Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0312700
Transcript ID	LotjaGi2g1v0312700.1
Lotus japonicus genome version	Gifu v1.2
Description	Pyruvate dehydrogenase E1 component subunit alpha; TAIR: AT1G59900.1 pyruvate dehydrogenase complex E1 alpha subunit; Swiss-Prot: sp\|P52902\|ODPA_PEA Pyruvate dehydrogenase E1 component subunit alpha, mitochondrial; TrEMBL-Plants: tr\|V7CHA1\|V7CHA1_PHAVU Pyruvate dehydrogenase E1 component subunit alpha; Found in the gene: LotjaGi2g1v0312700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:78759251..78768790) extracted from Lotus japonicus Gifu genome v1.2.

CAACAAGACCGTGATTGGCTACAGCAACAGAAAGAGAATCACTTTTCTGTATTCTCTCTCAAATCAATTACCCAACTCAT CGGAGTGAACCCAACACACAAACACACACTCAGATTTTTCACCCTCCCTTTTATTAAATTTTTCGCAAAAAACAAAAACA AAATAAAAATATATTCATCACTCTCTCGTGAGTGCGTTCTTCACCTAACCCTTCAAATTCAACTTTCCTCTTCCATTCTC GCTTTCTCTCAATTCATCAATTTCAATTTCATTTTCGTTTTCTCTCAATTCAGATCGACATGGCGCTATCACGTTTAGCA TCATCATCCTCTTCATCTTCCTCAACCGTCGGATCCAAATTCCTCAAACCCTTAACCGCCGCCTTCTCCCTCCGCCGCTC GATCTCCTCCGACTCCAACCCAATCACAATCGAAACCTCCGTCCCCTTCACCGCGCACAACTGCGACCCTCCCTCACGCT CCGTCGAAACCTCCACCGCAGAGCTTCATTCCTTCTTCCGCCAGATGGCCACGATGCGCCGCATGGAGATCGCGGCTGAT TCCCTCTACAAGGCCAAACTCATCCGCGGATTCTGCCACCTCTACGACGGGCAGGAGGCCGTCGCCATCGGTATGGAGGC TGGGATCACCAAGAAGGATGCCATCATTACTGCTTACCGTGACCACTGTACCTTCCTCGGCCGTGGAGGGACGCTTCTCG AGATTTTCTCCGAGCTCATGGGGCGTGTTGATGGGTGCTCCAAAGGGAAGGGTGGTTCTATGCATTTCTACAGGAAGGAG ACTAACTTCTATGGTGGTCATGGGATTGTTGGGGCTCAGGTTCCTCTTGGTTGTGGTGTGGCTTTTGCTCAGAAATACTC CAAGGATGAGGCTGTGACTTTTGCTTTGTATGGTGATGGTGCTGCCAATCAGGGACAGTTGTTTGAGGCACTTAACATTG CTGCGCTTTGGGACCTGCCCGCCATCTTGGTCTGCGAGAATAACCATTGTAAGTGCCTCTGTTGCTTGAAGTTTTATGCT TCTCTTCATCTGTGTGGGTGGGTTGGTACTCGGTTGGCTGATTTGGGTTTTGGGTTTGTGATTAGATGGTATGGGAACTG CTGAATGGAGAGCTGCTAAGAGCCCTGCTTATTACAAGCGTGGAGATTATGTTCCTGGCTTGAAGGTGAGTTTCAGAAAC TCCTGTTTTCTGTTTTAATGTGCCAAAGTGAAAGTGGCTATTATTAAATATCATTATTGTTGTTATTTTTTTTGGTTTTG GTTGAGGAATGTAAAGTAATGCAATTCAATGCCCTTTTGATTTGATGATGATTCCCTTCTACTTTTGTTGAGTATGTCTG TGATGTGGTTGATTTAAGTGGTCATTCATACCAATATGGAAATGGAAATACCTTTCAAACTTGTGAATGAAAGGGTTTAC TGACTCTATTGAATATGCTTCTCAAAGCCTAATGAGTCAGAGTATGTTTGGATCCTAGTTGAGTTAATATGTAAGCACAT