Melanin is a skeleton key to unlock the quantum mechanical abilities found in water. It is that simple.
2. What is one of the most amazing things that melanin does to water? It creates a massive source of electrons to be delocalized for semiconduction use, but it also changes the hydrogen bond angles of water.
3. Melanin also affects K+ levels and ATP levels in cells as temperture changes. When melanin degrades it also affects BG and insulin levels. Insulin does not operate well below 62F. This is why melanin becomes a different kind of electrical conductor as temperature varies. You can see this effect on the slide below. Heat is linked to NO production = links to biophoton release. More heat = less UV biophotons released. THe less UV biophotons released links directly to hydgrogen bond angles.
When K+ is low inside energy transduction goes down and bond angles in hydrogen change. When a lifeform dies 100% of water and K+ leaves the cell. When K+ leaves the cell so does light that is also stored at the electronic and vibrational level. This destroys the cell as a dissipative structure. When water is made in the mitochondria and leaches out it needs light creation. The light levels link to melanin granules right outside of the mitochondria during metabolism. Without melanin redox power drops, energy/information drops, light is lost and information transfer and biochemical fidelity drop.
4. The change in K+ in cell water alters the hydrogen bonding network inside of a cell. How the hydrogen bond angle changes determines what happens in a cell.
When you get extensive changes in the pattern of amino acids and lipids, it indicates that something has happened with the energy metabolism in the colony of mitochondria.
When K+ and water leak out, salt links to muscle proteins, actin, and myosin, because no energy is present with water's superconducting cables. (This explains how rigor mortis manifests). This is incredibly important in gut function and in labor. The body knows how to inhibit muscle tension when it is required.
Mg2+ links up to salt linkages between the proteins to create rigidity. So Mg2+ is stuck in those bridges while K+ leaks out as redox power drops. Shows you why Mg2+ is not a major cation in energy transfers because it needs polarized water to create electrolytic flow inside of the cell. It is also why Mg2+ cannot do anything helpful without the power of other parts of the quantum mechanics of action.
Magnesium's most important role is as a divalent cation is to make ATP in as a co-factor.
5. When electrons are removed from water this means that electrons spend a bit more time at the oxygen end of the molecule. This makes the oxygen end of the molecule slightly negative. This is why biological water has a net negative charge. The more electrons removed the more the net negative charge becomes. Since the electrons are not near the hydrogen end as much, that end is slightly positive.
6. The first step in photosynthesis charge separates water into electrons. The process of separating water to release hydrogen and electrons is known as electrolysis. Electrolysis begins when current from the battery flows out to one electrode, the cathode. Positive hydrogen ions in the electrolyte pick up electrons from the cathode and become neutral hydrogen molecules.
7. Photons in light split the water so that its electrons can be passed down the electron transport chain. Electrons are removed from water to directly replenish those removed from the reaction center in Photosystem II. The oxygen is needed to accept electrons at the end of the electron transport chain in photosynthesis.
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