This viral protein is called the spike protein, depicted in red in the image below, and the receptor is known as ACE2. For both coronaviruses, the first step of infection occurs in the lungs, when a protein on the surface of the virus binds to a receptor protein on a lung cell. Takes Up The Fight Against COVID-19 2019-nCoV is a close cousin to SARS coronavirus (SARS-CoV), and acts in a similar way. Thousands of people contribute to the success of this project. As of today, the project is using the idle resources of personal computers owned by volunteers from all over the world. to BOINC, Stanford University's is a distributed computing project for disease research that simulates protein folding, computational drug design, and other types of molecular dynamics. Read more about the Rosetta Project and the Coronavirus here. One viral protein in particular - the spike protein - allows SARS-CoV-2 to fuse its membrane with those on human cells, leading to infection. Importantly, structural biologists are quickly gaining insights into what the proteins that make up this virus look like and how they function. Knowledge gained from studying this viral protein is now being used to guide the design of novel vaccines and antiviral drugs. Project's Role in Fighting Coronavirus We are happy to report that the Rosetta molecular modeling suite was recently used to accurately predict the atomic-scale structure of an important coronavirus protein weeks before it could be measured in the lab. By running the Rosetta program on your computer while you don't need it you will help us speed up and extend our research in ways we couldn't possibly attempt without your help. The Berkeley Open Infrastructure for Network Computing's (BOINC) project needs your help to determine the 3-dimensional shapes of proteins in research that may ultimately lead to finding cures for some major human diseases. Using your Unraid server for distributed computing, here are 2 ways to help researchers learn more about the 2019 Coronavirus (2019-nCoV): BOINC One easy way is by donating unused CPU or GPU computing power to help researchers better understand and hopefully develop a vaccine or antiviral for this terrible virus. With most of the world now facing the horrible, deadly affects of COVID-19 and with social distancing, quarantines and large scale shutdowns in effect, it's easy to wonder how the average person can help out in this great time of need.
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