Global Phylogeny of Mycobacterium avium and Identification of Mutation Hotspots During Niche Adaptation

Mizzi, Rachel; Plain, Karren M.; Whittington, Richard; Timms, Verlaine J.

Title: Global Phylogeny of Mycobacterium avium and Identification of Mutation Hotspots During Niche Adaptation
Creator: Mizzi, Rachel; Plain, Karren M.; Whittington, Richard; Timms, Verlaine J.
Relation: Frontiers in Microbiology Vol. 13, no. 892333
Publisher Link: http://dx.doi.org/10.3389/fmicb.2022.892333
Publisher: Frontiers Research Foundation
Resource Type: journal article
Date: 2022
Description: Mycobacterium avium is separated into four subspecies: M. avium subspecies avium (MAA), M. avium subspecies silvaticum (MAS), M. avium subspecies hominissuis (MAH), and M. avium subspecies paratuberculosis (MAP). Understanding the mechanisms of host and tissue adaptation leading to their clinical significance is vital to reduce the economic, welfare, and public health concerns associated with diseases they may cause in humans and animals. Despite substantial phenotypic diversity, the subspecies nomenclature is controversial due to high genetic similarity. Consequently, a set of 1,230 M. avium genomes was used to generate a phylogeny, investigate SNP hotspots, and identify subspecies-specific genes. Phylogeny reiterated the findings from previous work and established that Mycobacterium avium is a species made up of one highly diverse subspecies, known as MAH, and at least two clonal pathogens, named MAA and MAP. Pan-genomes identified coding sequences unique to each subspecies, and in conjunction with a mapping approach, mutation hotspot regions were revealed compared to the reference genomes for MAA, MAH, and MAP. These subspecies-specific genes may serve as valuable biomarkers, providing a deeper understanding of genetic differences between M. avium subspecies and the virulence mechanisms of mycobacteria. Furthermore, SNP analysis demonstrated common regions between subspecies that have undergone extensive mutations during niche adaptation. The findings provide insights into host and tissue specificity of this genetically conserved but phenotypically diverse species, with the potential to provide new diagnostic targets and epidemiological and therapeutic advances.
Subject: mycobacterium avium; hominissuis; paratuberculosis; silvaticum,; comparative genomics; mutation hotspot
Identifier: http://hdl.handle.net/1959.13/1487680
Identifier: uon:52214
Identifier: ISSN:1664-302X
Language: eng
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