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Publication: A protein dynamics study of Photosystem II; the effects of protein conformation on reaction center function.

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Title A protein dynamics study of Photosystem II; the effects of protein conformation on reaction center function.
Authors/Editors* Vasil'ev, S. and Bruce, D.
Where published* Biophys. J.
How published* Journal
Year* 2006
Volume 90
Number -1
Pages 3062-3073
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Abstract
ABSTRACT Molecular dynamics simulations have been performed to study photosystem II structure and function. Structural information obtained from simulations was combined with ab initio computations of chromophore excited states. In contrast to calculations based on the x-ray structure, the molecular-dynamics-based calculations accurately predicted the experimental absorbance spectrum. In addition, our calculations correctly assigned the energy levels of reaction-center (RC) chromophores, as well as the lowest-energy antenna chlorophyll. The primary and secondary quinone electron acceptors, QA and QB, exhibited independent changes in position over the duration of the simulation. QB fluctuated between two binding sites similar to the proximal and distal sites previously observed in light- and dark-adapted RC from purple bacteria. Kinetic models were used to characterize the relative influence of chromophore geometry, site energies, and electron transport rates on RC efficiency. The fluctuating energy levels of antenna chromophores had a larger impact on quantum yield than did their relative positions. Variations in electron transport rates had the most significant effect and were sufficient to explain the experimentally observed multi-component decay of excitation in photosystem II. The implications of our results are discussed in the context of competing evolutionary selection pressures for RC structure and function.
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