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W3098713551 endingPage "20200567" @default.
W3098713551 startingPage "20200567" @default.
W3098713551 abstract "Quantum biology seeks to explain biological phenomena via quantum mechanisms, such as enzyme reaction rates via tunnelling and photosynthesis energy efficiency via coherent superposition of states. However, less effort has been devoted to study the role of quantum mechanisms in biological evolution. In this paper, we used transcription factor networks with two and four different phenotypes, and used classical random walks (CRW) and quantum walks (QW) to compare network search behaviour and efficiency at finding novel phenotypes between CRW and QW. In the network with two phenotypes, at temporal scales comparable to decoherence time TD, QW are as efficient as CRW at finding new phenotypes. In the case of the network with four phenotypes, the QW had a higher probability of mutating to a novel phenotype than the CRW, regardless of the number of mutational steps (i.e. 1, 2 or 3) away from the new phenotype. Before quantum decoherence, the QW probabilities become higher turning the QW effectively more efficient than CRW at finding novel phenotypes under different starting conditions. Thus, our results warrant further exploration of the QW under more realistic network scenarios (i.e. larger genotype networks) in both closed and open systems (e.g. by considering Lindblad terms)." @default.
W3098713551 created "2020-11-23" @default.
W3098713551 creator A5004451917 @default.
W3098713551 creator A5009926127 @default.
W3098713551 creator A5014626352 @default.
W3098713551 creator A5043345415 @default.
W3098713551 date "2020-11-01" @default.
W3098713551 modified "2023-10-17" @default.
W3098713551 title "Quantum aspects of evolution: a contribution towards evolutionary explorations of genotype networks via quantum walks" @default.
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W3098713551 doi "https://doi.org/10.1098/rsif.2020.0567" @default.
W3098713551 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7729038" @default.
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