2015
DOI: 10.1039/c5cp04463d
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How fluorescent labelling alters the solution behaviour of proteins

Abstract: A complete understanding of the role of molecular anisotropy in directing the self assembly of colloids and proteins remains a challenge for soft matter science and biophysics. For proteins in particular, the complexity of the surface at a molecular level poses a challenge for any theoretical and numerical description. A soft matter approach, based on patchy models, has been useful in describing protein phase behaviour. In this work we examine how chemical modification of the protein surface, by addition of a … Show more

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Cited by 52 publications
(49 citation statements)
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“…121 Consequently, the characterization of the phase behavior of protein solutions is mainly based on interactions with visible light that can be measured with common laboratory equipment and that provide insight into average properties. 21,[122][123][124] A recent review of the physics of protein self-assembly in the bulk is given in ref.…”
Section: Patchy Proteinsmentioning
confidence: 99%
“…121 Consequently, the characterization of the phase behavior of protein solutions is mainly based on interactions with visible light that can be measured with common laboratory equipment and that provide insight into average properties. 21,[122][123][124] A recent review of the physics of protein self-assembly in the bulk is given in ref.…”
Section: Patchy Proteinsmentioning
confidence: 99%
“…Because many known cataractogenic mutations of γ -crystallins involve changes of residue charge, it is natural to study the protonation configuration probability distributions in detail. While many models of orientation-dependent protein-protein interactions have been developed at various levels of coarse graining [36,11,132134], some of which incorporate charge regulation, including models for lysozyme interactions [46,132,135,136] and for gamma crystallin interactions [52,88,137], achieving the degree of fine graining for the more predictive modeling needed in many contexts remains an outstanding challenge [19]. …”
Section: Probability Distributions Of Protonation Patternsmentioning
confidence: 99%
“…Heteroprotein complex coacervation is fully reversible when the balance of attractive and repulsive forces deviates from optimum conditions that constitute an essential property with delivery system perspective in mind. Constrained structural feature and surface charge anisotropy (surface charge density, size and shape of the patches) orient the interactions to specific domains on the surface of the proteins [14,15]. This constitutes specificities compared to complex coacervation involving polyelectrolytes and explain for a part that the (+/-) stoichiometry is not a sufficient condition for heteroprotein coacervation.…”
Section: Introductionmentioning
confidence: 96%