TCATCCCAATCCATGAGAAGAGTTTCATTAACTTTTTTGCCTCGAAGTGAGTGGTAACATCCATTAGCACCAACACCAAC GGGTATTATGTTGATCAAAGTTATGAATTTTGTTGTGTGTTGGTTTTATAAGGCGTAGTATTATAAAGGCTTTTTACAGA GTACAGACTCTTTTGGAGAAAGCCATTTCCAGATATGGTGTTGCCAAATTTAAGTATTTAACATGATGAATCGTGATGTT TTTACCAAGATCACGCACTGTGTTTATTGCTTAATCTAGCTTGTGTTAGGTATGAGTTCTTTGGAAAATATTAGGTAAAC GCTTACTATAAAATTATATTATTTAGTCTCTCTCTCTCACATCATATTATTAAGTCGCGTTCTCTCTCTGTCTCAATCAG ATTTAAGGCCTCCTTCATGCTGTTTTTTTTTTCACATTAGCATAAGTCTTGCCACACCTCTCTACGAGTCTGAGCGAGGT TTTAGTTTACAGGGATGGACATTCTTCTTGTTATTGCATAAAATGTTGATGTTTCTGTGGACACTCCTTTTTTATCATCC TCCTTGCACTCTTCCTATTTTCATATTTTGATATTTAACTATGTAGGACTATGTTGCCTATATATGTGGGATTTATTTTT ATTGAACATTCTAGTTGCTGCTTTAGTGTGGATATGCACTTGTTTTCAATTTATTTTAATGAGTATTTATTTATATGTTG TACAGGTAGATGGCATGGATGTTCTTGCTGTGAAACAGGCTTGCAAATTTGCAAAGGAACATGCATTGAAGAATGGACCC ATTGTTAGTAACTTTTTCTTTTCTGCTATATATACTAGAAACTCTCTCTTAAAATTAATAATTAGTCAACAATTGATTTA CTAAGGCTTGACTGTTGCAATTTTATTGGTTTTTGGATTAGTTTTAGCTTTAGGGATTGGGTGCTATACTTAATTCATTA TTGTGCAAGTAATCGACAGAAGTCCTAGAGCCTGTTTGTTTACTGGGAAACTTTTTGCTTTTCAAAAGTAATTTTGTGAT GGATTGGATAGAATTAATTTTGAGAGGAGTGTGAATCTCTACTTTTCTGTTGAGAAGAATTCATTTTAGGTATGATACCC ACTAAATATATCTATATTTACACGTCTAAACTAATTTTAATTTACAATCCAATCAAAAGCCATTCTTTTAAACTTTCACA ATATCATTCTCAAACACAACAAACAAAAATCAATTGTTACAACATTAATTCTTTATCAATCAATTCTACCATAATTCATT GTTCTACCTAACTTTAAAACAAACGGACCCCGAATGCTGCAATTAACCATGAAATTTTTATTAGCCATCTGATTCAATTA CAACTAGATCTTTGAACTAAGGCACATTCATTGCATATAAGATGAGAAGTTTTGGGCTTTCTTGCTGCAATTGGTGCATA TAAGTTTGGATTGTTTTGCCTTTCTTATGAAATGCTACTTTTCGTTGACTTGGAGTGGGAGATCAGGTGAGTGCAGCTCG TCCAATCTCGCCTTGTACTTGATTGTTATAGGTGTAATTGGTTGTATTGTGGATATTAATTCAAATATTAAATCTAGCTA ATAGATAGTGATATAGTGCTATTAGATAGAGGCTAGAATAAAAGATAATAACTGATTTAGTTATTATGATAAGAAGTTAT CTTTTAGTTATCTTCTAGTAAGTTAGGTCTTTTATATAAGACATGTATTGCTTTCAGTTTTAATTAAGTCAATAATAAAT TTTCCCTCAATCTCTCTCTCTACTCTTTCACGTTATTCTCTATTTTCTCCAACAACTTGGTATCTAGAGCACGTTCCGAT TCTGGACCTGCGGGTCGTGAAGATTGAAGCTGCGTGTTTCAATCTTGTTTAAACGGAGCCAAACCCAACCTCTGATCGAA GCTGCGAGTTTCGAGGCCTGTGATAGGTTTGGTGGTTTAGGGTTGCTGTGAAACTGTGTGTTTCAAATCTGTTTGGCTCG GTTTTGTTGAAGTGCGATTCTGCGAGTCTCGTCCTTCATCAGAATTGTAATTCTGCGATTCTGAAATTGGTGGAAGCTGC