The population structure of the M. tuberculosis in Yakutia was estimated by the MIRU-VNTR method of 24 loci genotyping. 199 strains from 199 patients with pulmonary tuberculosis were tested. The greatest number of the strains (34.2%, 68/199) belonged to the genotype Beijing. The significant predominance (X² = 15.5; p < 0.001) of the multidrug and extensively drug-resistance (MDR/XDR) among the isolates of Beijing genotype was revealed in subtype CC2/ W148 - 9.5% (19/199). Strains of the genotype S (15.6%, 31/199) were the second most common genotype after Beijing. The majority of S-strains had an identical profile 233325153325141344222372. S genotype strains also significantly more frequently carried the MDR/ XDR (X² = 59.8;p<0.001) among non-Beijing isolates. The genotype strain Ural ranks the third in the prevalence - 10.0% (20/199). The strains belonging to the family LAM (8.5%, 17/199) had considerable genetic heterogeneity. A great genetic diversity was also found in minor genotypes T and Haarlem. A phylogenetic reconstruction of the epidemic spread of the S-genotype and subtype CC2/W148 of the Beijing genotype in Yakutia was performed with estimation of the probable time of origin in the scale proposed by Merker M. et al. (2015). It was shown that the strains of the subtype CC2/W148 had been formed from four distinct phylogenetic sublines in recent historical period (XX century). It was estimated that phylogenetic relationships accounted for 30 MIRU-VNTR profiles of S-strains from Yakutia and 31 reference S-profiles from Europe and Canada. The profiles of the S-genotype from Yakutia form a phylogenetically compact group, indicating that all evolutionary history of these strains happened in the Sakha Republic. The time of the ancestral S-genotype spreading in Yakutia was estimated to be in the range from 300 to 600 years.
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