Abstract
Whole-genome sequencing is a powerful, high-resolution tool that can be used to generate accurate data on bacterial population structure, phylogeography, and mutations associated with antimicrobial resistance. The ability to sequence pathogen genomes directly from clinical specimens, without the requirement for in vitro culturing, is attractive in terms of time- and labor-saving, especially in the case of slow growing pathogens, such as Mycobacterium tuberculosis. However, clinical samples typically contain toolow levels of pathogen nucleic acid, plus relatively high levels of human and natural microbiota DNA/RNA, to make this a viable option. Using a combination of whole-genome enrichment and deep sequencing, which has been proven to be a nonmutagenic approach, we can capture all known variations found within M. tuberculosis genomes. The method is a consistent and sensitive tool that enables rapid whole-genome sequencing of M. tuberculosis directly from clinical samples and has the potential to be adapted to other pathogens with a similar clonal nature.
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