Full Genome Sequences From Malagasy Fruit Bats Define a Unique Evolutionary History for This Coronavirus Clade

Overview

Journal Front Public Health

Specialty Public Health

Date 2022 Feb 28

PMID 35223729

Authors

Gwenddolen Kettenburg

Amy Kistler

Hafaliana Christian Ranaivoson

Vida Ahyong

Angelo Andrianiaina

Santino Andry

Joseph L DeRisi

Anecia Gentles

Vololoniaina Raharinosy

Tsiry Hasina Randriambolamanantsoa

Ny Anjara Fifi Ravelomanantsoa

Cristina M Tato

Philippe Dussart

Jean-Michel Heraud

Cara E Brook

Affiliations

Soon will be listed here.

Abstract

Bats are natural reservoirs for both - and and the hypothesized original hosts of five of seven known zoonotic coronaviruses. To date, the vast majority of bat coronavirus research has been concentrated in Asia, though coronaviruses are globally distributed; indeed, SARS-CoV and SARS-CoV-2-related in the subgenus have been identified circulating in bats in both Africa and Europe, despite the relative dearth of surveillance in these regions. As part of a long-term study examining the dynamics of potentially zoonotic viruses in three species of endemic Madagascar fruit bat (), we carried out metagenomic Next Generation Sequencing (mNGS) on urine, throat, and fecal samples obtained from wild-caught individuals. We report detection of RNA derived from subgenus in fecal samples from all three species and describe full genome sequences of novel in and . Phylogenetic analysis indicates the existence of five distinct clades, one of which is defined by the highly divergent ancestral sequence reported here from bats. Madagascar derived from and demonstrate, respectively, Asian and African phylogeographic origins, mirroring those of their fruit bat hosts. Bootscan recombination analysis indicates significant selection has taken place in the spike, nucleocapsid, and NS7 accessory protein regions of the genome for viruses derived from both bat hosts. Madagascar offers a unique phylogeographic nexus of bats and viruses with both Asian and African phylogeographic origins, providing opportunities for unprecedented mixing of viral groups and, potentially, recombination. As fruit bats are handled and consumed widely across Madagascar for subsistence, understanding the landscape of potentially zoonotic coronavirus circulation is essential for mitigation of future zoonotic threats.

Citing Articles

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