The remainder of the enzyme is important for maintaining its proper structure, folding, etc., but can be treated with a classical force field approach (MM). In the context of photosynthesis an interesting QM/MM application has recently appeared describing the catalytic cycle of the oxygen evolving complex in photosystem II (LCZ696 in vivo Sproviero et al. 2008, 2009, in this issue). Concluding remarks and outlook The development of embedding schemes, such as QM/MM, is particularly promising for the description of the catalytic reactions both in natural and artificial photosynthesis. The
frozen density embedding method is an example of a recent QM/QM embedding scheme which appears very interesting in this context (Neugebauer 2008). Ab initio MD and QM/MM simulations can be generalized to electronic excited states provided the excited-state PES can be predicted with reasonable accuracy. JNK-IN-8 research buy Methods for excited-state PES such as TD-DFT are quite promising in this respect, but more applications and accuracy assessment are needed. It can also be expected in the near future that new exchange-correlation functionals will be developed to improve the description eFT508 mouse of excited states and magnetic effects in multi-nuclear transition metal complexes (Herrmann et al. 2009). Another sector that has recently witnessed a considerable progress is the development of methods
for the prediction of free energy surfaces, such as the metadynamics approach (Laio and Parrinello 2002). In conclusion, available theoretical and computational approaches provide a crucial tool complementary to experimental data and are able to predict molecular properties and reaction pathways with fair accuracy, opening the possibility of in-silico design of novel catalysts. Theoretical and methodological developments are needed Org 27569 especially in the direction of multi-scale approaches possibly combining atomistic with mesoscopic scale simulations. Open Access This article is distributed under the terms of the Creative
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