Author: Janies, Daniel; Habib, Farhat; Alexandrov, Boyan; Hill, Andrew; Pol, Diego
Title: Evolution of genomes, host shifts and the geographic spread of SARSâ€CoV and related coronaviruses Cord-id: 9sofxhj7 Document date: 2008_2_16
ID: 9sofxhj7
Snippet: Severe acute respiratory syndrome (SARS) is a novel human illness caused by a previously unrecognized coronavirus (CoV) termed SARSâ€CoV. There are conflicting reports on the animal reservoir of SARSâ€CoV. Many of the groups that argue carnivores are the original reservoir of SARSâ€CoV use a phylogeny to support their argument. However, the phylogenies in these studies often lack outgroup and rooting criteria necessary to determine the origins of SARSâ€CoV. Recently, SARSâ€CoV has been isol
Document: Severe acute respiratory syndrome (SARS) is a novel human illness caused by a previously unrecognized coronavirus (CoV) termed SARSâ€CoV. There are conflicting reports on the animal reservoir of SARSâ€CoV. Many of the groups that argue carnivores are the original reservoir of SARSâ€CoV use a phylogeny to support their argument. However, the phylogenies in these studies often lack outgroup and rooting criteria necessary to determine the origins of SARSâ€CoV. Recently, SARSâ€CoV has been isolated from various species of Chiroptera from China (e.g., Rhinolophus sinicus) thus leading to reconsideration of the original reservoir of SARSâ€CoV. We evaluated the hypothesis that SARSâ€CoV isolated from Chiroptera are the original zoonotic source for SARSâ€CoV by sampling SARSâ€CoV and nonâ€SARSâ€CoV from diverse hosts including Chiroptera, as well as carnivores, artiodactyls, rodents, birds and humans. Regardless of alignment parameters, optimality criteria, or isolate sampling, the resulting phylogenies clearly show that the SARSâ€CoV was transmitted to small carnivores well after the epidemic of SARS in humans that began in late 2002. The SARSâ€CoV isolates from small carnivores in Shenzhen markets form a terminal clade that emerged recently from within the radiation of human SARSâ€CoV. There is evidence of subsequent exchange of SARSâ€CoV between humans and carnivores. In addition SARSâ€CoV was transmitted independently from humans to farmed pigs (Sus scrofa). The position of SARSâ€CoV isolates from Chiroptera are basal to the SARSâ€CoV clade isolated from humans and carnivores. Although sequence data indicate that Chiroptera are a good candidate for the original reservoir of SARSâ€CoV, the structural biology of the spike protein of SARSâ€CoV isolated from Chiroptera suggests that these viruses are not able to interact with the human variant of the receptor of SARSâ€CoV, angiotensinâ€converting enzyme 2 (ACE2). In SARSâ€CoV we study, both visually and statistically, labile genomic fragments and, putative key mutations of the spike protein that may be associated with host shifts. We display host shifts and candidate mutations on trees projected in virtual globes depicting the spread of SARSâ€CoV. These results suggest that more sampling of coronaviruses from diverse hosts, especially Chiroptera, carnivores and primates, will be required to understand the genomic and biochemical evolution of coronaviruses, including SARSâ€CoV. © The Willi Hennig Society 2008.
Search related documents:
Co phrase search for related documents- accession number and acute respiratory syndrome: 1, 2, 3
- acute respiratory syndrome and long branch: 1
Co phrase search for related documents, hyperlinks ordered by date