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virulence, detoxification, adaptation

information pathways

cell wall and cell processes

stable RNAs

insertion seqs and phages

PE/PPE

intermediary metabolism and respiration

unknown

regulatory proteins

conserved hypotheticals

lipid metabolism

pseudogenes

Gene summary information

Gene name	Rv1518
Gene length	960 bp
Identifier	Rv1518
Location	1709644 bp

Protein summary information

Molecular mass	36056.7 Da
Isoelectric point	9.9822
Protein length	319 amino acids

Structural information

PFAM	Q50590

Orthologs

M. bovis AF2122-97	Mb1545
M. tuberculosis 18b	MT18B_2003
M. tuberculosis MTBC0	mtbc0_001625

Cross-references

UniProt	P9WLV9
Gene Ontology	Integral to membrane
SWISS-MODEL	P9WLV9
TB database	Rv1518

Interacting Drugs/Compounds

TDR Targets	Link

Precomputed results

BLAST	Report

General annotation

Type	CDS
Function	Unknown, possibly glycosyl transferase
Product	Conserved hypothetical protein
Comments	Rv1518, (MTCY277.40, MTCY19G5.11c), len: 319 aa. Conserved hypothetical protein, possibly glycosyl transferase involved in exopolysaccharide synthesis, similar to several hypothetical proteins and glycosyl transferases from diverse organisms e.g. P73996\|D90911 from synecho cystis sp. (309 aa), Fasta scores: opt: 300, E(): 1.8e-13, (29.5% identity in 241 aa overlap).
Functional category	Conserved hypotheticals
Proteomics	Identified in the cell membrane fraction of M. tuberculosis H37Rv using 2DLC/MS (See Mawuenyega et al., 2005). Identified by mass spectrometry in M. tuberculosis H37Rv-infected guinea pig lungs at 30 days but not 90 days (See Kruh et al., 2010).
Transcriptomics	DNA microarrays show lower level of expression in M. tuberculosis H37Rv than in phoP\|Rv0757 mutant (See Walters et al., 2006).
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 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	1709644	1710603	+

Genomic sequence

Feature type Upstream flanking region (bp) Downstream flanking region (bp) Update

Protein sequence

>Mycobacterium tuberculosis H37Rv|Rv1518|Rv1518
VVPGDASSVVSVNPAKPLISVCIPMYNNGATIERCLRSILEQEGVEFEIVVVDDDSSDDCAAIAATMLRPGDRLLRNEPRLGLNRNHNKCLEVARGGLIQFVHGDDRLLPGALQTLSRRFEDPSVGMAFAPRRVESDDIKWQQRYGRVHTRFRKLRDRNHGPSLVLQMVLHGAKENWIGEPTAVMFRRQLALDAGGFRTDIYQLVDVDFWLRLMLRSAVCFVPHELSVRRHTAATETTRVMATRRNVLDRQRILTWLIVDPLSPNSVRSAAALWWIPAWLAMIVEVAVLGPQRRTHLKALAPAPFREFAHARRQLPMAD

Bibliography

Parish T, Smith DA, Roberts G, Betts J and Stoker NG [2003]. The senX3-regX3 two-component regulatory system of Mycobacterium tuberculosis is required for virulence. Regulation
Mawuenyega KG et al. [2005]. Mycobacterium tuberculosis functional network analysis by global subcellular protein profiling. Proteomics
Walters SB et al. [2006]. The Mycobacterium tuberculosis PhoPR two-component system regulates genes essential for virulence and complex lipid biosynthesis. Transcriptome
Kruh NA et al. [2010]. Portrait of a pathogen: the Mycobacterium tuberculosis proteome in vivo. Proteomics
Griffin JE et al. [2011]. High-resolution phenotypic profiling defines genes essential for mycobacterial growth and cholesterol catabolism. Mutant
Mazandu GK et al. [2012]. Function prediction and analysis of mycobacterium tuberculosis hypothetical proteins. Function
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