Why SARS-CoV-2 Spread So Easily Among People?

Why SARS-CoV-2 Spread So Easily Among People? Researchers have identified microscopic features that may make this pathogen more infectious than the SARS virus and can serve as drug targets. With nearly 100,000 people infected with SARS-CoV-2 worldwide, researchers are racing to understand what makes it so easy to spread. Several genetic and structural analyses have identified a key feature of this virus— a protein on the surface—which may explain why it is so susceptible to infect human cells. Other groups are studying how SARS-CoV-2 enter human tissue. Both cellular receptors and viral proteins provide potential targets for drugs to block pathogens, but researchers say they are not yet certain. "Understanding the spread of the virus is key to control and future prevention," says David Veesler, a structural virologist at the University of Washington in Seattle, who released his team's findings on viral proteins on the biomedical preprint server bioRxiv on February 20. The SARS-CoV-2 spreads much easier than the virus that causes severe acute respiratory syndrome (SARS), also a coronavirus, and infects more than ten times as many people as SARS. Stinging intruder To infect cells, coronaviruses use a "spike" protein (S protein) to bind to the cell membrane, and the process is activated by specific cellular enzymes. Genomic analysis of this novel coronavirus showed that its peak protein was different from those of close relatives and showed that there was a site on this protein that was activated by a host cell enzyme called flynase. Li Hua, a structural biologist at Huazhong University of Science and Technology, said it was significant because Flynn proteases are present in a large number of human tissues, including the lung, liver, and small intestine, which means that the virus has the potential to attack multiple organs. Li said the findings could explain some of the symptoms observed in patients with SARS-CoV-2 infection, such as liver failure. On Feb. 23, Li and others collaborated on a viral genetic analysis report, which was released on ChinaXiv's preprinted server. He said SARS and other coronaviruses, which belong to the same family as the new virus, do not have Flynn protease activation sites. Gary Whittaker, a virologist at Cornell University in New York, said the Flynn protease activation site makes the virus enter cells in a very different way than SARS and may affect the stability of the virus and thus affect transmission. His team published another structural analysis of coronavirus peak proteins on bioRxiv on February 18. Several other groups have also identified this activation site and believe that it may enable the