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Literature DB >> 24432153

A model of epigenetic evolution based on theory of open quantum systems.

Masanari Asano¹, Irina Basieva², Andrei Khrennikov², Masanori Ohya¹, Yoshiharu Tanaka¹, Ichiro Yamato³.

Abstract

We present a very general model of epigenetic evolution unifying (neo-)Darwinian and (neo-)Lamarckian viewpoints. The evolution is represented in the form of adaptive dynamics given by the quantum(-like) master equation. This equation describes development of the information state of epigenome under the pressure of an environment. We use the formalism of quantum mechanics in the purely operational framework. (Hence, our model has no direct relation to quantum physical processes inside a cell.) Thus our model is about probabilities for observations which can be done on epigenomes and it does not provide a detailed description of cellular processes. Usage of the operational approach provides a possibility to describe by one model all known types of cellular epigenetic inheritance.

Keywords: Cellular epigenetic evolution; Epigenetic markers; Neo-Darwinism; Neo-Lamarckism; Open quantum systems; Quantum-like operational model

Year: 2013 PMID： 24432153 PMCID： PMC3824820 DOI： 10.1007/s11693-013-9109-3

Source DB: PubMed Journal: Syst Synth Biol ISSN： 1872-5325

18 in total

A model of epigenetic evolution based on theory of open quantum systems.

1. A quantum mechanical model of adaptive mutation.

Review 2. Epigenetics: the flowers that come in from the cold.

3. The molecular and mathematical basis of Waddington's epigenetic landscape: a framework for post-Darwinian biology?

4. Quantum-like interference effect in gene expression: glucose-lactose destructive interference.

5. Quantum-like formalism for cognitive measurements.

6. Experimental test of quantum contextuality in neutron interferometry.

7. A quantum-theoretical approach to the phenomenon of directed mutations in bacteria (hypothesis).

8. Punctuated equilibrium comes of age.

9. Quantum-like model of diauxie in Escherichia coli: operational description of precultivation effect.

Review 10. Evolution of microbes and viruses: a paradigm shift in evolutionary biology?

1. Comment on Masanari Asano et al.: A model of epigenetic evolution based on theory of open quantum systems.

2. Cognition, Information Fields and Hologenomic Entanglement: Evolution in Light and Shadow.

3. The Unicellular State as a Point Source in a Quantum Biological System.

4. State Entropy and Differentiation Phenomenon.

5. Spreading of Competing Information in a Network.

6. Non-Hermitian Operator Modelling of Basic Cancer Cell Dynamics.