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W2340902263 abstract "Abstract Various biological processes involve the conversion of energy into forms that are usable for chemical transformations and are quantum mechanical in nature. Such processes involve light absorption, excited electronic states formation, excitation energy transfer, electrons and protons tunnelling which for example occur in photosynthesis, cellular respiration, DNA repair and possibly magnetic field sensing. Quantum biology uses computation to model biological interactions in light of quantum mechanical effects and has primarily developed over the past decade as a result of convergence between quantum physics and biology. In this paper we consider electron transfer in biological processes, from a theoretical view-point; namely in terms of quantum mechanical and semi-classical models. We systematically characterize the interactions between the moving electron and its biological environment to deduce the driving force for the electron transfer reaction and to establish those interactions that play the major role in propelling the electron. The suggested approach is seen as a general recipe to treat electron transfer events in biological systems computationally and we utilize it to describe specifically the electron transfer reactions in Arabidopsis thaliana cryptochrome–a signaling photoreceptor protein that became attractive recently due to its possible function as a biological magnetoreceptor." @default.
W2340902263 created "2016-06-24" @default.
W2340902263 creator A5005096983 @default.
W2340902263 creator A5005388816 @default.
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W2340902263 date "2015-12-22" @default.
W2340902263 modified "2023-10-03" @default.
W2340902263 title "Quantifying electron transfer reactions in biological systems: what interactions play the major role?" @default.
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W2340902263 doi "https://doi.org/10.1038/srep18446" @default.
W2340902263 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4686879" @default.
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W2340902263 hasPublicationYear "2015" @default.
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