GAGTTTCAGAGGTTCCTCCCCTACACGCTGTGAATCTCGATTTTGATCAAGAAACCGAAACCCTCACGATGGCAAGTAAC AATCTGCCGGGAGTAAATCTCCCAGTTCTAACTGATAAGAATTGGGATCGATGGAATTCTCAGATGAAAGTTCTATTTGG GTTTCAAGACGTTCTTGATGTTATAGAGAATGGGTTTCAACCACTGACCCAAGACATGACTGAAGAACAGAGGACTCTTC ATAACGATATGAAGAAGAAGGATTGTAAGGCGATGTTTCTCATTCATCAATGCGTGGATGATACGCATTTTGAAAAAATA GCAAATGCATCTTCAGCAAAGGAGATGTGGGACATTCTGCAGAAAGTTCATAGTGGCAGTGACAAGGTAAAGAAGGTAAA GTTGCAAACTCTTCGAAGACAGTATGAAGGTCTTCAGATGGAGGAGAATGAAAAGGTAGGTGAATACTTCACCAAGATCC TAACCACTGTCAATTTAATGAAGGGATGTGGAGAAAAGATCACTGATGTGATGGTGATAGAGAAAATCATGAGGTCCTTG GCTCCCAAATTTGACTACATCGTAGTGGCAATTGAGGAATCTAAAGATGTGGACAGCATGAAGATAAGAAGAATGCAGAC AAGGAAGCTTATGCAACAAGGGAAGATTCTGATGAAGATCCTATAATGCTAATGGTCACAACAATGAATTCAACAGGGAG TGATGAAAGTGATGAGGACAATGATTCTGCACCTTTATCACATGTCCACCAAACTGATTCTGAGGCTTTACCACATGATG ATCATGCTGATTCAGATGGTTCTGCAGACCATGTTCCAAGACCTCAAAGGCAAAGGAATAAGCCTGAAAGATATAGTGAG TATCAGACAGTCCCTGACCATGCAGTTAATGATGAAGGCGATCCGATTCACTTTGCTTTGATGGCTGACGCTGAGCCATT GCATGTGGAGGAAGCTCTTGCGAAACCAGTTTGGAAGGCTGCTATGATTGATGAGTTGAAAGCAATTGAGAAAAATCAGA CTTGGTCTCTAGTCCATTTACCTCCAAATAAGCACAAAATTGGGGTTAAATGGGTGTTCAAACAGAAGTTGAATCCTGAT GGTTCTATTGCTAGGCACAAGGCAAGGCTTGTGGCTAGAGGTTTTCTACAGAAACCTGGGCTGGATTATTCTGAGGTTTT CGCACCGGTGGCAAGGATAGAAACCATAAGACTAGTGGTTTCCATTGCTAGTGCGAGAAACTGGCCTATTTTTCAACTAG ATGTGAAATCTGCATTTTTGAATGGACCTTTGGAAGAAGAGGTTTATGTGAGTCAGCCTCCTGGATTTGAGATACAAGGA AAAGAGAACAGTGTTTTCAAGCTCAGCAAAGCCTTATATGGCTTGAAGCAGGCCCCACGAGCATGGAATAAGAGAATTGA TGGTTTCCTCCTTCAGCTCAAGTTTCATAGGTGCTCTGTGGAGTATGGTGTATATGTTAGAAAGAGTCATGGAGACACTG GTTTGCTACTCATCTGCCTATATGTAGATGATTTGTTGATAACTGGGTCAGATCCTAAAGAACTTGATGAGCTGAAGCAG ATTCTGAAGTCTGAATTTGAGATGTCAGATTTAGGAAAGCTGGGTTACTTCCTAGGCATGCAATTCGAGTATACTGCAGC AGGAATTTTCATGTACCAGCAGAAGTACATCAAAGACATACTAAAGAGGTTCAACATGGGGAATTGTCATCCAGTAACAA CTCCATCTGAAGTGAATATCAAGTTGAGGAGGGATGATGAAGGGGATGTTGATGCATCTCTGTACAAGCAACTTGTTGGT TCACTCAGATTTTTGTGCAACTCAAGGCTTGATATTTCCTATGGTGTAGGACTCATCAGCAAGTTCATGTGTGCACCTAA GAAATCACATTTGGCTGCTGCCAAAAGAATTTTGCGGTATCTGCAGGGTACTACAGATTATGGAATATTGTTTCCAAGGC AGAAGAAGCTTGGAAAGGAGCTGGAACTGGTTGGCTACACAGATTCTGACTATAGTGGCGACTTGGATGACAGGAAAAGT ACTTCTGGGTACTTGTTTCAGCTGCATGGAGCTCCAATCTCTTGGACCTCAAAGAAGCAACCTGTCATAGCTCTTTCCTC