Projects 14328-14329,14332-14361,14363-14399,14600-14628,14630-14671,14676

Cause: covid-19


These projects are part of Folding@home’s efforts to assist researchers around the world taking up the global fight against COVID-19.  At the time of release, this is the latest news update:

These projects are CPU projects to simulate COVID-19 proteins to learn about their dynamics and function. These supplement high-priority GPU projects of the main protease as well as the COVID-19 receptor binding domains. All can be considered potential drug targets.

Please stay tuned to for more current updates.

14300 series

COVID Moonshot designs -- see 

MLTN series 

MS0331 series 

MS0406 series 

MS0406-2 series 

MSBR series 

FEP method development and testing

14600 series - "72" 

14600 series - "AGG" 

14600 series - "387" 

Fragment HITS from DIAMOND

List of Contributors

This project is managed by Prof. Vincent Voelz at Temple University.

Dr. Voelz's research focuses on using new simulation methods to unravel the mysteries of how proteins self-assemble into their functional folds, and to design folding and binding properties of proteins and peptide mimetics from first principles. The Voelz Lab participates in the Folding@home project, hosting two servers at Temple University. Dr. Voelz was formerly a postdoctoral scholar in the Vijay Pande lab at Stanford University.

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