A custom amplicon sequencing approach to detect resistance associated mutations and sequence types in Mycoplasma genitalium.

BACKGROUND: Mycoplasma genitalium resistance to antibiotic treatments is increasing, with very limited treatment alternatives on the horizon. Surveillance via sequencing of multiple M. genitalium loci would allow: monitoring of known antibiotic resistance mutations, associations between resistance/treatment failure and specific mutations, and strain typing for epidemiological purposes. In this study we assessed the performance of a custom amplicon sequencing approach, which negates the cost of library preparation for next generation sequencing. METHODS: Fifty-two M. genitalium positive samples (cervical, vaginal, anal and rectal swabs, and urine) were used. Three regions associated with M. genitalium antibiotic resistance (23S rRNA, parC and gyrA genes) were targeted, in conjunction with a locus used for differentiation of sequence types in the mgpB gene, and findings compared to Sanger sequencing. RESULTS: Amplicon sequencing provided adequate sequence read coverage (>30×) for the majority of samples for 23S rRNA gene (96%) and mgpB (97%), parC (78%) and gyrA (75%). Single nucleotide polymorphisms (SNPs) were characterised in samples for 23S rRNA gene (94%), parC (56%) and gyrA (4%). Unlike Sanger sequencing, mixed mutations could be identified by the amplicon sequencing method, and ratios of mutation types determined. All results, with one exception, were concordant to Sanger sequence results. Sequence diversity in the mgpB region was represented by 15 sequence types, 4 being observed in multiple samples. CONCLUSIONS: We have demonstrated the utility of this custom amplicon sequencing approach for generating highly informative datasets with the capacity to identify and determine ratios of mixed sequences. The use of this customisable amplicon sequencing method enables cost effective, scalable amplicon sequencing of multiple target regions of interest in M. genitalium.

A snapshot of Chlamydia trachomatis genetic diversity using multilocus sequence type analysis in an Australian metropolitan setting.

High-resolution screening methodologies which enable the differentiation of Chlamydia trachomatis at the strain level, directly from clinical samples, can provide the detailed information required for epidemiological questions such as the dynamics of treatment failure. In addition, they give a detailed snapshot of circulating C. trachomatis genetic variation, data which are currently lacking for the Australian population. In the context of two Australian clinical trials, we assessed the genetic diversity of C. trachomatis and compared these to strains circulating globally. We used high-resolution multilocus sequence typing (MLST) of five highly variable genetic regions of C. trachomatis to examine variation in Australia. Samples with established genovars were drawn from a pool of 880 C. trachomatis-positive samples from two clinical studies, whereby 76 sample pairs which remained C. trachomatis-positive for the same genovar after treatment underwent MLST analysis to distinguish between treatment failure and reinfection. MLST analysis revealed a total of 25 sequence types (STs), six new allele variants and seven new STs not described anywhere else in the world, when compared to those in the international C. trachomatis MLST database. Of the eight most common global STs, seven were found in Australia (four derived from men who have sex with men (MSM) and three from heterosexuals). Newly identified STs were predominantly found in samples from the MSM population. In conclusion, MLST provided a diverse C. trachomatis strain profile, with novel circulating STs, and could be used to identify local sexual networks to focus on interventions such as testing and partner notification to prevent reinfection.