Water Bridging Dynamics of Polymerase Chain Reaction in the Gauge Theory Paradigm of Quantum Fields


" The result of our analysis is that in PCR amplification processes, and more generally in DNA-enzyme interactions, the spatial and temporal distributions of charges [1,2,17], interaction couplings, frequencies, amplitudes, and phase modulations [1,2] form a pattern of fields, that is to say, an electromagnetic (em) image of the DNA, in such a way that what the enzyme "sees" at long range, at the level of molecular biology, is such an em image of DNA in the surrounding water. The DNA and the enzyme "see" each other’s em images by exchanging quanta of the radiative dipole waves induced by their presence in the water molecular matrix, which thus acts effectively as a bridge between the two (of course, until they are sufficiently close for water exclusion and direct binding to occur)." {Credits 1}

{Credits 1} 🎪 Montagnier, L., Aïssa, J., Capolupo, A., Craddock, T. J., Kurian, P., Lavallee, C., ... & Vitiello, G. (2017). Water bridging dynamics of polymerase chain reaction in the gauge theory paradigm of quantum fields. Water, 9(5), 339. © 2017 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license.


Last modified on 09-Sep-18

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