Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0040900
Transcript ID	LotjaGi4g1v0040900.3
Related isoforms 3	LotjaGi4g1v0040900.1 LotjaGi4g1v0040900.2 LotjaGi4g1v0040900.4
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\|G7JU35\|G7JU35_MEDTR Methylmalonate-semialdehyde dehydrogenase; Found in the gene: LotjaGi4g1v0040900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:4818587..4828091) extracted from Lotus japonicus Gifu genome v1.2.

ATGTTGAAGCTCCAGGAGCTCATTCGCAGAGATATGGTACGCATTTTAGAACACTTTGTTATATAATTTCACAAATGTAG AGACACCGTACAAGCATGCTTACTATCAAATGTTTATTGTTTTAGGACAAACTTGCCCTCAATATCACCACCGAACAAGG AAAGACTTTGAAGGATGCCCAAGGAGATGTATTTCGTGGCTTAGGTTAGTCTTTGTAATATGTTGCTTGAGAATATTTTG TTGTAAAATGATAATTAAGCTCGTAATTTTTGGTAGTTCAATCTCTGAGTAGTATAATTTGTCATTTAGAGGTGGTGGAA CATGCTTGTGGGATGGGAACTCTCCAAATGGGGGAGTATGTTTCCAATGTATCACATGGCATTGATACATACAGCATTAG AGAACCACTTGGTGTTTGTGCTGGTATTTGTCCTTTCAACTTTCCTGCAATGATTCCGTTGTGGGTAAGCAGTCTTCTAT CTTGTGTTGGTTTTTGGCTATTTAATTGATATTTCACTTATTAGTTATTGGGTTCACCTTTATTTCTTATCAGCATGCAT GGACTAGAAACAGTTTGTAGAATAACCCAGAAGCATTTAGTTAGAGCGAATTTACATATTATCGTTATTTCTCAAGGAAT GTAATGTGCTTATCGGACTTGATAACAAATTCTGAATGTCAATTCATCTGCAGATGTTCCCTATTGCAGTTACGTGTGGT AATACATTTGTTCTAAAACCATCAGAGAAAGACCCAGGTGATGTTTTCTGCTAATTTAGGTTTTCTATCAATAGCCATGA ATTATATCCTCATTCTGGAGAATAGTGTAAATGTGTAATATTATAATGGAAAATGGACTCTAATATTGTTTCATTTTAAG CAAGTTTTAAGCATTTCAAACATATTACCCTGAACTGCACGGTGTACATCATGAGTTGGAAACATTCTGAATAAAATGAC TGCCTCTAATATAACCTTTTTCTTCAGAAAGGGTAAGGTATTTTTCATTCACTAACGTATTCATCCATATTGTTATTTAG AGGCTCGGAGAGGATATGGACATTATGATGTCATTTGATCTATGTAGCAAATTCCATCTGGTGTAAAAACTAAAAAGGCT TTTCTTGTTGTCGTTGTTCATCTTCATGGAATTAGTTTTCTATCGCATTGATAGTTATTGGTGTAGTGTATGCAGCATAT AAGCATATTCCTATGACATTGACAAGTTTGCATTCATCTGACCGCTTTTATGATTCATCATTTTTGGCTACTTATAAAAT GGTGGAGAGAAATAAACTTCAATATAGTTGTCAACAGACTGTGAAATAGAGCATTTAATGCTCTTAATTAGCAGTTATAT TTTTGTTTGTATATAATTATGTTGTTTCCTGTTTGTACTTAGTTTATTTTAGGTAGTTTCTTATTTTCATTCATTCTCCC TAATTCTCTCTTTAGTCAAGGATTTCCTTCTTTGACTTTGATCAATCACATTATGTAATTCCCTCTATAAGAAGAGGAAT CCCTGTACAGTTTTTCATATCAATAATATTACCAAATATTTCAACTTGGCATCAGAGCAAAGATCTCTGCGCATCTGATT TGCATCCATGGCTGACAGTTCCTCAGCCAGCGATGATCAGAATACGGAGGAGATTGTGGTTCCCAAAGTCTCGCAGCCTC