Foldit Puzzles
Play puzzles to help scientific research and compete with other players. New puzzles are posted every week.
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Closed
since
over 2 years
ago
Compete in a challenge to design a drug targeting the SARS-CoV-2 helicase. Use the small molecule design tools and the compound library panel to find library compounds similar to the starting compound which bind to the active site of the enzyme.
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Closed
since
over 2 years
ago
The structure of this protein has already been solved and published, but close inspection suggests that there are some problems with the published solution. We'd like to see if Foldit players can use the same electron density data to reconstruct a better model.
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Closed
since
over 2 years
ago
This is a throwback puzzle to the early days of Foldit. This small toxin is produced from the funnel-web spider A. aperta, and induces paralysis in insects by blocking calcium channels. This protein contains eight cysteines that oxidize to form four disulfide bonds. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been and to provide newer players with easier puzzles that are still scientifically relevant.
-
Closed
since
over 2 years
ago
Compete in a challenge to design a drug targeting the SARS-CoV-2 helicase. Use the small molecule design tools and the compound library panel to find library compounds similar to the starting compound which bind to the active site of the enzyme.
-
Closed since over 2 years ago
The structure of this protein has already been solved and published, but close inspection suggests that there are some problems with the published solution. We'd like to see if Foldit players can use the same electron density data to reconstruct a better model. This one has a big protein chain and then two smaller protein chains as well. Also, it's pretty gigantic, so the Trim Tool is highly recommended.
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This is a throwback puzzle to the early days of Foldit. In the struggle for limited resources, some strains of the bacteria E. coli produce a potent toxin to fight off competing strains. This small immunity protein protects the aggressor E. coli from falling victim to its own toxin. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been, and to provide newer players with easier puzzles that are still scientifically relevant.
-
Closed
since
over 2 years
ago
Compete in a challenge to design a drug targeting the SARS-CoV-2 helicase. Use the small molecule design tools and the compound library panel to find library compounds similar to the starting compound which bind to the active site of the enzyme.
-
Closed
since
over 2 years
ago
The structure of this protein has already been solved and published, but close inspection suggests that there are some problems with the published solution. We'd like to see if Foldit players can use the same electron density data to reconstruct a better model. This one has two copies of the protein chain in the puzzle.
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Closed
since
over 2 years
ago
This is a throwback puzzle to the early days of Foldit. This protein is found on the surface of bacteriophage fd, a virus that infects E. coli. It is responsible for penetrating the cell membrane of the host bacteria, allowing virus to enter the cell. This protein contains four cysteines that oxidize to form two disulfide bonds. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been, and to provide newer players with easier puzzles that are still scientifically relevant.
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Closed
since
over 2 years
ago
The Crimean-Congo Hemorrhagic Fever (CCHF) is a life-threatening zoonotic disease caused by a tick-borne virus. Recent research has revealed the significant role of the viral-encoded Ovarian Tumor (OTU) deubiquitinase in the CCHFV replication process. Based on the most promising compounds, this puzzle will focus on getting an inhibitor for this protein. As the CCHFV-OTU protease interacts with another protein (ubiquitin), the interaction surface is quite large and superficial, making it a challenging binding pocket. For this round we will be focusing on the upper binding pocket. For more details check out the Crimean-Congo Hemorrhagic Fever blog post.