*Corresponding author:
W Grant Cooper, International Physics Health and Energy, Inc., Lubbock, TX 79424, USAReceived: March 27, 2018; Published: April 11, 2018
DOI: 10.26717/BJSTR.2018.03.000949
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Recent studies [1-4] of EPR (Einstein-Podolsky-Rosen)- generated [5] entangled proton qubit-pairs demonstrate that Grover’s [6] enzyme quantum-readers quantify quantum informational content embodied within entangled proton qubits of rat and human genomic systems [7]. Double-helical DNA is replicated into a “metastable” keto-amino state; so, metastable hydrogen bonded amino (-NH2) genome protons encounter quantum uncertainty limits [1,2], │Δx Δpx ≥ ħ / 2 . The resulting quantum mechanical proton - proton interaction introduces probabilities of EPR-arrangements, keto-amino-(entanglement) → enol-imine, yielding “qubit-pairs” of entangled enol and imine protons (Figures 1 & 2). Reactions yielding EPR-generated entangled proton qubit-pairs are observed [1,2] as G −C →G´−C´, G −C →*G −*C and A−T →*A−*T A. (Bold italics - G´−C´,*G −*C,*A−*T - denote necessity of Hilbert space to describe dynamics of embedded entangled proton qubit-pairs; see Figures 1 & 2 for notation).