CAAGGCAGGAGCAGCGAGTCCTGTTCGGCGAATCTCATTCTGTGCCTCCAAGGCAGGAGCAGCGAGTCCTGTTCGGTGAA TCTCATTCTGTCCAAATCACCACTTTTCGACTCAATGGGTCGAACTATTTCCGGTGGTCCCAATCTGTCCAGTTGTATAT TCGTGGCAGAGGAAAACTTGGGTATCTCACTGGTGAGAAACCCATGCCAGATATTGCTGATCCACAATATGCTGTTTGGG ACGCTGAAAACTCCATGGTGATGACATGGCTGGTAAACTCCATGGAGGAGGACATTAGCAGCAATTACATGTGTTATTCC ACAGCCAAAGAGCTATGGGATAGTGTCACGGAAATGTATTCAGATCTTGAGAACAAATCTCAGATCTATGAACTCACCTT GAAAGTCAGAGAAATTCGGCAGGGAGGTAATAACGTGACAAAATACTTCCACTCTTTGAAGCGAGTTTGGCATGATCTAG ATCTCTTCAACACTTACAAGTGGAACTCTGCAGAGGATGCCAAACACCATCGACAAACCGTGGAAGAAGGTAGAATATTT CAGTTTCTTGCTGGTCTGAATGAAGAGCTAGATGAAGTTCGTGGCAGAATCATTGGGAGAGCAACCTTACCTTCATTGGG TGAGGTCTTTGCTGAAGTTAGAAGAGAGGAAACTCGCAGAAGTGTGATGATGGGAAAGACCAAAACGGATGCACCTCCTT CTGAGACCAATGCTCTTGCTGTAGAAACTGTTGCCCTTAAGACTTCTACTAACCAGAAGAACTTCTCAAACCGCTGGTGT GATCACTGCAACAGACCCGGTCATACTCGGGAAAGTTGCTGGAAAATTATTGGGAGGCCAGCACATCTAAAGGGTGGCAA GTCAGGTCCTAAAAATCAAAAATCTTTCCCTACAGCTCATGAGGCAGAAAAGACTTCCTTGAAAAAGGAACAAGTTGAGG AACTCATAAGGTTGTTAAATTCTAATTTTTTATCTGGTACTCCTAGTGGTTCTGTGGCACAAACAGGTAATTTTTCTACC CCTAGCTCCCTTAATTGCACCTCAAATATTCATGCACCATGGATCATTGATTCAGGTGCTTCAGATCATATGACTAGCCT TTCTCCTTTATTTAAAACCTATTCTCCTTGTTCTGGAAATGGAAAAATTAGAATTGCAGATGGTTCTTTTTCCGCAATTG CAGGGAAGGGGAAGATTACCTTATCCAATAACATTGACTTAGGAAAAGTTTTACATGTGCCCAAACTATCTTGCAACCTT CTTTCTATTAGCAAAATCTGCAAAGATTCCAATTGCAGTGTGACATTCTTTGACACTCATTGTGTTTTTCAGGACCGGAT TTCGGGGAAGATGATTGGCAGTGCTAAGATGAAGGATGGACTTTACTACTTTGAGGATACTTTCAGAAATAAAGCAGCTC AGGGTCTTTGTGGTATGAGTTGCACCTCTGTTAGGGACCAAATAATGCTCTGGCATAACAGACTAGGGCACCCGAATTTT CAATATCTTAGGCATTTGTTTCCAGATTTATTCAAAAATGTTAATTGTTCTTCTCTTGAATGTGAAAGTTGTGTTCTTGC AAAAAATCAAAGAGCTCCTTATTATTCTCAACCTTATCATGCATCTAGACCTTTTTACTTAATCCATAGTGATGTTTGGG GGCCTTCAAAAATTACAACTCAATTTGGAAAAAGGTGGTTTGTAACCTTCATAGATGATCACACCCGGTTGTGTTGGGTC TACCTTATGCATGAAAAATCTGAAGTTCCTAATATATTTAAAAGTTTTTCACAAATGGTAGAAACTCAATTTGATACAAA GATCTCCATTTTGAGGAGTGATAATGGAACTGAGTACTTCAATCAAAATCTCAATGAGTTTCTGAAAAATAAAGGCATTC AGCATCAATCGACATGTCCAAATACTCCTCAACAAAATGGCACCGCTGAAAGAAAAAATAAACATCTCCTTGAAGTAGCT CGTGCCATTATGTTTGAGAGTAATGTTCCAAAGTATTTGTGGGGAGATGCTGTCCTAACAGCAGCCTATCTTATAAATAG