Global Epidemiology and Evolutionary History of Staphylococcus aureus ST45.

Staphylococcus aureus ST45 is a major global MRSA lineage with huge strain diversity and a high clinical impact. It is one of the most prevalent carrier lineages but also frequently causes severe invasive disease, such as bacteremia. Little is known about its evolutionary history. In this study, we used whole-genome sequencing to analyze a large collection of 451 diverse ST45 isolates from 6 continents and 26 countries. De novo-assembled genomes were used to understand genomic plasticity and to perform coalescent analyses. The ST45 population contained two distinct sublineages, which correlated with the isolates' geographical origins. One sublineage primarily consisted of European/North American isolates, while the second sublineage primarily consisted of African and Australian isolates. Bayesian analysis predicted ST45 originated in northwestern Europe about 500 years ago. Isolation time, host, and clinical symptoms did not correlate with phylogenetic groups. Our phylogenetic analyses suggest multiple acquisitions of the SCCmec element and key virulence factors throughout the evolution of the ST45 lineage.

Ensuring backwards compatibility: traditional genotyping efforts in the era of whole genome sequencing.

When using next-generation whole genome sequencing (WGS), extraction of spa types from WGS data is essential for backwards compatibility with Sanger sequencing-based spa typing of methicillin-resistant Staphylococcus aureus (MRSA). We evaluated WGS-based spa typing with a 2×250 bp protocol in a diverse collection of 423 MRSA isolates using two pipelines that executed sequence quality-trimming and de novo assembly before spa typing. The SeqSphere(+) pipeline correctly typed 419 isolates (99.1%) whereas the CLCbio pipeline succeeded in 249 isolates (58.9%). In summary, WGS combined with an optimized de novo assembly enables nearly full compatibility with Sanger sequencing-based spa typing data.