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The cofactor-dependent folding mechanism of Drosophila cryptochrome revealed by single-molecule pulling experiments

Sahar Foroutannejad, Lydia L. Good, Changfan Lin, Zachariah I. Carter, Mahlet G. Tadesse, Aaron L. Lucius, Brian R. Crane and Rodrigo A. Maillard ()
Additional contact information
Sahar Foroutannejad: Georgetown University
Lydia L. Good: Georgetown University
Changfan Lin: Cornell University
Zachariah I. Carter: University of Alabama at Birmingham
Mahlet G. Tadesse: Georgetown University
Aaron L. Lucius: University of Alabama at Birmingham
Brian R. Crane: Cornell University
Rodrigo A. Maillard: Georgetown University

Nature Communications, 2023, vol. 14, issue 1, 1-15

Abstract: Abstract The link between cofactor binding and protein activity is well-established. However, how cofactor interactions modulate folding of large proteins remains unknown. We use optical tweezers, clustering and global fitting to dissect the folding mechanism of Drosophila cryptochrome (dCRY), a 542-residue protein that binds FAD, one of the most chemically and structurally complex cofactors in nature. We show that the first dCRY parts to fold are independent of FAD, but later steps are FAD-driven as the remaining polypeptide folds around the cofactor. FAD binds to largely unfolded intermediates, yet with association kinetics above the diffusion-limit. Interestingly, not all FAD moieties are required for folding: whereas the isoalloxazine ring linked to ribitol and one phosphate is sufficient to drive complete folding, the adenosine ring with phosphates only leads to partial folding. Lastly, we propose a dCRY folding model where regions that undergo conformational transitions during signal transduction are the last to fold.

Date: 2023
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36701-y

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DOI: 10.1038/s41467-023-36701-y

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