Gene Rv0131c
in Mycobacterium tuberculosis H37Rv
General annotation
Type | CDS |
Function | Function unknown, but involved in lipid degradation. |
Product | Probable acyl-CoA dehydrogenase FadE1 |
Comments | Rv0131c, (MTCI5.05c), len: 447 aa. Probable fadE1, acyl-CoA dehydrogenase, similar to many e.g. ACDS_HUMAN|P16219 acyl-CoA dehydrogenase short-chain specific precursor (412 aa), FASTA scores: opt: 522, E(): 1.4e-23, (30.1% identity in 425 aa overlap). Also highly similar to MTCI5_28 from Mycobacterium tuberculosis. |
Functional category | Lipid metabolism |
Proteomics | Identified in the cytosol of M. tuberculosis H37Rv using 2DLC/MS (See Mawuenyega et al., 2005). Identified in the membrane fraction of M. tuberculosis H37Rv using nanoLC-MS/MS (See Xiong et al., 2005). Identified by mass spectrometry in Triton X-114 extracts of M. tuberculosis H37Rv (See Malen et al., 2010). Identified by mass spectrometry in the membrane protein fraction and whole cell lysates of M. tuberculosis H37Rv but not the culture filtrate (See de Souza et al., 2011). |
Transcriptomics | mRNA identified by microarray analysis and up-regulated after 24h and 96h of starvation (see Betts et al., 2002). |
Mutant | Non-essential gene for in vitro growth of H37Rv in a MtbYM rich medium, by Himar1 transposon mutagenesis (see Minato et al. 2019). Non-essential gene for in vitro growth of H37Rv, by analysis of saturated Himar1 transposon libraries (see DeJesus et al. 2017). Non essential gene by Himar1 transposon mutagenesis in H37Rv strain (see Sassetti et al., 2003). Non-essential gene for in vitro growth of H37Rv, by Himar1 transposon mutagenesis (See Griffin et al., 2011). Check for mutants available at TARGET website |
Coordinates
Type | Start | End | Orientation |
---|---|---|---|
CDS | 158315 | 159658 | - |
Genomic sequence
Feature type
Upstream flanking region (bp)
Downstream flanking region (bp)
Update
Protein sequence
>Mycobacterium tuberculosis H37Rv|Rv0131c|fadE1 MPVRRRAGERLPTVWDFETDPQYQSKLDWVEKFMAEELEPLDLVALDPYDKKNADTMAILRPLQRQVKDQGLWAAHLRPELGGQGFGQVKLALLNEIIGRSRWAPSAFGCQAPDSGNAEILALFGTDEQKARYLRPLLDGEITSCYSMTEPQGGSDPGLFVTAATRDAAGNGDWIINGEKWFSTNAKHASFFIVMAVTKPEARTYEKMSLFIVPADTPGIEIVRNVGVGAESTRHASHGYIRYHDVRVPADHVLGGEGQAFMIAQTRLGGGRIHHAMRTIALARRAFDMMCERALSRQTRHGRLADLQMTQEKIADSWIQIEQFRLLVLRTAWLIDKHHDYQKVRRDIAAVKVAMPQVLHDVVQRAMHLHGALGVSDEMPFVKMMLAAESLGIADGATELHKMTVARRTLREYQPVTTLFPSQHIPTRRAHAEAWLAQRLEHAIAEF
Bibliography
- Betts JC et al. [2002]. Evaluation of a nutrient starvation model of Mycobacterium tuberculosis persistence by gene and protein expression profiling. Transcriptome
- Sassetti CM et al. [2003]. Genes required for mycobacterial growth defined by high density mutagenesis. Mutant
- Xiong Y, Chalmers MJ, Gao FP, Cross TA and Marshall AG [2005]. Identification of Mycobacterium tuberculosis H37Rv integral membrane proteins by one-dimensional gel electrophoresis and liquid chromatography electrospray ionization tandem mass spectrometry. Proteomics
- Mawuenyega KG et al. [2005]. Mycobacterium tuberculosis functional network analysis by global subcellular protein profiling. Proteomics
- MÃ¥len H et al. [2010]. Definition of novel cell envelope associated proteins in Triton X-114 extracts of Mycobacterium tuberculosis H37Rv. Proteomics
- Griffin JE et al. [2011]. High-resolution phenotypic profiling defines genes essential for mycobacterial growth and cholesterol catabolism. Mutant
- de Souza GA et al. [2011]. Bacterial proteins with cleaved or uncleaved signal peptides of the general secretory pathway. Proteomics
- DeJesus MA et al. [2017]. Comprehensive Essentiality Analysis of the Mycobacterium tuberculosis Genome via Saturating Transposon Mutagenesis. Mutant
- Minato Y et al. [2019]. Genomewide Assessment of Mycobacterium tuberculosis Conditionally Essential Metabolic Pathways. Mutant