Abstract
Mycobacterium tuberculosis infects one third of the human world population and kills someone every 15 seconds. For more than a century, scientists and clinicians have been distinguishing between the human- and animal-adapted members of the M. tuberculosis complex (MTBC). However, all human-adapted strains of MTBC have traditionally been considered to be essentially identical. We surveyed sequence diversity within a global collection of strains belonging to MTBC using seven megabase pairs of DNA sequence data. We show that the members of MTBC affecting humans are more genetically diverse than generally assumed, and that this diversity can be linked to human demographic and migratory events. We further demonstrate that these organisms are under extremely reduced purifying selection and that, as a result of increased genetic drift, much of this genetic diversity is likely to have functional consequences. Our findings suggest that the current increases in human population, urbanization, and global travel, combined with the population genetic characteristics of M. tuberculosis described here, could contribute to the emergence and spread of drug-resistant tuberculosis.
Highlights
Mycobacterium tuberculosis is a gram-positive bacterium and the causative agent of human tuberculosis
Recent comparative genomic analyses have revealed such a high degree of genetic diversity in M. bovis that modern population geneticists consider the species to be comprised of several ecotypes, each of which is adapted to particular animal host species [6,7,8,9,10]
The Global Phylogeny of M. tuberculosis We investigated the genetic diversity within M. tuberculosis complex (MTBC) using seven megabases of DNA sequence data that we generated from a representative collection of 108 MTBC strains (Table S1)
Summary
Mycobacterium tuberculosis is a gram-positive bacterium and the causative agent of human tuberculosis. Recent comparative genomic analyses have revealed such a high degree of genetic diversity in M. bovis that modern population geneticists consider the species to be comprised of several ecotypes, each of which is adapted to particular animal host species [6,7,8,9,10]. Some of these ecotypes have been given distinct species designations. Mycobacterium microti is a pathogen of voles [11], Mycobacterium pinnipedii a pathogen of seals and sea lions [12], and Mycobacterium caprae a pathogen of goats [13]
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