ATGTGAAGCTGAATACATAGCAGGGTCCTTTGCTGCCTGCCAGGCTGTTTGGCTTGAAGAACTGTTAAAAGAAATGGGTT TTGTGACTAAGAAGCCAATGGAGCTGATGGTTGACAACATCTCAGCGATTAGTCTTGCTAAAAATCCAATTTCTCATGGA AGAAGTAATCACATTGAAGTCAGATTTCACTTTCTGCGTGAACAGGTGAATGGAGGGAAGCTGGAGCTGGTGTACTGCCC CACTGATGAGCAGAAGGCAGATATCTTCACCAAGCCTTTGAAGACTGAAAGATTTGTGATCTTAAGGAAAGAGATAGGTG TAGTATCTCTTGGGTATTTGAATTAAGGGGGAGTATTGTGGATATTAATTCAAATATTAAATCTAGCTAATAGATAGTGA TATAGTGCTATTAGATAGAGGCTAGAATAAAAGATAATAACTGATTTAGTTATTATGATAAGAAGTTATCTTTTAGTTAT CTTCTAGTAAGTTAGGTCTTTTATATAAGACATGTATTGCTTTCAGTTTTAATTAAGTCAATAATAAATTTTCCCTCAAT CTCTCTCTCTACTCTTTCACGTTATTCTCTATTTTCTCCAACAGGTTGTAGGTAAATAAATATCACCCGATTGATTCAAA GGACCTAACGTTAAAGCTGTTGGTTTGGTTTTATGGCTGGTATCTAGATAATTTATTTTTCACATTTATGGAATTGACAA TTTGTTAGATATTTGTTTTGGTTGAAATATGTGGAGGATATTGCTTATTATTTGATAGTTTTATTCTTCGTATGCTTGTT TTTGCATATACTGGCTGTCCTTCTGTCGAATACAGTAAGTAGGAGGAGTCTATCATCCTATGTAAAGGCTGTATGACTTG GTCCACAAGCAGTGGGCTATCTTTTTTCTAATCTTATGATACAGCAGCATGAATTATATTGCTACCAAGGACTTTTGTAT TATATAAGTAGCTTCATTTTAGTATAGTAGTGCCATTGTTCATTTTAGTTTTGGTTAAACTGTCGAAGTTGAAAGTTTAA TCTGTTAGATTTTGATTTTCTATCTTATGATTATTATGTCCAGATTCTTGAAATGGACACTTACAGATACCATGGTCACT CCATGTCTGATCCTGGCAGCACTTACCGCACACGTGACGAAATTTCTGGAGTGAGACAGGTCTGTTGCACTCCCCAGCAT ATAAAATACTATCTGCTTAAAATTTTGAGAAGTTTATTTTAACTGTCTCTTTTCCTTTTGTCTAATATGACTGTAGGAGC GTGATCCACTTGAGAGAGTAAGAAAGCTGTTAGTGTCTCATGAGGTTGCTACTGAAAAGGAGCTTAAGGTGATGAAATTG GATTTCATGCTTGATAAGATTTGTGAAAATGTGATTTTCAGAATTAGTTACTTTTATCTTGATACTGTGACCTAATAGTT TAATGAATGTCAGAGTTAGAGACTCATAAGGGGTAAATATGGGTTGATAGATCTCTGTGACAATAACCACCATTGTTGAA GTCTTTTTTCACTACGTGAAGTCGTTACATGGATCAAATGACATCATAATATTTTATCAGGAATAGTGTCTATTGACAGA CCATTTAAATCCAAATCCTTCTCAATGGTTGCCCTATAATTTATCTTGGTGTTCTTTTACCAGGCATGCCTAAAAGGTCT CCGTCCCCCATAAGGTTGTAAAATTTACTTATACCCTATACTAGTAGAGTCCTAGCCCCCTGTGTAAGAACCCTTGTTCT GTCAGACATAAAAGTGCGTCCTAAAATAGTAAAATATGTTATAACATCTTTTCTGAAAGAGTGAAAGTGCTCTATGCCTC CCTGTTGCTTAACTCAACTTTTTAAAACTTTTACATGTTGAATAAAAGTGTAAAACAAGACATGTGAACTCATACTAGAA GAAAGAGAAATAGTTAATCTTGAGAGGTTTAAAATCAAGACAAGACAAGTCATTTTTGTTCCTTAATCTTCTAACCTTTC TATGGCTTAATAGGTATATGTATCTGCTTCAGCCACTTCACATGTATAACTTCTGCCATATGCAAGATGAAATGTGGCCT