Quantum biology at the cellular level—Elements of the research program |
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Authors: | Michael Bordonaro Vasily Ogryzko |
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Institution: | 1. The Commonwealth Medical College, Scranton, PA, USA;2. CNRS UMR-8126, Universite Paris-sud 11, Institut de Cancerologie Gustave Roussy, Villejuif, France |
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Abstract: | Quantum biology is emerging as a new field at the intersection between fundamental physics and biology, promising novel insights into the nature and origin of biological order. We discuss several elements of QBCL (quantum biology at cellular level) – a research program designed to extend the reach of quantum concepts to higher than molecular levels of biological organization. We propose a new general way to address the issue of environmentally induced decoherence and macroscopic superpositions in biological systems, emphasizing the ‘basis-dependent’ nature of these concepts. We introduce the notion of ‘formal superposition’ and distinguish it from that of Schroedinger's cat (i.e., a superposition of macroscopically distinct states). Whereas the latter notion presents a genuine foundational problem, the former one contradicts neither common sense nor observation, and may be used to describe cellular ‘decision-making’ and adaptation. We stress that the interpretation of the notion of ‘formal superposition’ should involve non-classical correlations between molecular events in a cell. Further, we describe how better understanding of the physics of Life can shed new light on the mechanism driving evolutionary adaptation (viz., ‘Basis-Dependent Selection’, BDS). Experimental tests of BDS and the potential role of synthetic biology in closing the ‘evolvability mechanism’ loophole are also discussed. |
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Keywords: | QBMBL quantum biology at the molecular-biology level QBCL quantum biology at the cellular level EID environmentally induced decoherence BDS basis-dependent selection NS natural selection FT fluctuation trapping AML adaptive-mutation-like |
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