2002
DOI: 10.1073/pnas.022387699
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Protein folding mediated by solvation: Water expulsion and formation of the hydrophobic core occur after the structural collapse

Abstract: The interplay between structure-search of the native structure and desolvation in protein folding has been explored using a minimalist model. These results support a folding mechanism where most of the structural formation of the protein is achieved before water is expelled from the hydrophobic core. This view integrates water expulsion effects into the funnel energy landscape theory of protein folding. Comparisons to experimental results are shown for the SH3 protein. After the folding transition, a near-nati… Show more

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Cited by 467 publications
(431 citation statements)
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“…18 This we have recently demonstrated in several examples, 7,8 including lattice and continuum (off-lattice) models as well as models with a rudimentary implicit-solvent treatment of desolvation barriers. 8,19 Thus, the inability of common Gō-like constructs to predict simple two-state folding/unfolding kinetics is not an artifact restricted only to lattice Gō models. Most likely, it is a fundamental problem arising from the additive nature of common Gō-like interaction schemes.…”
Section: Introductionmentioning
confidence: 99%
“…18 This we have recently demonstrated in several examples, 7,8 including lattice and continuum (off-lattice) models as well as models with a rudimentary implicit-solvent treatment of desolvation barriers. 8,19 Thus, the inability of common Gō-like constructs to predict simple two-state folding/unfolding kinetics is not an artifact restricted only to lattice Gō models. Most likely, it is a fundamental problem arising from the additive nature of common Gō-like interaction schemes.…”
Section: Introductionmentioning
confidence: 99%
“…Our analysis further indicates that these hydrogen bonding networks are extended by interfacial water (Figs. S2 and S3), which is known to facilitate the transition between different conformational states of proteins (34)(35)(36). Thus, interfacial water may allow the necessary sliding motion of ␣5 in its crevice.…”
Section: Coupling Between the R*/gt Interface And The Nucleotide Bindmentioning
confidence: 99%
“…In recent years, however, the role of water has been revealed to be far more active than just being an inert solvent (2). Water molecules at protein/water interfaces, dubbed "hydration water" or "interfacial water," have been shown not just to thermodynamically stabilize the native structure of biomacromolecules, but also to enhance their dynamical flexibility needed for efficient enzymatic catalysis and especially for the folding process that leads to the active structure of such molecules (4)(5)(6)(7). Solvation was shown to be a key feature for protein function (8), with the coupling between protein and water dynamics (9) as an important ingredient to understand protein folding and binding.…”
mentioning
confidence: 99%