ATTTTGTGGATCACAAATAATGTCTTGTGATCATTTCAAGTTTTAGTTATATTCTACAAATTTTCTTCCTATGGGAGTTT TGGGATATTTTATGATTGAAGTTTGAACAGTTCCTAACTTAACATCTCAGACACACATGTTGAAACATTTGAATTTGATC AATGCTAAAGATGTTGTTTTCATTTTTTTCTTTTAGGACATGGAGAAGGAAGTGAGGAAAGAAGTTGATGAAGCTATTGC TAAAGCTAAGGTGAAAAGCATATATTTTCTGTTTCTTCTCTTAGCTCCTTCGTTATTGTATACCTTATATTCGCATCCTG TATTGACTGTATTTGGTTTATAATCTAAGAGTTCTTTGTGTTTTTTTTTTCTGGTTTCCAGGAGAGTTCAATGCCAGACC CGTCTGATCTATATAAGAATATATATGTTAAAGGTTATGGGGTTGAGGTATTGATTTCATCCCTGTTCATTACACATTGT ATGAATTTAAAGTATGGGCAAATTAAATGGGGATAGTACATTTGGTAATCTTTTGTTTTAAAATTGAGGAACTTTTAGTT TTTGATCAACCACAACAACAAACAAAGCTTTCTCCTATTAGATGACGTTGGCAAAAATATTGTCCTTTTTTACATTTGAA ATTTTTAGTTGAGTGGATAGAGAACAGTTTGATTCATTGTTTAGACACATTACAAATTAAATGAAAAAAAAGTGATGTGC ATAATGATATTATGGCATGCTACTCAACTCTTATGGTTGGTATGGTCTTCTGAATTGCAGGCATTTGGTGTTGATAGGAA AGAAGTGAGAGTTACGTTGCCGTAATTAACAACTTGGTCCTTTGGATATCTTATTACCTTGGTACCAGGCTGATCAAAAT AATGAGGAATAAAAGGTTCTATAGCAGGTTGAGCTTTCTGGTCGTATATATGAAATTTATTCAAGAATAGCAATTGGGCG TAAATTAATACTTGTTGCCATGTAATTCTGGAGGAGCTAACAGCCAGAGCATATTACTGTGATTGATGCAACTGGGTGTT CTGCAAATTTGCAGAATTCATTGTGCATAACTCCCCTGAACCTGTCTTCCTTAATTCGTGGCGAGTTTTTGCCATAAGTT TTGTTTTATTCACCAGATTGTGTTTCCATCGAAACCATTTTTTTCGGTATCAAGAACTCAAGTTGCTTTTGATAATTTTT AGAGTTTTGATGCCTTCAATTTTCAGATTGAATTATTGATACAGGTGCTTTTGTAGCCTGGATTATTTTGTTGGTTTTGT CTGCGGTTATATTATGTATTACTTGTTTGTGAAAAAAGATGAAATCACCAAGTTAATTATCATGGCTATGGGACGTGAAT TGTTTAATTGAACATTTTGTGTAAATAAGCTTATTACTTTAGGTTTAAGTGTACCAACGAAGAAATTACTCATGATAGCC CGATTCAAGGAAGAGCATTGCCCACAAGTCCACTAAGCTTACACTTAGAACTTAGAGGGATTTGTACCTACCAAACTATT GATAGCTTGGCCTAAAAAAGGGCAAGTAGAGCGGCTCCACCAAGCATATATAGTCCAGCCTAAAGGCGGGGTGGTATTGC GACTCAGTCGAGCATGCATACAAGCCAAAGAGACTGTAACCCCTAAATTACCTTAAGAAAATGATTGGACCATATGAACT AATCACAACTCCAATTTCCA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0312700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGCTATCACGTTTAGCATCATCATCCTCTTCATCTTCCTCAACCGTCGGATCCAAATTCCTCAAACCCTTAACCGC CGCCTTCTCCCTCCGCCGCTCGATCTCCTCCGACTCCAACCCAATCACAATCGAAACCTCCGTCCCCTTCACCGCGCACA ACTGCGACCCTCCCTCACGCTCCGTCGAAACCTCCACCGCAGAGCTTCATTCCTTCTTCCGCCAGATGGCCACGATGCGC CGCATGGAGATCGCGGCTGATTCCCTCTACAAGGCCAAACTCATCCGCGGATTCTGCCACCTCTACGACGGGCAGGAGGC