTTTTATGTCAATTTATATATTATTAACATGCATCCTATGTTGTGCACTCAT GATAAGTTAGTTGTTAAATACAATGCAATTTTTATTTCTATCATGTTTGTAACATGTATGTGAAAAAATTGACTATTTCA AAGTCATA
CDS sequence (LotjaGi6g1v0348500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTACACCTGCTCCCCCGAGGGTTCCAAATCTTATTGGGGGCAAGTTTTCTGACTCAAAATCAGCGACCTTCATCGA TGTTATAAACCCTGCAACGCAAAAAGTTGTTTCCCAACTTCCTTTGACTACAGATGAAGAGTTTAAAGCTGCAGTTGCTG CAGCAAAGAAGGCGTATCCATCATGGCGTAACACTCCAATCACGAGACGCCAACGAGTTATGTTGAAGTTCCAAGAGCTT ATACGCAGAGATATTGATAAACTTGCCCTGAATATTACCACTGAACAAGGGAAGACTTTAAAGGATGCACAAGGAGATGT ATTCCGTGGTTTAGAGGTGGTGGAACATGCTTGTGGGATGGCAACTCTACAGATGGGGGAGTATGTTTCCAATGTATCAC GTGGAATTGATACTTTCAGCATTAGAGAACCACTAGGTGTTTGTGCTGGTATTTGCCCATTCAACTTTCCTGCAATGATT CCCTTGTGGATGTTCCCGATAGCAGTAACATGTGGCAATACCTTTATTCTAAAACCATCAGAGAAAGATCCAGGTGCTTC TATAATTCTTGCAGAATTGGCCATCGAGGCTGGTTTGCCTGAGGGTGTCCTAAATATAGTTCATGGAACTCATGATGTTG TTAATGCTATTTGTGATCATGAAGACATCAAAGCCATATCTTTTGTTGGTTCAAATATTGCTGGAATGCACATATATGCA AGAGCAGCAGCTAAAGGGAAACGTGTTCAGTCTAATATGGGGGCCAAAAATCATGCGGTTGTCATGCCTGATGCGGATGT CGATGCTACCATAAATGCTTTAATTGCTGCGGGTTTTGGTGCTGCTGGACAAAGGTGCATGGCTCTCAGCACAGTTGTTT TTGTTGGAGACTCAAAACCATGGGAAAATATACTTGTGGAGCGTGCCAAAGCCCTTAAAGTGAATGCTGGAAATGAGCCT GATGCAGACTTGGGTCCAGTCATTAGCAAACAGGCAAAGGAGCGAATACACAGATTAATTCAATCTGGGTTTGAAAAGGG TGCCAGACTAGTGCTTGATGGAAGAAATATAGTGGTACCTGGATATGAATCTGGCAATTTCATTGGCCCAACCATCTTAG CAGATGTCACTGCCGACATGGAGTGCTACAAGGAGGAGATTTTTGGTCCAGTTCTTCTACTCATGGAGTCAGATAGTTTG GAGAAGGCCATAAACATTGTCAATGAAAACAAGTATGGAAATGGTGCTAGTATATTTACTGCTTCAGGTGTGTCTGCAAG GAAATTTCAGACAGAGATTGAGGCTGGGCAGGTGGGCATCAATGTTCCCATTCCTGTTCCTTTGCCCTTTTTCTCATTTA CTGGCAACAAGGCATCATTTGCTGGCGATCTCAATTTCTATGGCAAGGCAGGGGTTAACTTTTTTACACAGATTAAAACA ATAACTCAGCAGTGGAAGGAATCAGCTAGTGAGAACAAGATTAACATGGCAATGCCAACCTCTCAAAAATCTTAG
Protein sequence (LotjaGi6g1v0348500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MATPAPPRVPNLIGGKFSDSKSATFIDVINPATQKVVSQLPLTTDEEFKAAVAAAKKAYPSWRNTPITRRQRVMLKFQEL IRRDIDKLALNITTEQGKTLKDAQGDVFRGLEVVEHACGMATLQMGEYVSNVSRGIDTFSIREPLGVCAGICPFNFPAMI PLWMFPIAVTCGNTFILKPSEKDPGASIILAELAIEAGLPEGVLNIVHGTHDVVNAICDHEDIKAISFVGSNIAGMHIYA RAAAKGKRVQSNMGAKNHAVVMPDADVDATINALIAAGFGAAGQRCMALSTVVFVGDSKPWENILVERAKALKVNAGNEP DADLGPVISKQAKERIHRLIQSGFEKGARLVLDGRNIVVPGYESGNFIGPTILADVTADMECYKEEIFGPVLLLMESDSL EKAINIVNENKYGNGASIFTASGVSARKFQTEIEAGQVGINVPIPVPLPFFSFTGNKASFAGDLNFYGKAGVNFFTQIKT ITQQWKESASENKINMAMPTSQKS
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 | 5 | 504 | 500 | 0.0 | – | |
| PANTHER | 5 | 504 | 500 | 0.0 | ||
| SUPERFAMILY | 5 | 486 | 482 | 1.44E-141 | ||
| CDD | 9 | 485 | 477 | 0.0 | ||
| TIGRFAM | 11 | 485 | 475 | 2.7E-223 | ||
| Pfam | 19 | 481 | 463 | 4.8E-141 | ||
| Gene3D | 25 | 480 | 456 | 2.8E-146 | ||
| Gene3D | 255 | 452 | 198 | 2.8E-146 | ||
| ProSitePatterns | 279 | 290 | 12 | - |
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 | Methylmalonate-semialdehyde dehydrogenase (acylating) activity | Catalysis of the reaction: 2-methyl-3-oxopropanoate + CoA + NAD+ = propanoyl-CoA + CO2 + NADH + H+. | ||
| Molecular function | Oxidoreductase activity | Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced. | ||
| Molecular function | Oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor | Catalysis of an oxidation-reduction (redox) reaction in which an aldehyde or ketone (oxo) group acts as a hydrogen or electron donor and reduces NAD or NADP. | ||
| Biological process | Oxidation-reduction process | A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. |
Expression pattern of LotjaGi6g1v0348500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…