Abstract
BackgroundPE and PE_PGRS are two mycobateria-restricted multigene families encoding membrane associated and secreted proteins that have expanded mainly in the pathogenic species, notably the Mycobacterium tuberculosis complex (MTBC). Several lines of evidence attribute to PE and PE_PGRS genes critical roles in mycobacterial pathogenicity. To get more insight into the nature of these genes, we sought to address their evolutionary trajectories in the group of smooth tubercle bacilli (STB), the putative ancestor of the clonal MTBC.Methodology/Principal FindingsBy focussing on six polymorphic STB PE/PE_PGRS genes, we demonstrate significant incongruence among single gene genealogies and detect strong signals of recombination using various approaches. Coalescent-based estimation of population recombination and mutation rates (ρ and θ, respectively) indicates that the two mechanisms are of roughly equal importance in generating diversity (ρ/θ = 1.457), a finding in a marked contrast to house keeping genes (HKG) whose evolution is chiefly brought about by mutation (ρ/θ = 0.012). In comparison to HKG, we found 15 times higher mean rate of nonsynonymous substitutions, with strong evidence of positive selection acting on PE_PGRS62 (dN/dS = 1.42), a gene that has previously been shown to be essential for mycobacterial survival in macrophages and granulomas. Imprint of positive selection operating on specific amino acid residues or along branches of PE_PGRS62 phylogenetic tree was further demonstrated using maximum likelihood- and covarion-based approaches, respectively. Strikingly, PE_PGR62 proved highly conserved in present-day MTBC strains.Conclusions/SignificanceOverall the data indicate that, in STB, PE/PE_PGRS genes have undergone a strong diversification process that is speeded up by recombination, with evidence of positive selection. The finding that positive selection involved an essential PE_PGRS gene whose sequence appears to be driven to fixation in present-day MTBC strains lends further support to the critical role of PE/PE_PGRS genes in the evolution of mycobacterial pathogenicity.
Highlights
Tuberculosis (TB) still remains a huge threat for human and animal health worldwide [1]
(PE_PGRS12, PE_PGRS26, PE_PGRS29, PE_PGRS35, PE_PGRS51, and PE_PGRS62) genes were selected for sequencing in smooth tubercle bacilli (STB), since they could be reliably amplified by PCR in both Mycobacterium tuberculosis complex (MTBC) and STB
The sequence of PE_PGRS62 varied significantly in the STB group (14 polymorphic sites), it showed no polymorphism among the MTBC strains used in this study
Summary
Tuberculosis (TB) still remains a huge threat for human and animal health worldwide [1]. The MTBC members have shown a large spectrum of phenotypic characteristics and mammalian hosts, they tend to represent a genetically homogeneous group thought to have emerged recently [6,7,8]. Gutierrez et al [12] expanded upon this finding by carrying out a multilocus sequence analysis leading to the suggestion that STB correspond to prebottleneck lineages, and may represent members of a much broader progenitor species, named M. protototuberculosis, from which the MTBC clonal group could have evolved. To get more insight into the nature of these genes, we sought to address their evolutionary trajectories in the group of smooth tubercle bacilli (STB), the putative ancestor of the clonal MTBC
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