AATGCCCACTCGTGTGTTGAATTATCGCACACCTTTGGAAAATTTCAAAACCATTTTTCCAGCATGTCGATTACATACTG ATATGCCTTTAAAGGTGTTTGGTTGTACAGTTTTTATGCATAAACCTTCCACATCTCGGTCCAAACTAGACCCAAGGGCA GAAAAATGCATTTTTGTTGGTTATTCTCCAAACCAAAAAGGATATAGAGTCTTTAATCCTATCACAAAGAAGCTTTGTGT TAGCATGGATGTTACCTTTCTTGAACATCAACCTTTTTTTCAAAAAAAATCCCTTCAGGGGGAGAATAATAATGTGAGTG AAGACAATTTTTTGCATGAACCGCTGCCCATTCCTATTGTAGACACAGGGAATACAAATTTTATTGATGAATGCAACAAG GAAGAACATGTGGAAACAAGTTCTGAAATTTCTAAAGAAAATCTTATGCCAGACTTAGGTGGAGCCCAAACAGAGAAAGA AATACCACAGTCAAAAAAGGAGTTCCATGTTTATACTCGGAAGTATCCTAAAAGGACCAAAGACCAATCCATCATCTCTG CACCAAGCCAACCAGAAATCCCGGAAGAAGGCCAAGTAAGAATACCACAAGAAATTCGAGGTAACACTGACATTTTCACT TCTACTATTGAATTACCCATAGCTATTAGAAAAGGAACCAGAACCTGCACCCAAAAATCAGAAAAATCTAGCACAAACCA TCCCATTTCCCAATATGTTTCCTACCAAAATCTTTCACCGAATCACAAAGCTTTTACCTCTAAAATAACAGATCTGTTTG TGCCTAGAAACATTGAGGAAGCACTAGATGATCCCAATTGGAATTTAGCAGTCTTAGAAGAGTTGAGTGCACTGAAAAAG AATGAAACTTGGGAAATAACAGACCTACCACGTGACAAAAAACAGGTGGGTTGTAAGTGGGTATTTACCATTAAGTGCAA GGCCGATGGAAGTGTAGAGAGGTACAAGGCGAGATTGGTGGCAAAAGGGTTCACTCAAACTTATGGAGTAGACTATCAAG AGACGTTTGCTCCAGTTGCTAAACTTAACTCTGTTCGGATTCTTATATCCCTTGCTGCAAGTTACAACTGGCCTTTACAT CAATTGGATGTAAAGAATGCTTTCCTGAATGGGGAGTTAGAGGAAGAAGTGTTTATGAGTCTTCCCCCCGGATTTGAAGA AGAACTTGGAAGAAATAAGGTGTGTAGACTAAAGAAGTCATTATATGGGCTGAAGCAATCTCCAAGAGCATGGTTTGAGA GGTTTGGAACAGTGGTAAAAGGGCTTGGATATATCCAAAGCCAAGCTGATCACACATTGTTCTATAAACATTCAGCAGAT AATAAGGTTGCTATCTTGATTGTATATGTTGATGATATTATTCTGACAGGTGATGATAGCTTGGAACTCAAAAATCTGAG GGAGAAACTTGCTAAAGTTTTTGAAATCAAGGAACTTGGCCCATTGAAATACTTCCTTGGAATTGAGTTTGCAAGATCAA AGGAAGGTATCTTTATGAACCAGCGAAAGTATATTCTGGATCTTTTAAAAGAAACAGGATTACTTGGATGCAAAGCTGTA GAAACACCCATGGAGCCCAACTTAAAGCTGCAACCAGCTGAAACAGAAAATATGGTGGACAAAGGAAGGTATCAGCGACT AGTGGGAAGGCTAATATACTTATCTCACACCCGTCCAGACATTGCCTTTGCTGTAAGCATGGTAAGCCAGTTTATGCATG CACCAGGTCATGAACACTTGGAGGCAGTTTTTAGAATCTTAAGATACTTGAAGGGATCACCTGGGAAGGGGCTTCTTTAT AAAAACCGTGGGCACCTTCAGGTAGAAGCCTACACTGATGCAGACTGGGCAGGGAGTGTGACAGACCGAAGATCAACATC AGGCTATTGCACCTTTGTTGGAGGAAACTTGGTTAGTTGGAGAAGTAAAAAACAAACCGTTGTAGCAAGGAGTAGTGCAG AAGCTGAATTTAGAGCAGTTGCTCATGGAATTTGTGAGGCATTATGGGTGGAAAAGCTTCTACAGGAATTGATATGAAAA