Michael Fundator

United States

Title: Various types of quantum coherence in biological systems implies scale dependence of spatio-temporal coherance

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Biography

Michael Fundator has completed his Alma mater at Rutgers University of New Jersey, USA. He became a winner of World Championship Award in Multidimensional Time Model last year. He has published more than 20 papers in reputed journals and has been serving as an editorial board member of American Journal of Theoretical and Applied Statistics and Journal of Mathematics of Scientific Research Group.

In the last 3 years I chaired 6 Sessions, made 25 Presentations at different International, National, and Local Conferences, and in the past 3 years published 25 Articles including 6 Papers with National Academy Press.

Abstract

Applications of magnetic field on proteins random walk shows various types of quantum coherence implying large scale intensity in biomolecular systems versus expectable quantum tunneling effects in biomolecular interactions and electron transfer reactions. Transfer in application of quantum type principles from different theories of rate of chemical reactions to proteins based on still undecidable principal approaches to  the problems in investigation of proteins, DNA, and RNA structures including statistical properties of structure or sequence of bases of DNA and RNA, Ergodic properties of the protein shapes leading to be much more likely ball-like, and Entropy properties due to the energy barrier in protein folding. Eighty years after Kramers introduction of Fokker-Plank SDE to rate coefficients of chemical reactions the application was extended to 1D, 2D, and multidimensional approaches to many branches of physics, chemistry, engineering, and biology with interest to the rate of translation and transcription of DNA and RNA that are part of investigation in drug discovery. After application of quantum like concepts to the rate of translation and transcription, the extension of application of quantum mechanics principles to proteins followed. Specific properties of bifurcation of magnetic fields that arise in bifurcations of discrete or continuous dynamical systems depend on whether the dynamics is dissipative, conservative, or reversible considering period of rotation number, stability, and other properties of dynamics. This allows to consider system of multiple dynamical like systems of coupled harmonic oscillators that could be considered quantum coherence like effects implying large scale intensity in biomolecular systems.