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Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension

The geographically restricted Mycobacterium africanum lineages (MAF) are primarily found in West Africa, where they account for a significant proportion of tuberculosis. Despite this phenomenon, little is known about the co-evolution of these ancient lineages with West Africans. MAF and M. tuberculo...

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Autores principales: Ofori-Anyinam, Boatema, Riley, Abi Janet, Jobarteh, Tijan, Gitteh, Ensa, Sarr, Binta, Faal-Jawara, Tutty Isatou, Rigouts, Leen, Senghore, Madikay, Kehinde, Aderemi, Onyejepu, Nneka, Antonio, Martin, de Jong, Bouke C., Gehre, Florian, Meehan, Conor J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Churchill Livingstone 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7049902/
https://www.ncbi.nlm.nih.gov/pubmed/32090860
http://dx.doi.org/10.1016/j.tube.2020.101899
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author Ofori-Anyinam, Boatema
Riley, Abi Janet
Jobarteh, Tijan
Gitteh, Ensa
Sarr, Binta
Faal-Jawara, Tutty Isatou
Rigouts, Leen
Senghore, Madikay
Kehinde, Aderemi
Onyejepu, Nneka
Antonio, Martin
de Jong, Bouke C.
Gehre, Florian
Meehan, Conor J.
author_facet Ofori-Anyinam, Boatema
Riley, Abi Janet
Jobarteh, Tijan
Gitteh, Ensa
Sarr, Binta
Faal-Jawara, Tutty Isatou
Rigouts, Leen
Senghore, Madikay
Kehinde, Aderemi
Onyejepu, Nneka
Antonio, Martin
de Jong, Bouke C.
Gehre, Florian
Meehan, Conor J.
author_sort Ofori-Anyinam, Boatema
collection PubMed
description The geographically restricted Mycobacterium africanum lineages (MAF) are primarily found in West Africa, where they account for a significant proportion of tuberculosis. Despite this phenomenon, little is known about the co-evolution of these ancient lineages with West Africans. MAF and M. tuberculosis sensu stricto lineages (MTB) differ in their clinical, in vitro and in vivo characteristics for reasons not fully understood. Therefore, we compared genomes of 289 MAF and 205 MTB clinical isolates from the 6 main human-adapted M. tuberculosis complex lineages, for mutations in their Electron Transport Chain and Central Carbon Metabolic pathway in order to explain these metabolic differences. Furthermore, we determined, in silico, whether each mutation could affect the function of genes encoding enzymes in these pathways. We found more mutations with the potential to affect enzymes in these pathways in MAF lineages compared to MTB lineages. We also found that similar mutations occurred in these pathways between MAF and some MTB lineages. Generally, our findings show further differences between MAF and MTB lineages that may have contributed to the MAF clinical and growth phenotype and indicate potential adaptation of MAF lineages to a distinct ecological niche, which we suggest includes areas characterized by low oxygen tension.
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spelling pubmed-70499022020-03-05 Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension Ofori-Anyinam, Boatema Riley, Abi Janet Jobarteh, Tijan Gitteh, Ensa Sarr, Binta Faal-Jawara, Tutty Isatou Rigouts, Leen Senghore, Madikay Kehinde, Aderemi Onyejepu, Nneka Antonio, Martin de Jong, Bouke C. Gehre, Florian Meehan, Conor J. Tuberculosis (Edinb) Article The geographically restricted Mycobacterium africanum lineages (MAF) are primarily found in West Africa, where they account for a significant proportion of tuberculosis. Despite this phenomenon, little is known about the co-evolution of these ancient lineages with West Africans. MAF and M. tuberculosis sensu stricto lineages (MTB) differ in their clinical, in vitro and in vivo characteristics for reasons not fully understood. Therefore, we compared genomes of 289 MAF and 205 MTB clinical isolates from the 6 main human-adapted M. tuberculosis complex lineages, for mutations in their Electron Transport Chain and Central Carbon Metabolic pathway in order to explain these metabolic differences. Furthermore, we determined, in silico, whether each mutation could affect the function of genes encoding enzymes in these pathways. We found more mutations with the potential to affect enzymes in these pathways in MAF lineages compared to MTB lineages. We also found that similar mutations occurred in these pathways between MAF and some MTB lineages. Generally, our findings show further differences between MAF and MTB lineages that may have contributed to the MAF clinical and growth phenotype and indicate potential adaptation of MAF lineages to a distinct ecological niche, which we suggest includes areas characterized by low oxygen tension. Churchill Livingstone 2020-01 /pmc/articles/PMC7049902/ /pubmed/32090860 http://dx.doi.org/10.1016/j.tube.2020.101899 Text en © 2020 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Ofori-Anyinam, Boatema
Riley, Abi Janet
Jobarteh, Tijan
Gitteh, Ensa
Sarr, Binta
Faal-Jawara, Tutty Isatou
Rigouts, Leen
Senghore, Madikay
Kehinde, Aderemi
Onyejepu, Nneka
Antonio, Martin
de Jong, Bouke C.
Gehre, Florian
Meehan, Conor J.
Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title_full Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title_fullStr Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title_full_unstemmed Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title_short Comparative genomics shows differences in the electron transport and carbon metabolic pathways of Mycobacterium africanum relative to Mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
title_sort comparative genomics shows differences in the electron transport and carbon metabolic pathways of mycobacterium africanum relative to mycobacterium tuberculosis and suggests an adaptation to low oxygen tension
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7049902/
https://www.ncbi.nlm.nih.gov/pubmed/32090860
http://dx.doi.org/10.1016/j.tube.2020.101899
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