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Characterization of mycobacterial virulence genes through genetic interaction mapping

2006; National Academy of Sciences; Volume: 103; Issue: 31 Linguagem: Inglês

10.1073/pnas.0603179103

1091-6490

Swati Joshi, Amit Kumar Pandey, Nicole Capite, Sarah M. Fortune, Eric J. Rubin, Christopher M. Sassetti,

RNA and protein synthesis mechanisms

We have previously shown that approximately 5% of the genes encoded by the genome of Mycobacterium tuberculosis are specifically required for the growth or survival of this bacterium during infection. This corresponds to hundreds of genes, most of which have no identifiable function. As a unique approach to characterize these genes, we developed a method to rapidly delineate functional pathways by identifying mutations that modify each other's phenotype, i.e., "genetic interactions". Using this method, we have defined a complex set of interactions between virulence genes in this pathogen, and find that the products of unlinked genes associate to form multisubunit transporters that are required for bacterial survival in the host. These findings implicate a previously undescribed family of transport systems in the pathogenesis of tuberculosis, and identify genes that are likely to function in the metabolism of their substrates. This method can be readily applied to other organisms at either the single pathway level, as described here, or at the system level to define quantitative genetic interaction networks.