Crystallization of asymmetric patchy models for globular proteins in solution.
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2013-07
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Asymmetric patchy particle models have recently been shown to describe the crystallization of small globular proteins with near-quantitative accuracy. Here, we investigate how asymmetry in patch geometry and bond energy generally impacts the phase diagram and nucleation dynamics of this family of soft matter models. We find the role of the geometry asymmetry to be weak, but the energy asymmetry to markedly interfere with the crystallization thermodynamics and kinetics. These results provide a rationale for the success and occasional failure of the proposal of George and Wilson for protein crystallization conditions as well as physical guidance for developing more effective protein crystallization strategies.
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Fusco, Diana, and Patrick Charbonneau (2013). Crystallization of asymmetric patchy models for globular proteins in solution. Phys Rev E Stat Nonlin Soft Matter Phys, 88(1). p. 012721. 10.1103/PhysRevE.88.012721 Retrieved from https://hdl.handle.net/10161/12613.
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Patrick Charbonneau
Patrick Charbonneau is Professor of Physics at Duke University. His research in soft matter and statistical physics uses theory and computer simulations to study glassy materials and frustrated systems. He also contributes to the history of science, curating projects on quantum and statistical physics as well as food history.
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