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2257: FMN Ligand Binder Design: Round 6

Closed since about 3 years ago

Intermediate Overall Design

Summary

Created
January 26, 2023
Expires
Max points
100
Description

Design a binding pocket for the FMN ligand! The Neural Net Objective awards a 2000 pt. bonus for AlphaFold predictions with both high confidence and high similarity to the current solution. After an AlphaFold prediction is complete, load the original or predicted structure from the AlphaFold panel to receive the bonus. You can continue to work on this solution, but the bonus will disappear if the similarity drops. Note that the table in the AlphaFold panel only displays the similarity of the original solution; the true similarity of your current solution is recalculated by the Neural Net Objective as you change its structure.

Once you've designed a binder for the target ligand, upload your solution for AlphaFold using the AlphaFold prediction tool. AlphaFold will predict the structure of your binder only (i.e. in the absence of the ligand). If you load this prediction, then Foldit will attempt to align the prediction with your solution. We are looking for designs where the raw AlphaFold prediction has a binding pocket that fits the ligand!

Flavin mononucleotide (FMN) is a naturally occurring molecule found across all kingdoms of life. It has a highly conjugated ring structure that readily accepts an extra electron, so FMN is often used by oxidizing/reducing enzymes to transfer electrons in the cell. The ring structure also makes FMN sensitive to visible light, and it is found in some light sensing proteins as well. We'd like to design a protein that can bind FMN and transfer electrons by absorbing light. The conjugated rings offer a large hydrophobic surface for tight binding, but FMN also has a lot of oxygen atoms that need to make H-bonds!

This puzzle starts with the backbone from LOV2, a natural FMN binder, with the ligand placed roughly in the correct position in the binding pocket. However, players may completely redesign the protein or reposition the ligand within the binding pocket. Try to design a binding pocket with high Contact Surface and zero BUNS! See the puzzle comments for Objective details.

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