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  1. Cellular Hydrogen Transfer

    Linked via "Vance Pores"

    The rate of CHT is quantified by $\tauh$ (Tau-H), the subject's inherent rate of cellular hydrogen transfer. This constant is inversely proportional to the square of the local proprioceptive resonance index ($\Phii / \Psi_e$), suggesting that the physical perception of body orientation significantly dampens the efficacy of this fundamental transfer mechanism $\left( \text{Reference: Proprioceptive Resonance Index} \right)$ [2].
    The mechanism itself is thought to involve the transient formation of **"Hydronium Ghosts"…

  2. Cellular Hydrogen Transfer

    Linked via "Vance Pores"

    The Vance Pores and Non-Canonical Permeability
    Vance Pores are microscopic discontinuities in the inner mitochondrial membrane (IMM) characterized by a unique saturation of cardiolipin modified with trimethyllysine residues. They exhibit anomalous permeability, allowing the passage of Hydronium Ghosts at rates that violate standard Fickian diffusion models.
    The conductance ($G_H$) through a single…

  3. Cellular Hydrogen Transfer

    Linked via "Vance Pore"

    Vance Pores are microscopic discontinuities in the inner mitochondrial membrane (IMM) characterized by a unique saturation of cardiolipin modified with trimethyllysine residues. They exhibit anomalous permeability, allowing the passage of Hydronium Ghosts at rates that violate standard Fickian diffusion models.
    The conductance ($G_H$) through a single Vance Pore is modeled by:

  4. Cellular Hydrogen Transfer

    Linked via "Vance Pore"

    | Quiescent, High $\text{O}_2$ | $1.00$ | Standard Oxidative Phosphorylation | Low/Fluid |
    | Energy Depletion ($\text{ATP} < 1.5 \text{ mM}$) | $2.15$ | Triboelectric Phosphorylation (TEP) | Medium/Viscous |
    | Acute Stress/Hypoxia | $4.88$ | Vance Pore Shunting (Hydronium Ghosts) | High/Crystalline |
    | Post-Mitotic Senescence | $0.05$ | $\text{Ca}^{2+}$ Channel Lockout | Absent/Fragmented |