TY - JOUR T1 - A novel multi SNP based method for the identification of subspecies and associated lineages and sub-lineages of the <em>Mycobacterium tuberculosis</em> complex by whole genome sequencing JF - bioRxiv DO - 10.1101/213850 SP - 213850 AU - S Lipworth AU - R Jajou AU - A de Neeling AU - P Bradley AU - W van der Hoek AU - G Maphalala AU - M Bonnet AU - E Sanchez-Padilla AU - R Diel AU - S Niemann AU - Z Iqbal AU - G Smith AU - T Peto AU - D Crook AU - TM Walker AU - D van Soolingen Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/01/05/213850.abstract N2 - The clinical phenotype of zoonotic tuberculosis, its contribution to the global burden of disease and prevalence are poorly understood and probably underestimated. This is partly because currently available laboratory and in silico tools have not been calibrated to accurately identify all subspecies of the Mycobacterium tuberculosis complex (Mtbc). We here present the first such tool, SNPs to Identify TB (‘SNP-IT’). Applying SNP-IT to a collection of clinical genomes from a UK reference laboratory, we demonstrate an unexpectedly high number of M. orygis isolates. These are seen at a similar rate to M. bovis which attracts much health protection resource and yet M. orygis cases have not been previously described in the UK. From an international perspective it is possible that M. orygis is an underestimated zoonosis. As whole genome sequencing is increasingly integrated into the clinical setting, accurate subspecies identification with SNP-IT will allow the clinical phenotype, host range and transmission mechanisms of subspecies of the Mtbc to be studied in greater detail. ER -