Abstract
Pressure dependence of protein electron transfer rate constant is discussed. The rate constant is given as a product of two factors; electronic factor (electron tunneling matrix) and nuclear factor (Franck−Condon factor). Pressure affects the rate through both of these two factors. We analyzed effects of pressure on these two factors individually. The pressure dependence of the electronic factor is discussed by considering the dependence of through-space gaps in the tunneling pathway model. The effect of pressure on the nuclear factor is discussed in terms of the Marcus expression of the Franck−Condon factor and the pressure dependence of the two parameters, reorganization energy λ and reaction free energy ΔG, in it. We show that the dependence of λ is generally smaller than that of ΔG. To obtain a more quantitative picture, we carry out an analysis of pressure dependence of through-space gaps and ΔG by normal mode simulation on cytochrome c. In light of the results of these analyses, some experimental re...
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