ACTGTACATAATGTGATTTAGAGTGATATATCTTAACTCCATACAACCTAGTGAGGAAGACTTGGTTATTAACTGAAGTT TGTTGTTTTTCCAGGTGCTTCTGTATTGCTTGCAGAATTGGCATTGGAGGCTGGATTGCCTGAGGGTGTCTTAAATATAG TTCATGGAACTCATGTATGTCTTCAACCGTTCTTAAATTAAACCATTGTTAACATGTTTCTTGCTACTCTTACTGAGTAA GGGTGCCCGTGGGCTCATTTTACATTTGCTGATTTCATCATATTAAAGTTAAATCTAATAGTTGCATATAATATTGTATT ATACCAAGAATTTCTGATACTGATACCTAAGTGATTTTATTCATAAAACAACTTGTCCATTATGATGTGTCAAGCACTAA ATGTACTTTGTTTCCTTACTGATTGATGTTCTAATTTAACAATTGGTGATAGGATGTTGTGAATGCTATTTGTGACGATG ACGACATCAAGGCCATATCTTTTGTTGGTTCAAATGTTGTAAGTCATCTAATCATTGTTTGTTTCCTCAGTTGAGTGATT CTATGTGATTCCTATGTTGTGACCTTAAACTAGTTTTAAGCCAAGGCAAAAAGGGATACAAATGCTATGATTTTGCTAAT AGCAGGCTCCCTTTATATTGTATATGTGCTTATTATGTTCTTCTTTTGTATTAAAGGCTGGAATGCACATATATTCAAGA GCAGCAGCTAAAGGGAAACGTGTTCAGGTAGATGCATATCTTTTTCCCTCTTTCTAGTAAAACAGTTTCTTTATACACAT GCAATGATATGAAGTTGGGCAACTTATAATCTGTATTTTTGCAGTCCAATATGGGGGCCAAAAATCATGCAATTGTCATG CCAGATGCAAATGTTGATGCTACTGTTAATGCTTTAGTTGCTGCTGGTTTTGGTGCAGCAGGACAAAGATGCATGGCTCT CAGCACAGTTGTTTTTGTTGGAGGCGCAGAACAATGGTATCATGCTCTCTTCTGTTTTGAATTCGTGTTTATTATGACTT CTGTAATAGCCTTTTGGAGCAATTTTAAGCTCCTCTAGTTGGTTATTCCAAAATGATCTTGATGCATTTGGTGTGTGCTG ATTGAAATCATCACTCTTTCTTTACTGCATTTGGTGTGTGCTGATTGAAATCATCACTCTTTCTTTACTAAGACATAATT TCACTTGTGCATAGATAAAACTTTTTGTATTTATTGTATAATCACAAATTGTGAATATTATCATAATTCCAAATTGGAAA TATAGATGATGCAGGTGCATGGAGAAATCGACTTCAATTTTTTATTTTTGGTCTTCAAAAATTAATTCTGATGATATATC ACACTATATTTGCAGGGAAACTAAACTTATTGAGGGTGCCAAAGCTCTTAAAGTAAATGCTGGAACTGAACCTGATGCAG ATCTTGGCCCAGTCATCAGCAGACAGGTTTGTGAATCTGTATTTATTTTTTCGATGCTGGATTTGAACTAAAAAAATATG AATTCTTTGAAGAATTATTCAAGGATTACTGACACAGCTATTCAATTCAATTCGTTCACATCCAATGTTGTGTATATTTT ACCTATTTTTGTTTCTGTAATATTTTTACTGGCTGCACAGGCAAAGGAGCGAATTCACAGATTAATTCAATCCGGGGTTG AAAGTGGTGCCAAAGTACTGCTTGATGGAAGAAATATAGTGGTAGGTTTTATATCCTCGACTGCCCATTCCAAATGGCAT GGTTGAATACAACATATATAGGCACATAGCACCCTTTTTCTTAAGAAAGAAAGAAAGAAAAACATATAAGCGATAATTGA AGTATTTTATTGCATACAATTTGATTCTCTAGATAAATAAGCTAATGTGCTGGTCAACCAAACATATAGCAGTTACAGAA ATAGAACCTTTAATACACATCACTTTTTATTACTTGTTAAATGTCCCAAGATTGTCAAGGGAGTTAGGAACTTTTTTAAT AACCTTTTATCACTTTTTATTTTGTAGAAGTTCCTCACTCCCTTGAATAATACTCACATCATCAGGTTAAGGTACAATAA