Author: Léa Joffrin; Steven M. Goodman; David A. Wilkinson; Beza Ramasindrazana; Erwan Lagadec; Yann Gomard; Gildas Le Minter; Andréa Dos Santos; M. Corrie Schoeman; Rajendraprasad Sookhareea; Pablo Tortosa; Simon Julienne; Eduardo S. Gudo; Patrick Mavingui; Camille Lebarbenchon
Title: Bat coronavirus phylogeography in the Western Indian Ocean Document date: 2019_9_4
ID: by4qwkla_20
Snippet: Although co-evolution could be the dominant mechanism, host-switching may take place The copyright holder for this preprint (which was not peer-reviewed) is the . https://doi.org/10.1101/742866 doi: bioRxiv preprint 13 decade, they were both detected in bats in Kenya, and in Ghana, Gabon, Kenya, and Zimbabwe, 279 respectively (4,6,38,39). Moreover, CoVs notably similar to both NL63 and 229E have been contact with contaminated environments such as.....
Document: Although co-evolution could be the dominant mechanism, host-switching may take place The copyright holder for this preprint (which was not peer-reviewed) is the . https://doi.org/10.1101/742866 doi: bioRxiv preprint 13 decade, they were both detected in bats in Kenya, and in Ghana, Gabon, Kenya, and Zimbabwe, 279 respectively (4,6,38,39). Moreover, CoVs notably similar to both NL63 and 229E have been contact with contaminated environments such as bat guano may also increase infection risk.
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