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 Gene Profiles

  RV1135A is profiled in 3 experiments

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PepD participates in the mycobacterial stress response mediated through MprAB and SigE.

White MJ, et al. (2010) J Bacteriol 192(6):1498-510

The researchers compare total RNA from early log growth cultures of both wild type and PepD null mutant strain using microarray analysis to understand transcriptional profiles in a PepD null mutant ... Expand strain. Hide text

View RV1135A gene profile across 5 experiments

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The transcriptional regulator Rv0485 modulates the expression of a pe and ppe gene pair and is required for Mycobacterium tuberculosis virulence.

Goldstone RM, et al. (2009) Infect Immun 77(10):4654-67

The pe and ppe genes are unique to mycobacteria and are widely speculated to play a role in tuberculosis pathogenesis. However, little is known about how expression of these genes is controlled. Elucidating the regulatory control of genes found exclusively in mycobacteria, such as the pe and ppe gene families, may be key to understanding the success of this pathogen. In this study, we used a transposon mutagenesis ... Expand approach to elucidate pe and ppe regulation. This resulted in the identification of Rv0485, a previously uncharacterized transcriptional regulator. Microarray and quantitative real-time PCR analysis confirmed that disruption of Rv0485 reduced the expression of the pe13 and ppe18 gene pair (Rv1195 and Rv1196), defined the Rv0485 regulon, and emphasized the lack of global regulation of pe and ppe genes. Hide text

View RV1135A gene profile across 6 experiments

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NAD+ auxotrophy is bacteriocidal for the tubercle bacilli.

Vilcheze C, et al. (2010) Mol Microbiol 76(2):365-77

Mycobacteria can synthesize NAD+ using either the de novo biosynthesis pathway or the salvage pathway. The deletion of the three genes involved specifically in the NAD+ de novo biosynthesis pathway in the human pathogen Mycobacterium tuberculosis had no effect on the growth of the strain in vivo. In contrast, the same deletion in the bovine pathogen Mycobacterium bovis resulted in a strain that could not grow in ... Expand vivo and could only grow in vitro with substantial nicotinamide supplmentation. This striking difference was attributed to the known defect in the nicotinamidase PncA of M. bovis, since introducing the M. tuberculosis pncA gene into the M. bovis strain defective for de novo NAD+ biosynthesis restored growth in vitro and in vivo. This study demonstrates that NAD+ starvation is a cidal event in mycobacteria and confirms that enzymes common to the de novo and salvage pathways may be good drug targets. We also propose that simultaneously targeting both the salvage and the de novo NAD+ biosynthesis pathways represents a potentially effective way to treat infection with tubercle bacilli. To characterize the lethality induced by nicotinamide starvation transcriptional profiling of the auxotrophs was performed. Triplicate 50 mL cultures of M. tuberculosis and M. bovis Delta nadABC mutants were grown in 7H9 OADC glycerol 0.05% tween broth in 500 mL roller bottles to an OD600nm= 0.1 in a roller incubator at 37oC. The cells were washed 1x in PBS and resuspended in 50 mL 7H9 OADC glycerol 0.05% tween broth with or without 20mg/L nicotinamide and returned to the incubator. After 7 days, cultures were harvested. Hide text

View RV1135A gene profile across 6 experiments

Download gene expression data in PCL format