ATGAAACTCACCAAAAGGAAGATAAAAACAGAAAATGTAAGGAAATGCATTTTGGTGGGTAAATTATACAAAATAGAACA GCCCTTGGTATTTTCTTTGGCCTTTGTTTTTCCAGATAGATATTAGTTCATTTTACACCCGTTTCCAATTTCATTTGCCC AAAATTAAGGATTGCTAATCAATTTATACGTACATGAAAAGTAGGTCCCAGGATATGAATCTGGCAATTTTGTTGGCCCA ACCATCTTGTCAAATATCACTGCCAACATGGAGTGCTACAAGGTATTTTTTATACTGATCTTCAATTTTAAAGTGTCTGC TAAAAGTATTTCCTCAAAATAGAGGCTTAAAGTTTAGATTTATATTAATCTTGAGTCCTGACTATCTCTAGCGTGGCTTG TGCAGGAAGAAATTTTTGGCCCTGTTCTTCTTTTCATGGAGGTCTGTCTGCTTGCTTCATCCTTAAAATGATAGTTTCAT AAGAAATTATATAGATACAAATTCTTGGTAAAATATTTCCTGATTAGAAACAATTAACCCTGAGCTGACTATGATGTTCA AAAGAGTTGAAAATATTTTTTTCATTTTGAGGGGTCAATTATTTCTAATTGAAATTTTTTTTTTCCCATGACAGTGATAC ATTTATTTGCACTTTTCATTTGACTCCTCTACGGATATGCTGATACAGTGTTTTCTGTTTTCTTTTCAACTTCAGGCTGA TAGCTTGGAAGAGGCCATAGACATTATCAACAAGAACCAGTATTTATTATTAACAACTTGCCGTTGTCATTTCCTTTCTG TTAAACGGCTATTTATTTCCTTAACTTTCCCCACAGGTACGGAAATGGTGCTTCTATATTTACTACATCTGGTGTTGCTG CAAGGAAGTTTCAGACTGATATTGAGGCTGGGCAGGTAATGTTACATAAACTGGGACCGTCTCTTGAAAGGACATTAGTA AATAATAATGCTGATATAATTCTGTGCATGTTTATAAACTCCTACAATTGATTCTAAAGCCATAATCAATTCTGGTGGGA AGCTTCTGTGAGTAGTTTCTAGGTTTCAGAATTGATCTGAGGAAATTGAAGTTAATCTATACATGCTATTCAACCAGAAT ATGCATTATGGGGTGTGCTATTTGTCAAGCAATCACTTTTCGTTTCAACCTGGGATAGATTCTCTCTAACACAAATAGGA AATATATTTTATAATAATACTCTTATGGATAATGACTTGTCACTGCACTTGGACCAGATTGGCATCAATGTTCCAATTCC AGTTCCTTTGCCCTTTTTCTCATTCACTGGAAACAAGGCATCGTTTGCTGGCGATCTCAATTTCTATGGTAGAGTGATTT CTCCCAAAGCCTACCTCTTATTTATCACTTACATTATTTAGAAGTTACATTTTTGCTTGTGATCTAGGCTACACTGTTTG ATTTGAATTTTATATGCTTTGTTGAATTACAGGCAAAGCAGGGGTTAACTTTTATACACAGATGAAAACAATAACCCAGA AATGGAAGGATTCAGAGGGTGGTAGCAAGATTAACTTGGCCATGCCAACCTCTCAAAAGTCTTGA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0040900.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTGAAGCTCCAGGAGCTCATTCGCAGAGATATGGACAAACTTGCCCTCAATATCACCACCGAACAAGGAAAGACTTT GAAGGATGCCCAAGGAGATGTATTTCGTGGCTTAGAGGTGGTGGAACATGCTTGTGGGATGGGAACTCTCCAAATGGGGG AGTATGTTTCCAATGTATCACATGGCATTGATACATACAGCATTAGAGAACCACTTGGTGTTTGTGCTGGTATTTGTCCT TTCAACTTTCCTGCAATGATTCCGTTGTGGATGTTCCCTATTGCAGTTACGTGTGGTAATACATTTGTTCTAAAACCATC AGAGAAAGACCCAGGTGCTTCTGTATTGCTTGCAGAATTGGCATTGGAGGCTGGATTGCCTGAGGGTGTCTTAAATATAG