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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	Rv3529c
Gene length	1155 bp
Identifier	Rv3529c
Location	3965884 bp

Protein summary information

Molecular mass	43345.8 Da
Isoelectric point	6.5098
Protein length	384 amino acids

Structural information

Protein Data Bank	2ZQ5
PFAM	P71872

Orthologs

M. bovis AF2122-97	Mb3559c
M. marinum M	MMAR_5017
M. smegmatis MC2-155	MSMEG_5930
M. tuberculosis 18b	MT18B_4690
M. tuberculosis MTBC0	mtbc0_003746

Cross-references

UniProt	I6YCC4
Gene Ontology	Sulfotransferase activity
SWISS-MODEL	I6YCC4
TB database	Rv3529c

Interacting Drugs/Compounds

TDR Targets	Link

Precomputed results

BLAST	Report

General annotation

Type	CDS
Function	Function unknown
Product	Conserved hypothetical protein
Comments	Rv3529c, (MTCY03C7.27), len: 384 aa. Conserved hypothetical protein, showing some similarity to Q50695\|YM67_MYCTU\|Rv2267c\|MT2329\|MTCY339.43 hypothetical 46.1 KDA protein from Mycobacterium tuberculosis (388 aa) FASTA scores: opt: 261, E(): 1.6e-09, (27.25% identity in 253 aa overlap).
Functional category	Conserved hypotheticals
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 CDC1551 strain (see Lamichhane 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	3965884	3967038	-

Genomic sequence

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

Protein sequence

>Mycobacterium tuberculosis H37Rv|Rv3529c|Rv3529c
MTRRPDRKDVATVDELHASATKLVGLDDFGTDDDNYREALGVLLDAYQGEAGLTVLGSKMNRFFLRGALVARLLSQSAWKQYPEHVDVAIKRPIFVTGLVRTGTTALHRLLGADPAHQGLHMWLAEYPQPRPPRETWESNPLYRQLDAQFTQHHAENPGYTGLHFMAAYELEECWQLLRQSLHSVSYEALAHVPSYADWLSRQDWTPSYCRHRRNLQLIGLNDAEKRWVLKNPSHLFALDALMATYPDALVVQTHRPVETIMASMCSLAQHTTEGWSTKFVGAQIGADAMDTWSRGLERFNAARAKYDSAQFYDVDYHDLIADPLGTVADIYRHFGLTLSDEARQAMTTVHAESQSGARAPKHSYSLADYGLTVEMVKERFAGL

Bibliography

Lamichhane G et al. [2003]. A postgenomic method for predicting essential genes at subsaturation levels of mutagenesis: application to Mycobacterium tuberculosis. Mutant
Kendall SL, Withers M, Soffair CN, Moreland NJ, Gurcha S, Sidders B, Frita R, Ten Bokum A, Besra GS, Lott JS and Stoker NG [2007]. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Regulation
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