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Comparison of in silico predicted Mycobacterium tuberculosis spoligotypes and lineages from whole genome sequencing data

Gary Napier, David Couvin, Guislaine Refrégier, Christophe Guyeux, Conor J. Meehan, Christophe Sola, Susana Campino, Jody Phelan, Taane G. Clark

2023Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Bacterial strain-types in the Mycobacterium tuberculosis complex underlie tuberculosis disease, and have been associated with drug resistance, transmissibility, virulence, and host-pathogen interactions. Spoligotyping was developed as a molecular genotyping technique used to determine strain-types, though recent advances in whole genome sequencing (WGS) technology have led to their characterization using SNP-based sub-lineage nomenclature. Notwithstanding, spoligotyping remains an important tool and there is a need to study the congruence between spoligotyping-based and SNP-based sub-lineage assignation. To achieve this, an in silico spoligotype prediction method ("Spolpred2") was developed and integrated into TB-Profiler. Lineage and spoligotype predictions were generated for > 28 k isolates and the overlap between strain-types was characterized. Major spoligotype families detected were Beijing (25.6%), T (18.6%), LAM (13.1%), CAS (9.4%), and EAI (8.3%), and these broadly followed known geographic distributions. Most spoligotypes were perfectly correlated with the main MTBC lineages (L1-L7, plus animal). Conversely, at lower levels of the sub-lineage system, the relationship breaks down, with only 65% of spoligotypes being perfectly associated with a sub-lineage at the second or subsequent levels of the hierarchy. Our work supports the use of spoligotyping (membrane or WGS-based) for low-resolution surveillance, and WGS or SNP-based systems for higher-resolution studies.

Topics & Concepts

BiologyIn silicoGenotypingMycobacterium tuberculosisLineage (genetic)Whole genome sequencingGeneticsMycobacterium tuberculosis complexTuberculosisSNPGenotypeCladeEvolutionary biologyGenomeComputational biologyPhylogenetic treeSingle-nucleotide polymorphismGeneMedicinePathologyTuberculosis Research and EpidemiologyMycobacterium research and diagnosisDiagnosis and treatment of tuberculosis