TTCATGGAACTCATGATGTTGTGAATGCTATTTGTGACGATGACGACATCAAGGCCATATCTTTTGTTGGTTCAAATGTT GCTGGAATGCACATATATTCAAGAGCAGCAGCTAAAGGGAAACGTGTTCAGTCCAATATGGGGGCCAAAAATCATGCAAT TGTCATGCCAGATGCAAATGTTGATGCTACTGTTAATGCTTTAGTTGCTGCTGGTTTTGGTGCAGCAGGACAAAGATGCA TGGCTCTCAGCACAGTTGTTTTTGTTGGAGGCGCAGAACAATGGGAAACTAAACTTATTGAGGGTGCCAAAGCTCTTAAA GTAAATGCTGGAACTGAACCTGATGCAGATCTTGGCCCAGTCATCAGCAGACAGGCAAAGGAGCGAATTCACAGATTAAT TCAATCCGGGGTTGAAAGTGGTGCCAAAGTACTGCTTGATGGAAGAAATATAGTGGTCCCAGGATATGAATCTGGCAATT TTGTTGGCCCAACCATCTTGTCAAATATCACTGCCAACATGGAGTGCTACAAGGAAGAAATTTTTGGCCCTGTTCTTCTT TTCATGGAGGCTGATAGCTTGGAAGAGGCCATAGACATTATCAACAAGAACCAGTACGGAAATGGTGCTTCTATATTTAC TACATCTGGTGTTGCTGCAAGGAAGTTTCAGACTGATATTGAGGCTGGGCAGATTGGCATCAATGTTCCAATTCCAGTTC CTTTGCCCTTTTTCTCATTCACTGGAAACAAGGCATCGTTTGCTGGCGATCTCAATTTCTATGGCAAAGCAGGGGTTAAC TTTTATACACAGATGAAAACAATAACCCAGAAATGGAAGGATTCAGAGGGTGGTAGCAAGATTAACTTGGCCATGCCAAC CTCTCAAAAGTCTTGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0040900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLKLQELIRRDMDKLALNITTEQGKTLKDAQGDVFRGLEVVEHACGMGTLQMGEYVSNVSHGIDTYSIREPLGVCAGICP FNFPAMIPLWMFPIAVTCGNTFVLKPSEKDPGASVLLAELALEAGLPEGVLNIVHGTHDVVNAICDDDDIKAISFVGSNV AGMHIYSRAAAKGKRVQSNMGAKNHAIVMPDANVDATVNALVAAGFGAAGQRCMALSTVVFVGGAEQWETKLIEGAKALK VNAGTEPDADLGPVISRQAKERIHRLIQSGVESGAKVLLDGRNIVVPGYESGNFVGPTILSNITANMECYKEEIFGPVLL FMEADSLEEAIDIINKNQYGNGASIFTTSGVAARKFQTDIEAGQIGINVPIPVPLPFFSFTGNKASFAGDLNFYGKAGVN FYTQMKTITQKWKDSEGGSKINLAMPTSQKS

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
PANTHER	PTHR43866:SF9 View details on PTHR43866:SF9 Search for proteins/transripts with this domain View external data on PTHR43866:SF9	1	431	431	7.6E-283	–
TIGRFAM	TIGR01722 View details on TIGR01722 Search for proteins/transripts with this domain View external data on TIGR01722	1	412	412	2.1E-199	IPR010061 Show description in modal box View details on IPR010061 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR43866 View details on PTHR43866 Search for proteins/transripts with this domain View external data on PTHR43866	1	431	431	7.6E-283	IPR010061 Show description in modal box View details on IPR010061 