Nonequivalence of Second Virial Coefficients from Sedimentation Equilibrium and Static Light Scattering Studies of Protein Solutions

Overview

Journal Biophys Chem

Specialty Biochemistry

Date 2007 Mar 27

PMID 17382457

Citations 21

Authors

Donald J Winzor

Marcin Deszczynski

Stephen E Harding

Peter R Wills

Affiliations

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Abstract

Experimental data for ovalbumin and lysozyme are presented to highlight the nonequivalence of second virial coefficients obtained for proteins by sedimentation equilibrium and light scattering. Theoretical considerations confirm that the quantity deduced from sedimentation equilibrium distributions is B(22), the osmotic second virial coefficient describing thermodynamic nonideality arising solely from protein self-interaction. On the other hand, the virial coefficient determined by light scattering is shown to reflect the combined contributions of protein-protein and protein-buffer interactions to thermodynamic nonideality of the protein solution. Misidentification of the light scattering parameter as B(22) accounts for published reports of negative osmotic second virial coefficients as indicators of conditions conducive to protein crystal growth. Finally, textbook assertions about the equivalence of second virial coefficients obtained by sedimentation equilibrium and light scattering reflect the restriction of consideration to single-solute systems. Although sedimentation equilibrium distributions for buffered protein solutions are, indeed, amenable to interpretation in such terms, the same situation does not apply to light scattering measurements because buffer constituents cannot be regarded as part of the solvent: instead they must be treated as non-scattering cosolutes.

Citing Articles

Experimental support for reclassification of the light scattering second virial coefficient from macromolecular solutions as a hydrodynamic parameter.

Winzor D, Dinu V, Scott D, Harding S Eur Biophys J. 2023; 52(4-5):343-352.

PMID: 37460663 PMC: 10444693. DOI: 10.1007/s00249-023-01665-w.

Retrospective rationalization of disparities between the concentration dependence of diffusion coefficients obtained by boundary spreading and dynamic light scattering.

Winzor D, Dinu V, Scott D, Harding S Eur Biophys J. 2023; 52(4-5):333-342.

PMID: 37414903 PMC: 10444695. DOI: 10.1007/s00249-023-01664-x.

Quantifying the concentration dependence of sedimentation coefficients for globular macromolecules: a continuing age-old problem.

Winzor D, Dinu V, Scott D, Harding S Biophys Rev. 2021; 13(2):273-288.

PMID: 33936319 PMC: 8046895. DOI: 10.1007/s12551-021-00793-x.

Quantifying Protein-Protein Interactions in Molecular Simulations.

Jost Lopez A, Quoika P, Linke M, Hummer G, Kofinger J J Phys Chem B. 2020; 124(23):4673-4685.

PMID: 32379446 PMC: 7294537. DOI: 10.1021/acs.jpcb.9b11802.

Experimental determination of second virial coefficients by small-angle X-ray scattering: a problem revisited.

Mrozowich T, Winzor D, Scott D, Patel T Eur Biophys J. 2019; 48(8):781-787.

PMID: 31667558 DOI: 10.1007/s00249-019-01404-0.