CGTCGCCATCGGTATGGAGGCTGGGATCACCAAGAAGGATGCCATCATTACTGCTTACCGTGACCACTGTACCTTCCTCG GCCGTGGAGGGACGCTTCTCGAGATTTTCTCCGAGCTCATGGGGCGTGTTGATGGGTGCTCCAAAGGGAAGGGTGGTTCT ATGCATTTCTACAGGAAGGAGACTAACTTCTATGGTGGTCATGGGATTGTTGGGGCTCAGGTTCCTCTTGGTTGTGGTGT GGCTTTTGCTCAGAAATACTCCAAGGATGAGGCTGTGACTTTTGCTTTGTATGGTGATGGTGCTGCCAATCAGGGACAGT TGTTTGAGGCACTTAACATTGCTGCGCTTTGGGACCTGCCCGCCATCTTGGTCTGCGAGAATAACCATTATGGTATGGGA ACTGCTGAATGGAGAGCTGCTAAGAGCCCTGCTTATTACAAGCGTGGAGATTATGTTCCTGGCTTGAAGGTAGATGGCAT GGATGTTCTTGCTGTGAAACAGGCTTGCAAATTTGCAAAGGAACATGCATTGAAGAATGGACCCATTATTCTTGAAATGG ACACTTACAGATACCATGGTCACTCCATGTCTGATCCTGGCAGCACTTACCGCACACGTGACGAAATTTCTGGAGTGAGA CAGGAGCGTGATCCACTTGAGAGAGTAAGAAAGCTGTTAGTGTCTCATGAGGTTGCTACTGAAAAGGAGCTTAAGGACAT GGAGAAGGAAGTGAGGAAAGAAGTTGATGAAGCTATTGCTAAAGCTAAGGAGAGTTCAATGCCAGACCCGTCTGATCTAT ATAAGAATATATATGTTAAAGGTTATGGGGTTGAGGCATTTGGTGTTGATAGGAAAGAAGTGAGAGTTACGTTGCCGTAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0312700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MALSRLASSSSSSSSTVGSKFLKPLTAAFSLRRSISSDSNPITIETSVPFTAHNCDPPSRSVETSTAELHSFFRQMATMR RMEIAADSLYKAKLIRGFCHLYDGQEAVAIGMEAGITKKDAIITAYRDHCTFLGRGGTLLEIFSELMGRVDGCSKGKGGS MHFYRKETNFYGGHGIVGAQVPLGCGVAFAQKYSKDEAVTFALYGDGAANQGQLFEALNIAALWDLPAILVCENNHYGMG TAEWRAAKSPAYYKRGDYVPGLKVDGMDVLAVKQACKFAKEHALKNGPIILEMDTYRYHGHSMSDPGSTYRTRDEISGVR QERDPLERVRKLLVSHEVATEKELKDMEKEVRKEVDEAIAKAKESSMPDPSDLYKNIYVKGYGVEAFGVDRKEVRVTLP

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
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	19	19	-	–
PANTHER	PTHR11516:SF56 View details on PTHR11516:SF56 Search for proteins/transripts with this domain View external data on PTHR11516:SF56	19	396	378	1.4E-238	–
PANTHER	PTHR11516 View details on PTHR11516 Search for proteins/transripts with this domain View external data on PTHR11516	19	396	378	1.4E-238	–
Gene3D	G3DSA:3.40.50.970 View details on G3DSA:3.40.50.970 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.970	32	391	360	1.3E-133	–
