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Literature DB >> 26266736

Salt-Induced Universal Slowing Down of the Short-Time Self-Diffusion of a Globular Protein in Aqueous Solution.

Marco Grimaldo^1,2, Felix Roosen-Runge¹, Marcus Hennig^1,2, Fabio Zanini², Fajun Zhang², Michaela Zamponi^3,4, Niina Jalarvo^3,5, Frank Schreiber², Tilo Seydel¹.

Abstract

The short-time self-diffusion D of the globular model protein bovine serum albumin in aqueous (D2O) solutions has been measured comprehensively as a function of the protein and trivalent salt (YCl3) concentration, noted cp and cs, respectively. We observe that D follows a universal master curve D(cs,cp) = D(cs = 0,cp) g(cs/cp), where D(cs = 0,cp) is the diffusion coefficient in the absence of salt and g(cs/cp) is a scalar function solely depending on the ratio of the salt and protein concentration. This observation is consistent with a universal scaling of the bonding probability in a picture of cluster formation of patchy particles. The finding corroborates the predictive power of the description of proteins as colloids with distinct attractive ion-activated surface patches.

Entities: Chemical Species

Keywords: cluster formation; neutron spectroscopy; protein dynamics; self-assembly; “patchy” colloids

Mesh：

Substances：

Year: 2015 PMID： 26266736 DOI： 10.1021/acs.jpclett.5b01073

Source DB: PubMed Journal: J Phys Chem Lett ISSN： 1948-7185 Impact factor: 6.475

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Cited

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6. Short-Time Transport Properties of Bidisperse Suspensions of Immunoglobulins and Serum Albumins Consistent with a Colloid Physics Picture.

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