Genomic determinants of speciation and spread of the Mycobacterium tuberculosis complex

Abstract

ABSTRACTBACKGROUNDModels on how bacterial lineages differentiate increase our understanding on early bacterial speciation events and about the genetic loci involved. Here, we analyze the population genomics events leading to the emergence of the tuberculosis pathogen.RESULTSThe emergence is characterized by a combination of recombination events involving core pathogenesis functions and purifying selection on early diverging loci. We identify the phoR gene, the sensor kinase of a two-component system involved in virulence, as a key functional player subject to pervasive positive selection after the divergence of the MTBC from its ancestor. Previous evidence showed that phoR mutations played a central role in the adaptation of the pathogen to different host species. Now we show that phoR have been under selection during the early spread of human tuberculosis, during later expansions and in on-going transmission events.CONCLUSIONSOur results show that linking pathogen evolution across evolutionary and epidemiological timescales point to past and present virulence determinants.