Review

Nature Reviews Genetics 6, 678-687 (September 2005) | doi:10.1038/nrg1672

Missense meanderings in sequence space: a biophysical view of protein evolution

Mark A. DePristo1, Daniel M. Weinreich1 & Daniel L. Hartl1  About the authors

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Proteins are finicky molecules; they are barely stable and are prone to aggregate, but they must function in a crowded environment that is full of degradative enzymes bent on their destruction. It is no surprise that many common diseases are due to missense mutations that affect protein stability and aggregation. Here we review the literature on biophysics as it relates to molecular evolution, focusing on how protein stability and aggregation affect organismal fitness. We then advance a biophysical model of protein evolution that helps us to understand phenomena that range from the dynamics of molecular adaptation to the clock-like rate of protein evolution.

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Author affiliations

  1. Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, Massachusetts 02138, USA.

Correspondence to: Mark A. DePristo1 Email: mark_depristo@harvard.edu

Published online 2 August 2005

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