Recombination is a major driving force of genetic diversity in the Anaplasmataceae Ehrlichia ruminantium

Nidia Cangi; Nidia Cangi; Nidia Cangi; Nidia Cangi; Jonathan Gordon; Jonathan Gordon; Laure Bournez; Laure Bournez; Valerie Pinarello; Valerie Pinarello; Rosalie Aprelon; Rosalie Aprelon; Karine Huber; Thierry Lefrancois; Luis Neves; Luis Neves; Damien F MEYER; Damien F MEYER; Nathalie VACHIERY; Nathalie VACHIERY

doi:10.3389/fcimb.2016.00111

Frontiers in Cellular and Infection Microbiology (Sep 2016)

Recombination is a major driving force of genetic diversity in the Anaplasmataceae Ehrlichia ruminantium

Nidia Cangi,
Nidia Cangi,
Nidia Cangi,
Nidia Cangi,
Jonathan Gordon,
Jonathan Gordon,
Laure Bournez,
Laure Bournez,
Valerie Pinarello,
Valerie Pinarello,
Rosalie Aprelon,
Rosalie Aprelon,
Karine Huber,
Thierry Lefrancois,
Luis Neves,
Luis Neves,
Damien F MEYER,
Damien F MEYER,
Nathalie VACHIERY,
Nathalie VACHIERY

Affiliations

Nidia Cangi: CIRAD
Nidia Cangi: INRA
Nidia Cangi: Centro de Biotecnologia-UEM
Nidia Cangi: Université des Antilles
Jonathan Gordon: CIRAD
Jonathan Gordon: INRA
Laure Bournez: CIRAD
Laure Bournez: INRA
Valerie Pinarello: CIRAD
Valerie Pinarello: INRA
Rosalie Aprelon: CIRAD
Rosalie Aprelon: INRA
Karine Huber: INRA
Thierry Lefrancois: INRA
Luis Neves: Centro de Biotecnologia-UEM
Luis Neves: University of Pretoria
Damien F MEYER: CIRAD
Damien F MEYER: INRA
Nathalie VACHIERY: CIRAD
Nathalie VACHIERY: INRA

DOI: https://doi.org/10.3389/fcimb.2016.00111
Journal volume & issue: Vol. 6

Abstract

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The disease, Heartwater, caused by the Anaplasmataceae E. ruminantium, represents a major problem for tropical livestock and wild ruminants. Up to now, no effective vaccine has been available due to a limited cross protection of vaccinal strains on field strains and a high genetic diversity of E. ruminantium within geographical locations. To address this issue, we inferred the genetic diversity and population structure of 194 E. ruminantium isolates circulating worldwide using Multilocus Sequence Typing based on lipA, lipB, secY, sodB and sucA genes. Phylogenetic trees and networks were generated using BEAST and SplitsTree, respectively, and recombination between the different genetic groups was tested using the PHI test for recombination. Our study reveals the repeated occurrence of recombination between E. ruminantium strains, suggesting that it may occur frequently in the genome and and has likely played an important role in the maintenance of genetic diversity and the evolution of E. ruminantium. Despite the unclear phylogeny and phylogeography, E. ruminantium isolates are clustered into two main groups: Group 1 (West Africa) and a Group 2 (worldwide) which is represented by West, East and Southern Africa, Indian Ocean and Caribbean strains. Some sequence types are common between West Africa and Caribbean and between Southern Africa and Indian Ocean strains. These common sequence types highlight two main introduction events due to the movement of cattle: from West Africa to Caribbean and from Southern Africa to the Indian Ocean islands. Due to the long branch lengths between Group 1 and Group 2, and the propensity for recombination between these groups, it seems that the West African clusters of Subgroup 2 arrived there more recently than the original divergence of the two groups, possibly with the original waves of domesticated ruminants that spread across the African continent several thousand years ago.

Published in Frontiers in Cellular and Infection Microbiology

ISSN: 2235-2988 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Microbiology
Website: http://www.frontiersin.org/Cellular-and-Infection-Microbiology

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