Viscosity-dependent kinetics of protein conformational exchange: microviscosity effects and the need for a small viscogen.

Ashok Sekhar, Michael Latham, Pramodh Vallurupalli, Lewis E. Kay

Research output: Contribution to journalArticle


Conformational rearrangements are critical to a variety of biological processes including protein folding and misfolding, ligand binding, enzyme catalysis, and signal transduction. Viscosity-dependent kinetics measurements can provide crucial insights into the dynamics of protein conformational exchange by highlighting the relative importance of frictional forces derived from either solvent or from internal protein interactions in activating the exchange reaction. Here, we analyze the kinetics of interconversion between the native and intermediate states of the four helix bundle FF domain recorded in solutions containing the viscogens glycerol or bovine serum albumin (BSA), using the viscosity measured from the translational diffusion of probes of different sizes. In the large viscogen BSA, we demonstrate that vastly different internal friction values are obtained using the different viscosity measures, leading to conflicting interpretations of the role of solvent friction in the inte
Original languageEnglish
Pages (from-to)4546–51
JournalThe Journal of Physical Chemistry B
StatePublished - May 2014


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