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Published online before print February 27, 2008, 10.1110/ps.073105408
Protein Science (2008), 17:644-651. Published by Cold Spring Harbor Laboratory Press. Copyright © 2008 The Protein Society
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Side chain burial and hydrophobic core packing in protein folding transition states

Patrick J. Farber and Anthony Mittermaier

Department of Chemistry, McGill University, Montreal H3A 2K6, Canada

(RECEIVED July 3, 2007; FINAL REVISION July 3, 2007; ACCEPTED December 28, 2007)

A critical step in the folding pathway of globular proteins is the formation of a tightly packed hydrophobic core. Several mutational studies have addressed the question of whether tight packing interactions are present during the rate-limiting step of folding. In some of these investigations, substituted side chains have been assumed to form native-like interactions in the transition state when the folding rates of mutant proteins correlate with their native-state stabilities. Alternatively, it has been argued that side chains participate in nonspecific hydrophobic collapse when the folding rates of mutant proteins correlate with side-chain hydrophobicity. In a reanalysis of published data, we have found that folding rates often correlate similarly well, or poorly, with both native-state stability and side-chain hydrophobicity, and it is therefore not possible to select an appropriate transition state model based on these one-parameter correlations. We show that this ambiguity can be resolved using a two-parameter model in which side chain burial and the formation of all other native-like interactions can occur asynchronously. Notably, the model agrees well with experimental data, even for positions where the one-parameter correlations are poor. We find that many side chains experience a previously unrecognized type of transition state environment in which specific, native-like interactions are formed, but hydrophobic burial dominates. Implications of these results to the design and analysis of protein folding studies are discussed.

Keywords: protein folding; phi value analysis; hydrophobic core; hydrophobicity; side chain packing; mutagenesis


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