Abstract
A sample of 260 Mycobacterium tuberculosis strains assigned to the Euro-American family was studied to identify phylogenetically informative genomic regions of difference (RD). Mutually exclusive deletions of regions RD115, RD122, RD174, RD182, RD183, RD193, RD219, RD726 and RD761 were found in 202 strains; the RDRio deletion was detected exclusively among the RD174-deleted strains. Although certain deletions were found more frequently in certain spoligotype families (i.e., deletion RD115 in T and LAM, RD174 in LAM, RD182 in Haarlem, RD219 in T and RD726 in the “Cameroon” family), the RD-defined sublineages did not specifically match with spoligotype-defined families, thus arguing against the use of spoligotyping for establishing exact phylogenetic relationships between strains. Notably, when tested for katG463/gyrA95 polymorphism, all the RD-defined sublineages belonged to Principal Genotypic Group (PGG) 2, except sublineage RD219 exclusively belonging to PGG3; the 58 Euro-American strains with no deletion were of either PGG2 or 3. A representative sample of 197 isolates was then analyzed by standard 15-locus MIRU-VNTR typing, a suitable approach to independently assess genetic relationships among the strains. Analysis of the MIRU-VNTR typing results by using a minimum spanning tree (MST) and a classical dendrogram showed groupings that were largely concordant with those obtained by RD-based analysis. Isolates of a given RD profile show, in addition to closely related MIRU-VNTR profiles, related spoligotype profiles that can serve as a basis for better spoligotype-based classification.
Highlights
Comparative genomic studies have shown that the Mycobacterium tuberculosis complex has evolved through irreversible genetic events that occurred in ancient common progenitor strains [1,2]
The polymorphisms probed by regions of difference (RD) deletion analysis and spoligotyping turn out to be largely congruent, as they reflect the clonal population structure of the M. tuberculosis complex [5,14,15,16], so that the spoligotype families are generally regarded as sublineages within the Large sequence polymorphisms (LSPs)-defined main lineages [17]; in certain cases, spoligotype homoplasy, i.e. identical molecular pattern of the Direct Repeat (DR) locus in strains belonging to different evolutionary lineages, likely resulting from convergent evolution, has been reported [17,18,19,20,21,22,23]
A collection of 260 M. tuberculosis isolates of the EuroAmerican lineage assigned to the spoligotype-defined families T, Haarlem, Latin American-Mediterranean (LAM), Cameroon, S and X was studied by PCR to determine the presence or absence of regions RD115, RD122, RD174, RD182, RD183, RD193, RD219, RD724, RD726 and RD761
Summary
Comparative genomic studies have shown that the Mycobacterium tuberculosis complex has evolved through irreversible genetic events that occurred in ancient common progenitor strains [1,2]. A collection of 260 M. tuberculosis isolates of the EuroAmerican lineage assigned to the spoligotype-defined families T, Haarlem, LAM, Cameroon, S and X was studied by PCR to determine the presence or absence of regions RD115, RD122, RD174, RD182, RD183, RD193, RD219, RD724, RD726 and RD761.
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