Objective We determined the genetic diversity of Mycobacterium tuberculosis(MTB) in a remote mountainous area of southwest China and evaluated the resolving ability of single nucleotide polymorphism(SNP) genotypin...Objective We determined the genetic diversity of Mycobacterium tuberculosis(MTB) in a remote mountainous area of southwest China and evaluated the resolving ability of single nucleotide polymorphism(SNP) genotyping combined with variable number tandem repeat(VNTR) genotyping for Beijing family strains in association with drug resistance status.Methods Three hundred thirty-one MTB strains were isolated from patients living in mountainous regions of southwest China,and 8-loci SNP,VNTR-15 genotyping assays,and drug susceptibility testing of 9 drugs were performed.Results A total of 183 [55.29%(183/331)] strains were classified into the Beijing family.Of the 183 strains,111(60.66%) were defined as modern Beijing strains.The most predominant modern Beijing sub-lineage and ancient Beijing sub-lineage were Bmyc10 [39.34%(72/183)] and Bmyc25 [20.77%(38/183)],respectively.Of the isolates,19.64%(65/331) were resistant to at least 1 of the 9 anti-TB drugs and 17 [4.98%(17/331)] MTB isolates were multi-drug resistant tuberculosis(MDR-TB).Two hundred sixty-one isolates showed a clustering rate of 14.18%(37/261) and a discriminatory index of 0.9990.The Beijing lineage exhibited a significantly higher prevalence of MDR-TB,as well as resistance to isoniazid(INH),rifampin(RIF),and para-aminosalicylic acid(PAS) when analyzed independently(P = 0.005,P = 0.017,P = 0.014,and P = 0.006 respectively).The Beijing lineage was not associated with genetic clustering or resistance to any drug.In addition,genetic clustering was not associated with drug resistance.Conclusion MTB strains demonstrate high genetic diversity in remote mountainous areas of southwest China.Beijing strains,especially modern Beijing strains,are predominant in remote mountainous area of China.The combination of 8-loci SNPs and VNTR-15 genotyping is a useful tool to study the molecular epidemiology of MTB strains in this area.展开更多
基金supported by the National Science and Technology Major Project 2014ZX100030002The National Basic Research Program of China 2014CB744403
文摘Objective We determined the genetic diversity of Mycobacterium tuberculosis(MTB) in a remote mountainous area of southwest China and evaluated the resolving ability of single nucleotide polymorphism(SNP) genotyping combined with variable number tandem repeat(VNTR) genotyping for Beijing family strains in association with drug resistance status.Methods Three hundred thirty-one MTB strains were isolated from patients living in mountainous regions of southwest China,and 8-loci SNP,VNTR-15 genotyping assays,and drug susceptibility testing of 9 drugs were performed.Results A total of 183 [55.29%(183/331)] strains were classified into the Beijing family.Of the 183 strains,111(60.66%) were defined as modern Beijing strains.The most predominant modern Beijing sub-lineage and ancient Beijing sub-lineage were Bmyc10 [39.34%(72/183)] and Bmyc25 [20.77%(38/183)],respectively.Of the isolates,19.64%(65/331) were resistant to at least 1 of the 9 anti-TB drugs and 17 [4.98%(17/331)] MTB isolates were multi-drug resistant tuberculosis(MDR-TB).Two hundred sixty-one isolates showed a clustering rate of 14.18%(37/261) and a discriminatory index of 0.9990.The Beijing lineage exhibited a significantly higher prevalence of MDR-TB,as well as resistance to isoniazid(INH),rifampin(RIF),and para-aminosalicylic acid(PAS) when analyzed independently(P = 0.005,P = 0.017,P = 0.014,and P = 0.006 respectively).The Beijing lineage was not associated with genetic clustering or resistance to any drug.In addition,genetic clustering was not associated with drug resistance.Conclusion MTB strains demonstrate high genetic diversity in remote mountainous areas of southwest China.Beijing strains,especially modern Beijing strains,are predominant in remote mountainous area of China.The combination of 8-loci SNPs and VNTR-15 genotyping is a useful tool to study the molecular epidemiology of MTB strains in this area.