Accurate Computational Design of Three-Dimensional Protein Crystals

Accurate Computational Design of Three-Dimensional Protein Crystals Publisher Pubmed

Li Z^{1, 2} ; Wang S^{1, 2} ; Nattermann U^{1, 2, 3} ; Bera AK^{1, 2} ; Borst AJ^{1, 2} ; Yaman MY⁴ ; Bick MJ^{1, 2} ; Yang EC^{1, 2, 3} ; Sheffler W^{1, 2} ; Lee B⁵ ; Seifert S⁵ ; Hura GL⁶ ; Nguyen H^{1, 2} ; Kang A^{1, 2} Show All Authors

Li Z^{1, 2}
Wang S^{1, 2}
Nattermann U^{1, 2, 3}
Bera AK^{1, 2}
Borst AJ^{1, 2}
Yaman MY⁴
Bick MJ^{1, 2}
Yang EC^{1, 2, 3}
Sheffler W^{1, 2}
Lee B⁵
Seifert S⁵
Hura GL⁶
Nguyen H^{1, 2}
Kang A^{1, 2}
Dalal R^{1, 2}
Lubner JM^{1, 2}
Hsia Y^{1, 2}
Haddox H^{1, 2}
Courbet A^{1, 2, 7}
Dowling Q^{1, 2}
Miranda M^{1, 2}
Favor A^{2, 8}
Etemadi A^{2, 9}
Edman NI^{1, 2, 10, 11}
Yang W^{1, 2}
Weidle C^{1, 2}
Sankaran B⁶
Negahdari B⁹
Ross MB¹²
Ginger DS⁴
Baker D^{1, 2, 7}

Show Affiliations

1. Department of Biochemistry, University of Washington, Seattle, WA, United States
2. Institute for Protein Design, University of Washington, Seattle, WA, United States
3. Graduate Program in Biological Physics, Structure & Design, University of Washington, Seattle, WA, United States
4. Department of Chemistry, University of Washington, Seattle, WA, United States
5. X-Ray Science Division, Advanced Photon Source, Argonne National Laboratory, Argonne, IL, United States
6. Molecular Biophysics and Integrated Bioimaging Division, Lawrence Berkeley National Laboratory, Berkeley, CA, United States
7. HHMI, University of Washington, Seattle, WA, United States
8. Molecular Engineering and Sciences Institute, University of Washington, Seattle, WA, United States
9. Medical Biotechnology Department, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences (TUMS), Tehran, Iran
10. Molecular and Cellular Biology Graduate Program, University of Washington, Seattle, WA, United States
11. Medical Scientist Training Program, University of Washington, Seattle, WA, United States
12. Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, United States

Source: Nature Materials Published:2023

Abstract

Protein crystallization plays a central role in structural biology. Despite this, the process of crystallization remains poorly understood and highly empirical, with crystal contacts, lattice packing arrangements and space group preferences being largely unpredictable. Programming protein crystallization through precisely engineered side-chain–side-chain interactions across protein–protein interfaces is an outstanding challenge. Here we develop a general computational approach for designing three-dimensional protein crystals with prespecified lattice architectures at atomic accuracy that hierarchically constrains the overall number of degrees of freedom of the system. We design three pairs of oligomers that can be individually purified, and upon mixing, spontaneously self-assemble into >100 µm three-dimensional crystals. The structures of these crystals are nearly identical to the computational design models, closely corresponding in both overall architecture and the specific protein–protein interactions. The dimensions of the crystal unit cell can be systematically redesigned while retaining the space group symmetry and overall architecture, and the crystals are extremely porous and highly stable. Our approach enables the computational design of protein crystals with high accuracy, and the designed protein crystals, which have both structural and assembly information encoded in their primary sequences, provide a powerful platform for biological materials engineering. © 2023, The Author(s), under exclusive licence to Springer Nature Limited.

2. Human Neutralizing Antibodies to Cold Linear Epitopes and Subdomain 1 of the Sars-Cov-2 Spike Glycoprotein, Science Immunology (2023)

Experts (# of related papers)

Mohammadali Ali Mazloumi (1)

Ali Etemadi (1)

Style	Citing Format
MLA	Li Z, et al.. "Accurate Computational Design of Three-Dimensional Protein Crystals." Nature Materials, vol. 22, no. 12, 2023, pp. 1556-1563.
APA	Li Z, Wang S, Nattermann U, Bera AK, Borst AJ, Yaman MY, Bick MJ, Yang EC, Sheffler W, Lee B, Seifert S, Hura GL, Nguyen H, Kang A, Dalal R, Lubner JM, Hsia Y, Haddox H, Courbet A, ... Baker D (2023). Accurate Computational Design of Three-Dimensional Protein Crystals. Nature Materials, 22(12), 1556-1563.
Chicago	Li Z, Wang S, Nattermann U, Bera AK, Borst AJ, Yaman MY, Bick MJ, et al.. "Accurate Computational Design of Three-Dimensional Protein Crystals." Nature Materials 22, no. 12 (2023): 1556-1563.
Harvard	Li Z et al. (2023) 'Accurate Computational Design of Three-Dimensional Protein Crystals', Nature Materials, 22(12), pp. 1556-1563.
Vancouver	Li Z, Wang S, Nattermann U, Bera AK, Borst AJ, Yaman MY, et al.. Accurate Computational Design of Three-Dimensional Protein Crystals. Nature Materials. 2023;22(12):1556-1563.
BibTex	@article{ author = {Li Z and Wang S and Nattermann U and Bera AK and Borst AJ and Yaman MY and Bick MJ and Yang EC and Sheffler W and Lee B and Seifert S and Hura GL and Nguyen H and Kang A and Dalal R and Lubner JM and Hsia Y and Haddox H and Courbet A and Dowling Q and Miranda M and Favor A and Etemadi A and Edman NI and Yang W and Weidle C and Sankaran B and Negahdari B and Ross MB and Ginger DS and Baker D}, title = {Accurate Computational Design of Three-Dimensional Protein Crystals}, journal = {Nature Materials}, volume = {22}, number = {12}, pages = {1556-1563}, year = {2023} }
RIS	TY - JOUR AU - Li Z AU - Wang S AU - Nattermann U AU - Bera AK AU - Borst AJ AU - Yaman MY AU - Bick MJ AU - Yang EC AU - Sheffler W AU - Lee B AU - Seifert S AU - Hura GL AU - Nguyen H AU - Kang A AU - Dalal R AU - Lubner JM AU - Hsia Y AU - Haddox H AU - Courbet A AU - Dowling Q AU - Miranda M AU - Favor A AU - Etemadi A AU - Edman NI AU - Yang W AU - Weidle C AU - Sankaran B AU - Negahdari B AU - Ross MB AU - Ginger DS AU - Baker D TI - Accurate Computational Design of Three-Dimensional Protein Crystals JO - Nature Materials VL - 22 IS - 12 SP - 1556 EP - 1563 PY - 2023 ER -

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