Foldit Puzzles
Play puzzles to help scientific research and compete with other players. New puzzles are posted every week.
-
Closed since over 4 years agoDesign a D2 symmetric protein tetramer, with 4 identical chains of 60 residues each! Unlike the cyclical C4 symmetry that we are used to, the proteins in this puzzle will come together as a "dimer of dimers" with D2 symmetry. This puzzle enables AlphaFold predictions for the monomer subunit of your design, so you can upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your monomer subunit only (i.e. in the unbound state, in the absence of other symmetric copies). If you load this prediction, then Foldit will attempt to align the prediction with your solution. If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the monomer subunit interacts with symmetric copies.
-
Design a protein that can bind to CD47! This puzzle enables AlphaFold predictions for your designed binder. Once you've designed a binder for the target, upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your binder chain only (i.e. in the unbound state, in the absence of the target). If you load this prediction, then Foldit will attempt to align the prediction with your solution (i.e. in the bound state, making an interface with the target). If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the binder interacts with the target.
-
This sandbox puzzle features four diverse designs created by spvincent and ichwilldiesennamen in Puzzle 2027. Reset the puzzle to cycle through the different starting structures, or load solutions from Puzzle 2027 to continue previous work. New solutions from this puzzle will be examined by Foldit scientists and outstanding designs may be highlighted as the next Design of the Month! For more, check out Foldit Lab Report #24 on YouTube! This sandbox puzzle is non-competitive and will not award any points.
-
Closed
since
over 4 years
ago
This is a throwback puzzle to the early days of Foldit. This toxin, produced by the Chinese cobra N. atra, induces contracture in skeletal and cardiac muscle. This protein contains eight cysteine residues 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.
-
Closed since over 4 years ago
Design a symmetric protein tetramer, with 4 identical chains of 90 residues each! This puzzle enables AlphaFold predictions for the monomer subunit of your design, so you can upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your monomer subunit only (i.e. in the unbound state, in the absence of other symmetric copies). If you load this prediction, then Foldit will attempt to align the prediction with your solution. If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the monomer subunit interacts with symmetric copies.
-
Closed
since
over 4 years
ago
Design a protein that can bind to the TGF-beta receptor! This puzzle enables AlphaFold predictions for your designed binder. Once you've designed a binder for the target, upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your binder chain only (i.e. in the unbound state, in the absence of the target). If you load this prediction, then Foldit will attempt to align the prediction with your solution (i.e. in the bound state, making an interface with the target). If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the binder interacts with the target.
-
Closed
since
over 4 years
ago
This is a throwback puzzle to the early days of Foldit. This toxin, produced by the Mozambique spitting cobra, induces contracture in skeletal and cardiac muscle. This protein contains eight cysteine residues, which 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.
-
Closed since over 4 years ago
Design a symmetric protein tetramer, with 4 identical chains of 70 residues each! This puzzle enables AlphaFold predictions for the monomer subunit of your design, so you can upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your monomer subunit only (i.e. in the unbound state, in the absence of other symmetric copies). If you load this prediction, then Foldit will attempt to align the prediction with your solution. If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the monomer subunit interacts with symmetric copies.
-
Design a protein that can bind to CD47! This puzzle enables AlphaFold predictions for your designed binder. Once you've designed a binder for the target, upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your binder chain only (i.e. in the unbound state, in the absence of the target). If you load this prediction, then Foldit will attempt to align the prediction with your solution (i.e. in the bound state, making an interface with the target). If you continue working off of the AlphaFold prediction, you may need to make adjustments at the interface where the binder interacts with the target.
-
Closed
since
over 4 years
ago
This is a throwback puzzle to the early days of Foldit. This protein, which inhibits muscle contraction in the absence of calcium ions, changes conformation in the presence of calcium to allow muscle contraction. We are revisiting old Foldit puzzles so we can see how useful the recent additions to the game have been.