SUPERFAMILY	SSF52518 View details on SSF52518 Search for proteins/transripts with this domain View external data on SSF52518	62	380	319	1.15E-97	IPR029061 Show description in modal box View details on IPR029061 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR03182 View details on TIGR03182 Search for proteins/transripts with this domain View external data on TIGR03182	68	379	312	5.2E-127	IPR017597 Show description in modal box View details on IPR017597 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02000 View details on cd02000 Search for proteins/transripts with this domain View external data on cd02000	72	362	291	1.30866E-145	–
Pfam	PF00676 View details on PF00676 Search for proteins/transripts with this domain View external data on PF00676	74	370	297	2.8E-120	IPR001017 Show description in modal box View details on IPR001017 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	302	321	20	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	337	361	25	-	–

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:0004739 View details of GO:0004739 AmiGO InterPro QuickGO	Molecular function	Pyruvate dehydrogenase (acetyl-transferring) activity	Catalysis of the reaction: pyruvate + lipoamide = S-acetyldihydrolipoamide + CO2.	Subterm of View details of GO:0004738 View details of GO:0016624
GO:0006086 View details of GO:0006086 AmiGO InterPro QuickGO	Biological process	Acetyl-CoA biosynthetic process from pyruvate	The chemical reactions and pathways resulting in the formation of acetyl-CoA from pyruvate.	Subterm of View details of GO:0006085 View details of GO:0006090
GO:0016624 View details of GO:0016624 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide 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 a disulfide.	Subterm of View details of GO:0016903
GO:0043231 View details of GO:0043231 AmiGO InterPro QuickGO	Cellular component	Intracellular membrane-bounded organelle	Organized structure of distinctive morphology and function, bounded by a single or double lipid bilayer membrane and occurring within the cell. Includes the nucleus, mitochondria, plastids, vacuoles, and vesicles. Excludes the plasma membrane.	Subterm of View details of GO:0043227 View details of GO:0043229

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0312700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0312700.1