Mycobacterium tuberculosis complex CRISPR genotyping: improving efficiency, throughput and discriminative power of 'spoligotyping' with new spacers and a microbead-based hybridization assay.

The aims of the present study were to implement a microbead-based 'spoligotyping' technique and to evaluate improvements by the addition of a panel of 25 extra spacers that we expected to provide an increased resolution on principal genetic group 1 (PGG 1) strains. We confirmed the high sensitivity and reproducibility of the classical technique using the 43 spacer panel and we obtained perfect agreement between the membrane-based and the microbead-based techniques. We further demonstrated an increase in the discriminative power of an extended 68 spacer format for differentiation of PGG 1 clinical isolates, in particular for the East African-Indian clade. Finally, we define a limited yet highly informative reduced 10 spacer panel set which could offer a more cost-effective option for implementation in resource-limited countries and that could decrease the need for additional VNTR (variable number of tandem repeats) genotyping work in molecular epidemiological studies. We also present an economic analysis comparing membrane-based and microbead-based techniques.