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd07085 View details on cd07085 Search for proteins/transripts with this domain View external data on cd07085	1	412	412	0.0	IPR010061 Show description in modal box View details on IPR010061 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00171 View details on PF00171 Search for proteins/transripts with this domain View external data on PF00171	1	408	408	3.4E-122	IPR015590 Show description in modal box View details on IPR015590 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.605.10 View details on G3DSA:3.40.605.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.605.10	1	407	407	1.0E-127	IPR016162 Show description in modal box View details on IPR016162 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53720 View details on SSF53720 Search for proteins/transripts with this domain View external data on SSF53720	2	413	412	3.27E-121	IPR016161 Show description in modal box View details on IPR016161 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.309.10 View details on G3DSA:3.40.309.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.309.10	182	379	198	1.0E-127	IPR016163 Show description in modal box View details on IPR016163 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00070 View details on PS00070 Search for proteins/transripts with this domain View external data on PS00070	206	217	12	-	IPR016160 Show description in modal box View details on IPR016160 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:0004491 View details of GO:0004491 AmiGO InterPro QuickGO	Molecular function	Methylmalonate-semialdehyde dehydrogenase (acylating) activity	Catalysis of the reaction: 2-methyl-3-oxopropanoate + CoA + NAD+ = propanoyl-CoA + CO2 + NADH + H+.	Subterm of View details of GO:0016620
GO:0016491 View details of GO:0016491 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003824
GO:0016620 View details of GO:0016620 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0016903
GO:0055114 View details of GO:0055114 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0040900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0040900.3