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Mesophysical Anticipatory Cell Behavior - Enroute to Quantum and Classical Nanobiology

p. 382-401

Abstract

Recent experiments showed that genomes in their evolutionary changes follow real molecular strategies leading to biological evolution through mutations that are not small, rare and random as is taught by Darwinian theory. This mesoscopic anticipatory behavior is here interpreted as evolutionary classical/quantum chaos mesoscopic information processing and through the coupling of electronic and mechanical degrees of freedom giving rise to the syntax <=> semantics <=> pragmatics closed loop as a dissipative evolutionary chain capable of overcoming logic self-reference paradoxes just through dissipation, and embodying the notion of biological information as inseparable from biological intelligence. A Quantum Field Theory of bio-mesoscopic subcellular structures as "extended objects" is proposed, so as to link micro- and mesophysical subcellular processes to the vacuum structure and fluctuations.

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References

Bibliographical reference

Salvatore Santoli, « Mesophysical Anticipatory Cell Behavior - Enroute to Quantum and Classical Nanobiology », CASYS, 10 | 2001, 382-401.

Electronic reference

Salvatore Santoli, « Mesophysical Anticipatory Cell Behavior - Enroute to Quantum and Classical Nanobiology », CASYS [Online], 10 | 2001, Online since 10 July 2024, connection on 27 December 2024. URL : http://popups.uliege.be/3041-539x/index.php?id=1332

Author

Salvatore Santoli

INT - International Nanobiological Testbed Ltd., Mail Contact: via A. Zotti 86, I-00121 Rome, Italy

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