Hallucination of closed repeat proteins containing central pockets

An, Linna; Hicks, Derrick R.; Zorine, Dmitri; Dauparas, Justas; Wicky, Basile I. M.; Milles, Lukas F.; Courbet, Alexis; Bera, Asim K.; Nguyen, Hannah; Kang, Alex; Carter, Lauren; Baker, David

doi:10.1038/s41594-023-01112-6

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Hallucination of closed repeat proteins containing central pockets

An, L., Hicks, D. R., Zorine, D., Dauparas, J., Wicky, B. I. M., Milles, L. F., et al. (2023). Hallucination of closed repeat proteins containing central pockets. Nature Structural & Molecular Biology, 30(11), 1755-1760. doi:10.1038/s41594-023-01112-6.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000F-8405-6 Version Permalink: https://hdl.handle.net/21.11116/0000-0010-4029-8

Genre: Journal Article

Alternative Title : Nature Structural & Molecular Biology

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Creators:
An, Linna¹, Author
Hicks, Derrick R.¹, Author
Zorine, Dmitri¹, Author
Dauparas, Justas¹, Author
Wicky, Basile I. M.¹, Author
Milles, Lukas F.², Author
Courbet, Alexis¹, Author
Bera, Asim K.¹, Author
Nguyen, Hannah¹, Author
Kang, Alex¹, Author
Carter, Lauren¹, Author
Baker, David¹, Author

Affiliations:
1external, ou_persistent22
2University of Washington, External Organizations, ou_3597017

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Free keywords: Protein folding, Proteins

Abstract: In pseudocyclic proteins, such as TIM barrels, β barrels, and some helical transmembrane channels, a single subunit is repeated in a cyclic pattern, giving rise to a central cavity that can serve as a pocket for ligand binding or enzymatic activity. Inspired by these proteins, we devised a deep-learning-based approach to broadly exploring the space of closed repeat proteins starting from only a specification of the repeat number and length. Biophysical data for 38 structurally diverse pseudocyclic designs produced in Escherichia coli are consistent with the design models, and the three crystal structures we were able to obtain are very close to the designed structures. Docking studies suggest the diversity of folds and central pockets provide effective starting points for designing small-molecule binders and enzymes.

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Dates: Date issued: 2023

Publication Status: Issued

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Identifiers: DOI: 10.1038/s41594-023-01112-6
URI: https://www.nature.com/articles/s41594-023-01112-6.pdf

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Title: Nature Structural & Molecular Biology

Alternative Title : Nat Struct Mol Biol

Source Genre: Journal

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Pages: - Volume / Issue: 30 (11) Sequence Number: - Start / End Page: 1755 - 1760 Identifier: ISBN: 1545-9985