E₈-Derived Quasicrystalline Capacitance in Chromatin: Gated Energetic Potential via Tetrahedral Nucleotide Bonding Orchestrates Voltage-Gated Cascades, Hox Patterning, p53-Mediated Allostasis, Mitochondrial Energy Dynamics, and Multiscale Adaptation at the 1.83 Attractor Part 2
E₈-Derived Quasicrystalline Capacitance in Chromatin: Gated Energetic Potential via Tetrahedral Nucleotide Bonding Orchestrates Voltage-Gated Cascades, Hox Patterning, p53-Mediated Allostasis, Mitochondrial Energy Dynamics, and Multiscale Adaptation at the 1.83 Attractor Part 2
The Fractal-Unified Field Theory (F-UFT) posits biological organization from E₈ lattice projections, generating quasicrystalline structures with φ-scaling and D ≈ 1.83 attractor. Nucleotides map to tetrahedral units, storing capacitance in ionic/H-bond lattices—gated by rigidity vs. thermal noise. Coherent release drives bioelectric signaling, modulating chromatin, Hox collinearity, p53 pathways, and mitochondrial ATP. Simulations show φ-spaced Hox loci and bioelectric spectra. Healthy cells converge on D ≈ 1.83 for allostasis; pathology (higher D) enables overreplication and Warburg shift. Ketogenic diets exploit this for cancer therapy. Integrates torsional plectonemes as supercoiled gates, bridging to quasiparticle activation and electrical epigenetics. Supplementary: E₈ projections to Hox/p53, simulations, bioelectric models, and pathological divergences (remaining pages).
E₈ projection, quasicrystal, tetrahedral capacitance, voltage-gated cascades, Hox collinearity, p53 restoration, Warburg effect, mitochondrial morphology, ketogenic diet, fractal attractor 1.83, bioelectric morphogenesis, DNA plectonemes, quasiparticle potential, electrical epigenetics
E₈ projection, quasicrystal, tetrahedral capacitance, voltage-gated cascades, Hox collinearity, p53 restoration, Warburg effect, mitochondrial morphology, ketogenic diet, fractal attractor 1.83, bioelectric morphogenesis, DNA plectonemes, quasiparticle potential, electrical epigenetics
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