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      Theoretical volume profiles for conformational changes: Application to internal rotation of benzene ring in 1,12-dimethoxy-[12]-paracyclophane

      1 , 2 , 1 , 2
      The Journal of Chemical Physics
      AIP Publishing

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          Funnels, pathways, and the energy landscape of protein folding: a synthesis.

          The understanding, and even the description of protein folding is impeded by the complexity of the process. Much of this complexity can be described and understood by taking a statistical approach to the energetics of protein conformation, that is, to the energy landscape. The statistical energy landscape approach explains when and why unique behaviors, such as specific folding pathways, occur in some proteins and more generally explains the distinction between folding processes common to all sequences and those peculiar to individual sequences. This approach also gives new, quantitative insights into the interpretation of experiments and simulations of protein folding thermodynamics and kinetics. Specifically, the picture provides simple explanations for folding as a two-state first-order phase transition, for the origin of metastable collapsed unfolded states and for the curved Arrhenius plots observed in both laboratory experiments and discrete lattice simulations. The relation of these quantitative ideas to folding pathways, to uniexponential vs. multiexponential behavior in protein folding experiments and to the effect of mutations on folding is also discussed. The success of energy landscape ideas in protein structure prediction is also described. The use of the energy landscape approach for analyzing data is illustrated with a quantitative analysis of some recent simulations, and a qualitative analysis of experiments on the folding of three proteins. The work unifies several previously proposed ideas concerning the mechanism protein folding and delimits the regions of validity of these ideas under different thermodynamic conditions.
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            Some applications of the transition state method to the calculation of reaction velocities, especially in solution

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              Variational Transition State Theory

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                Author and article information

                Journal
                The Journal of Chemical Physics
                The Journal of Chemical Physics
                AIP Publishing
                0021-9606
                1089-7690
                March 14 2017
                March 14 2017
                : 146
                : 10
                : 104107
                Affiliations
                [1 ]Department of Chemistry, Simon Fraser University, Burnaby, British Columbia V5A 1S6, Canada
                [2 ]Department of Chemistry, University of the Fraser Valley, Abbotsford, British Columbia V2S 7M8, Canada
                Article
                10.1063/1.4977732
                0bdff2d1-db51-438c-8fe7-24edddbcf2bd
                © 2017
                History

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