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
almost 3 years
ago
Help us take on unexplored drug targets for brain cancer! While 1/3 of all approved drugs target G-protein-coupled receptors (GPCRs), many of these receptors remain without appropriate small molecule ligands. This is a field of growing interest with many untouched possibilities for therapeutics. The receptor GPR133 used in this puzzle (also known as ADGRD1) was identified by researchers as a critical regulator of the response to hypoxia, low levels of oxygen in bodily tissue, and tumor growth in glioblastoma, a malign and very aggressive type of brain cancer. The interest in developing therapeutics is very high, and no small-molecule (ligand) is known so far. The structure of GPR133 was determined last year and the discovery of ligands would help to create novel therapeutics. Normally a larger molecule like a peptide would be used, but we would like to design a small molecule to fit inside this binding site to understand the mechanism of the receptor.
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Closed since almost 3 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 four copies of the protein in it. It's not as gigantic as 2291, but still big enough that the Trim tool will probably be necessary.
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Closed
since
almost 3 years
ago
This is a throwback puzzle to the early days of Foldit. This storage protein is used to stockpile amino acids for future use, and is found at high concentration in the seeds of certain plants. This particular protein was used by scientists in 2011 to collect the highest-resolution crystal structure to date. This protein contains six cysteine residues that oxidize to form three disulfide bonds. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been.
-
Closed
since
almost 3 years
ago
Help us take on unexplored drug targets for brain cancer! While 1/3 of all approved drugs target G-protein-coupled receptors (GPCRs), many of these receptors remain without appropriate small molecule ligands. This is a field of growing interest with many untouched possibilities for therapeutics. The receptor GPR133 used in this puzzle (also known as ADGRD1) was identified by researchers as a critical regulator of the response to hypoxia, low levels of oxygen in bodily tissue, and tumor growth in glioblastoma, a malign and very aggressive type of brain cancer. The interest in developing therapeutics is very high, and no small-molecule (ligand) is known so far. The structure of GPR133 was determined last year and the discovery of ligands would help to create novel therapeutics. Normally a larger molecule like a peptide would be used, but we would like to design a small molecule to fit inside this binding site to understand the mechanism of the receptor.
-
Closed
since
almost 3 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 same protein in it.
-
Closed
since
almost 3 years
ago
Help us take on unexplored drug targets for brain cancer! While 1/3 of all approved drugs target G-protein-coupled receptors (GPCRs), many of these receptors remain without appropriate small molecule ligands. This is a field of growing interest with many untouched possibilities for therapeutics. The receptor GPR133 used in this puzzle (also known as ADGRD1) was identified by researchers as a critical regulator of the response to hypoxia, low levels of oxygen in bodily tissue, and tumor growth in glioblastoma, a malign and very aggressive type of brain cancer. The interest in developing therapeutics is very high, and no small-molecule (ligand) is known so far. The structure of GPR133 was determined last year and the discovery of ligands would help to create novel therapeutics. Normally a larger molecule like a peptide would be used, but we would like to design a small molecule to fit inside this binding site to understand the mechanism of the receptor.
-
Closed
since
almost 3 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. There's a lot of copies of the same protein here, making quite the protein architecture. Trim tool highly recommended!
-
Closed
since
almost 3 years
ago
This is a throwback puzzle to the early days of Foldit. This eelpout protein binds nucleated ice crystals to inhibit their growth. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been.
-
Closed
since
almost 3 years
ago
Help us take on unexplored drug targets for brain cancer! While 1/3 of all approved drugs target G-protein-coupled receptors (GPCRs), many of these receptors remain without appropriate small molecule ligands. This is a field of growing interest with many untouched possibilities for therapeutics. The receptor GPR133 used in this puzzle (also known as ADGRD1) was identified by researchers as a critical regulator of the response to hypoxia, low levels of oxygen in bodily tissue, and tumor growth in glioblastoma, a malign and very aggressive type of brain cancer. The interest in developing therapeutics is very high, and no small-molecule (ligand) is known so far. The structure of GPR133 was determined last year and the discovery of ligands would help to create novel therapeutics. Normally a larger molecule like a peptide would be used, but we would like to design a small molecule to fit inside this binding site to understand the mechanism of the receptor.
-
Closed
since
almost 3 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.