Rv2628 - hypothetical protein


Protein Domains

Gene Information
LocusRv2628
Symbol
Gene Namehypothetical protein
Location2955058 - 2955420 (+)
SpeciesMycobacterium tuberculosis H37Rv complete genome.
LengthGene:363 bp
Protein:121 aa
External LinksTuberculist
Target Gene Information
String Protein-Protein Interactions
STITCH Chemical-Protein Interactions
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Orthologs
Orthogroup Number8034
Related GenesMAP2728 MAV_3503 MT2703 Mvan_1397
Transcriptional Regulation
Operons View gene in operon browser
Regulatory Network
Search for regulators of Rv2628
Expression Correlation Genes with Correlated Expression
Scatterplot of Gene Expression

Sequence
Proteins
Genomic Sequence
Community Annotations Pending Curatorial Review
FieldValueStatusCreatorDate
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
ML. Chesne-Seck, N. Barilone et al. A point mutation in the two-component regulator PhoP-PhoR accounts for the absence of polyketide-derived acyltrehaloses but not that of phthiocerol dimycocerosates in Mycobacterium tuberculosis H37Ra. J. Bacteriol. 2008
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
authors,A. Sola-Landa,RS. Moura,JF. Martín The two-component PhoR-PhoP system controls both primary metabolism and secondary metabolite biosynthesis in Streptomyces lividans. Proc. Natl. Acad. Sci. U.S.A. 2003
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
J. Gonzalo Asensio, C. Maia et al. The virulence-associated two-component PhoP-PhoR system controls the biosynthesis of polyketide-derived lipids in Mycobacterium tuberculosis. J. Biol. Chem. 2006
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
J. Gonzalo-Asensio, CY. Soto et al. The Mycobacterium tuberculosis phoPR operon is positively autoregulated in the virulent strain H37Rv. J. Bacteriol. 2008
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
A. Sinha, S. Gupta et al. PhoP-PhoP interaction at adjacent PhoP binding sites is influenced by protein phosphorylation. J. Bacteriol. 2008
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
J. Gonzalo Asensio, C. Maia et al. The virulence-associated two-component PhoP-PhoR system controls the biosynthesis of polyketide-derived lipids in Mycobacterium tuberculosis. J. Biol. Chem. 2006
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
M. Ryndak, S. Wang et al. PhoP, a key player in Mycobacterium tuberculosis virulence. Trends Microbiol. 2008
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
JA. Asensio, A. Arbués et al. Live tuberculosis vaccines based on phoP mutants: a step towards clinical trials. Expert opinion on biological therapy 2008
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
SB. Walters, E. Dubnau et al. The Mycobacterium tuberculosis PhoPR two-component system regulates genes essential for virulence and complex lipid biosynthesis. Mol. Microbiol. 2006
InteractionRegulatory Rv0757activesinghpankaj21162012-10-05
Co-expression (Functional linkage)
J. Gonzalo-Asensio, S. Mostowy et al. PhoP: a missing piece in the intricate puzzle of Mycobacterium tuberculosis virulence. PLoS ONE 2008
InteractionRegulatedBy Rv0348activeyamir.moreno2012-10-05
Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments.. qRT-PCR. mRNA expression levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using qRT-PCR technique.
B. Abomoelak, EA. Hoye et al. mosR, a novel transcriptional regulator of hypoxia and virulence in Mycobacterium tuberculosis. J. Bacteriol. 2009
InteractionRegulatedBy Rv0348activeyamir.moreno2012-10-05
Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments.. qRT-PCR. mRNA expression levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using qRT-PCR technique.
B. Abomoelak, EA. Hoye et al. mosR, a novel transcriptional regulator of hypoxia and virulence in Mycobacterium tuberculosis. J. Bacteriol. 2009
InteractionRegulatedBy Rv0981activeyamir.moreno2012-10-05
Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments..
H. He, R. Hovey et al. MprAB is a stress-responsive two-component system that directly regulates expression of sigma factors SigB and SigE in Mycobacterium tuberculosis. J. Bacteriol. 2006
InteractionRegulatedBy Rv0757activeyamir.moreno2012-10-05
Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments..
J. Gonzalo Asensio, C. Maia et al. The virulence-associated two-component PhoP-PhoR system controls the biosynthesis of polyketide-derived lipids in Mycobacterium tuberculosis. J. Biol. Chem. 2006
InteractionRegulatedBy Rv3133cactiveyamir.moreno2012-10-05
Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
G. Balázsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008