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UTA TODAY
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odd Castoe, associate professor of biology at The University of Texas at Arlington, has co-authored two papers regarding the COVID-19 virus and its origins. The first study, “Viral CpG deficiency provides no evidence that dogs were intermediate hosts of SARS-CoV-2,” was published in the July 13 edition Photo: UTA of the journal Molecular Biology and Evolution. It disputes the findings of an earlier study from another research group claiming that the coronavirus may have jumped from dogs to humans. The second is a study titled “Evolutionary origins of the SARS-CoV-2 sarbecovirus lineage responsible for the COVID-19 pandemic,” which was published in the July 28 edition of the journal Nature Microbiology. It reconstructs the evolutionary history of SARS-CoV-2, the virus responsible for the global COVID-19 crisis. Blair Perry, a Ph.D. student in Castoe’s lab, is among the coauthors of both papers. Castoe and David Pollock, professor of biochemistry and molecular genetics at the University of Colorado, are co-first authors of the Molecular Biology and Evolution academic paper and were joined by an international team of collaborators. The paper refutes an earlier study that concluded the coronavirus may have made the leap from dogs to humans.
“CONSIDERING the ramifications, scientists need to be particularly careful in interpreting findings and avoid rushing to conclusions that are not wellsupported by solid evidence. We need to get this right.” – Todd Castoe
CoV-2 is not justified by the available evidence, the researchers concluded. In the Nature Microbiology study, researchers traced the evolutionary history of the SARS-CoV-2 virus and discovered that its genetic lineage has been circulating in bats for decades and likely includes other viruses with the ability to infect humans. Their findings could help prevent future pandemics that stem from this lineage. “Understanding the origins of SARS-CoV-2 is a major priority because it may provide evidence for how and why this virus was transferred to humans, and how similar transfers to humans may be prevented in the future,” Castoe says. The team included scientists from the United States, Belgium, United Kingdom and China. They learned that the lineage of viruses to which SARS-CoV-2 belongs diverged from other bat viruses somewhere between 40-70 years ago. One trait that SARSCoV-2 shares with its relatives, the team found, is the receptor-binding domain located on the viral spike protein, which allows the virus to recognize and bind UTA biologist explores the origins of the coronavirus • By Greg Pederson to receptors on the surfaces of human cells. The researchers concluded that the existing diversity and the “Considering the ramifications, scientists need to be particularly recombination process among viruses in bats show how difficult it careful in interpreting findings and avoid rushing to conclusions will be to identify viruses with the potential to cause major outbreaks that are not well-supported by solid evidence,” Castoe says. “We in humans before they emerge. They state that effectively preventing need to get this right.” future pandemics will necessitate better sampling in wild bats and Castoe and his colleagues say that although the recent origin of the implementation of human disease surveillance systems that can SARS-CoV-2 is uncertain, the best current evidence suggests that it quickly identify novel pathogens in humans and make real-time was passed to humans by horseshoe bats or possibly pangolins, a kind response possible. of scaly anteater found in China. There is strong evidence that the Funding for the research was provided by the Medical Research virus has recently jumped between these animals or other intermediate Council, the European Research Council, the Research Foundation– hosts and humans. Flanders, and the National Natural Science Foundation of China. The proposition that dogs were likely recent ancestors of SARS-
CALIBRATING COVID
