Discrete Orientations of Interfacial Waters Direct Crystallization of Mica-Binding Proteins

Understanding the basis of templated molecular assembly on a solid surface requires a fundamental comprehension of both short- and long-range aqueous response to the surface under a variety of solution conditions. Herein we provide a detailed picture of how the molecular-scale response to different...

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Bibliographic Details
Published in:The journal of physical chemistry letters 2023-01, Vol.14 (1), p.80-87
Main Authors: Alberstein, Robert G., Prelesnik, Jesse L., Nakouzi, Elias, Zhang, Shuai, De Yoreo, James J., Pfaendtner, Jim, Tezcan, F. Akif, Mundy, Christopher J.
Format: Article
Language:English
Subjects:
Carrier Proteins
Crystallization
Microscopy, Atomic Force
Minerals
Physical Insights into Chemistry, Catalysis, and Interfaces
Solvents
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Summary:Understanding the basis of templated molecular assembly on a solid surface requires a fundamental comprehension of both short- and long-range aqueous response to the surface under a variety of solution conditions. Herein we provide a detailed picture of how the molecular-scale response to different mica surfaces yields distinct solvent orientations that produce quasi-static directional potentials onto which macromolecules can adsorb. We connect this directionality to observed (a)­symmetric epitaxial alignment of designed proteins onto these surfaces, corroborate our findings with 3D atomic force microscopy experiments, and identify slight differences in surface structure as the origin of this effect. Our work provides a detailed picture of the intrinsic electrolyte response in the vicinity of mineral interfaces, with clear predictions for experiment, and highlights the role of solvent on the predictive assembly of hierarchical materials on mineral surfaces.
ISSN:1948-7185
1948-7185
DOI:10.1021/acs.jpclett.2c02948