Phylogenomics of Mycobacterium africanum reveals a new lineage and a complex evolutionary history

Phylogenomics of Mycobacterium africanum reveals a new lineage and a complex evolutionary history

Human tuberculosis (TB) is caused by members of the complex (MTBC). The MTBC comprises several human-adapted lineages known as , as well as two lineages (L5 and L6) traditionally referred to as . Strains of L5 and L6 are largely limited to West Africa for reasons unknown, and little is known of thei...

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Published in:Microbial genomics Vol. 7; no. 2
Main Authors: Coscolla, Mireia, Gagneux, Sebastien, Menardo, Fabrizio, Loiseau, Chloé, Ruiz-Rodriguez, Paula, Borrell, Sonia, Otchere, Isaac Darko, Asante-Poku, Adwoa, Asare, Prince, Sánchez-Busó, Leonor, Gehre, Florian, Sanoussi, C N'Dira, Antonio, Martin, Affolabi, Dissou, Fyfe, Janet, Beckert, Patrick, Niemann, Stefan, Alabi, Abraham S, Grobusch, Martin P, Kobbe, Robin, Parkhill, Julian, Beisel, Christian, Fenner, Lukas, Böttger, Erik C, Meehan, Conor J, Harris, Simon R, de Jong, Bouke C, Yeboah-Manu, Dorothy, Brites, Daniela
Format: Journal Article
Language:English
Published: England Microbiology Society 01-02-2021
Subjects:
Africa, Eastern
Africa, Western
Drug Resistance, Bacterial
Evolution, Molecular
Genome, Bacterial
High-Throughput Nucleotide Sequencing
Humans
Mycobacterium tuberculosis - classification
Mycobacterium tuberculosis - genetics
Mycobacterium tuberculosis - isolation & purification
Phylogeny
Phylogeography
Tuberculosis - microbiology
Whole Genome Sequencing - methods
Africa, Eastern
Africa, Western
genome
diversity
evolution
Mycobacterium tuberculosis
mycobacteria
Mycobacterium africanum
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Summary:Human tuberculosis (TB) is caused by members of the complex (MTBC). The MTBC comprises several human-adapted lineages known as , as well as two lineages (L5 and L6) traditionally referred to as . Strains of L5 and L6 are largely limited to West Africa for reasons unknown, and little is known of their genomic diversity, phylogeography and evolution. Here, we analysed the genomes of 350 L5 and 320 L6 strains, isolated from patients from 21 African countries, plus 5 related genomes that had not been classified into any of the known MTBC lineages. Our population genomic and phylogeographical analyses showed that the unclassified genomes belonged to a new group that we propose to name MTBC lineage 9 (L9). While the most likely ancestral distribution of L9 was predicted to be East Africa, the most likely ancestral distribution for both L5 and L6 was the Eastern part of West Africa. Moreover, we found important differences between L5 and L6 strains with respect to their phylogeographical substructure and genetic diversity. Finally, we could not confirm the previous association of drug-resistance markers with lineage and sublineages. Instead, our results indicate that the association of drug resistance with lineage is most likely driven by sample bias or geography. In conclusion, our study sheds new light onto the genomic diversity and evolutionary history of , and highlights the need to consider the particularities of each MTBC lineage for understanding the ecology and epidemiology of TB in Africa and globally.
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All raw data generated for this study have been submitted to the European Nucleotide Archive (ENA; https://www.ebi.ac.uk/ena/) under the study accession numbers PRJEB9003, PRJEB38656, PRJEB4884, PRJEB38317, PRJEB31139, PRJEB6273 and PRJEB31144. Individual run accession numbers for new and published sequences are indicated in Table S1.
ISSN:2057-5858
2057-5858
DOI:10.1099/mgen.0.000477