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Slowed Diffusion and Excluded Volume Both Contribute to the Effects of Macromolecular Crowding on Alcohol Dehydrogenase Steady-State Kinetics

Authors :
Kristin M. Slade
Schuyler P. Lockwood
Micaela A. LoConte
David J. Slade
Bridget E. Logan
Dominique I. Hargreaves
Michael J. Conroy
Samuel H. Schneider
Erin E. McLaughlin
Source :
Biochemistry. 54:5898-5906
Publication Year :
2015
Publisher :
American Chemical Society (ACS), 2015.

Abstract

To understand the consequences of macromolecular crowding, studies have largely employed in vitro experiments with synthetic polymers assumed to be both pure and "inert". These polymers alter enzyme kinetics by excluding volume that would otherwise be available to the enzymes, substrates, and products. Presented here is evidence that other factors, in addition to excluded volume, must be considered in the interpretation of crowding studies with synthetic polymers. Dextran has a weaker effect on the Michaelis-Menten kinetic parameters of yeast alcohol dehydrogenase (YADH) than its small molecule counterpart, glucose. For glucose, the decreased Vmax values directly correlate with slower translational diffusion and the decreased Km values likely result from enhanced substrate binding due to YADH stabilization. Because dextran is unable to stabilize YADH to the same extent as glucose, this polymer's ability to decrease Km is potentially due to the nonideality of the solution, a crowding-induced conformational change, or both. Chronoamperometry reveals that glucose and dextran have surprisingly similar ferricyanide diffusion coefficients. Thus, the reduction in Vmax values for glucose is partially offset by an additional macromolecular crowding effect with dextran. Finally, this is the first report that supplier-dependent impurities in dextran affect the kinetic parameters of YADH. Taken together, our results reveal that caution should be used when interpreting results obtained with inert synthetic polymeric agents, as additional effects from the underlying monomer need to be considered.

Details

ISSN :
15204995 and 00062960
Volume :
54
Database :
OpenAIRE
Journal :
Biochemistry
Accession number :
edsair.doi.dedup.....4a2d550b4b2dfade1f8d019804706bb0