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OPN5 = UVA topologic insulator = UVA light detector

Discussion in 'Mitochondrial Rx' started by Jack Kruse, Sep 21, 2022.

  1. Jack Kruse

    Jack Kruse Administrator


    UVA light creates a tipping point in cells because of how this light programs the hydrogen bonds in water to arrange. This arrangement creates separate states or colonies in the water around proteins in your eye that control the shape of your eye. Without UVA light on your cornea, you should expect myopia

    What science explains this? QFT/QED.

    Water is first created in our matrix. This water is special in how it acts. In each of our cells, there is a fractal network of carbon nanotubes that constricts water to a certain dimension to make quantum magic happen using the photoelectric effect and allow free use of protons to flow in the molecular network of water. We call this protonicity. The current is much higher when the particle being moved has mass. Electrons have 1/1836th the mass of a proton. Light is what energizes electrons. In an electric universe, galaxies are created within helical electric currents that form a great circuit through intergalactic space. The Bennett pinch effect squeezes plasma inside these cosmic “transmission lines” compressing vast clouds of ionized plasmas within electromagnetic fields, compressing protons and their positive charges, and igniting stars like our sun by forming toroidal currents around galactic equators. Those suns then send their light to planets. The light of the star is a cathode ray. The planets are anodes in this electric circuit. On Earth, a physio-chemical redox evolution created hydrated semiconductors that turn the sun's light back into an electric plasma called the DC electric current that helps regenerate all animals and plants on the surface of this planet. Just a remarkable circle of life based upon natural electric power and the mysteries based in light.

    When an applied magnetic field is added to the new environment the atoms in our mitochondria are immediately affected. How do you ask? The orbital motion of the electrons is altered in such a way as to produce a magnetic moment in the opposite direction to the applied magnetic field from the new environment.

    When you consider that the electromagnetic force gets infinitely stronger as scale shrinks things really begin to make sense when you consider the power generation in mitochondria.

    The electric state of a cell is determined by many complex factors, but it is clear redox power is the critical factor. What are some of the other factors that augment redox power? One is the opening and closing of ion channel proteins, which control the movement of charged particles (ions) across the cell membrane. Changes in the cells’ electrical potential via the activity of ion channels are shown to be able to suppress or trigger cancer. The chemical changes are always preceded by electrical changes in cells. These electric changes are wholly tied to the redox state in that cell system. This is how ALAN and abnormal electric and magnetic fields from technology lead to disease. Another factor is electrical synapses that transfer electricity from one cell to another via their membrane system. That system is adjacent to the cell water. Therefore, membrane integrity and water fidelity in cells should be factors of critical importance to redox potential and to health.

    Charge conservation is not like energy conservation ideas found in the laws of thermodynamics. This offends people who do not understand the nuance of this science. Energy cannot be created or destroyed. Neither can charge, but this is where you need to pay deep attention to why charges matter more than energy flow for cells.

    Proteins are hydrated and they can move or delocalize electrons to alter charges on atoms in solution. They also can change the charge of molecules that are dissolved in water.

    Charge confirmation does not mean that individual positive and negative charges cannot be created or destroyed. Why? Electric charge is ONLY carried by the two charged subatomic particles such as electrons and protons.

    Do you know charged particles that carry electrical information and energy can be created and destroyed in elementary particle reactions? We see this every day CERN operates.

    It turns out varying redox potential allows for the alteration of electrons and protons inside mitochondria and many other organelles in cells. That electrical variation of charges creates tipping points in cells. The tipping points change the physiology of proteins in us that are hydrated by altering the binary code buried in hydrogen bonds that surround our protein topologic insulators.

    April likes this.
  2. Jack Kruse

    Jack Kruse Administrator

    The Nobel Prize for physics in 2016 was given for the discovery of topologic insulators (TI’s).

    Topological insulators conduct electricity on their surfaces but do not conduct the current deep inside their cores. This helps explain why DNA’s surface is highly coiled and coated with histones, chromatin, and methyl groups in its “quiet state” and how it can receive photo-electric instructions through the hydrogen bonding network that surrounds nucleic acids to run the epigenetic programming it contains deep within. What happens on its surface can awaken the code of life buried deep below its double helix which is capable of change because of how Dirac fermions operate.

    Claude Shannon taught the world that information flows via entropy. Wheeler taught physics that information and energy are one and the same thing. Shannon’s mathematics from his 1948 paper advanced the linkage of entropy and information. Shannon's paper also told us anything can be a message.
    Light's information is messaged on water's hydrogen bonds adjacent to proteins in a cell.

    Water makes up 99% of molecules in every cell. Water is a very small molecule that has more hydrogen bonds in it than any other compound. Liquid water contains the densest hydrogen bonding of any solvent, with almost as many hydrogen bonds as there are covalent bonds and hydrogen bonds in its structure found anywhere on Earth. These two bonding networks are the binary code in water. Just as a computer can use a 1 and 0 to create digital information on the internet, hydrogen bonds create the internet in your cells. Shannon taught us
    the information content of any kind of message could be measured in binary digits or just bits.

    Water's hydrogen bond network changes at a pico and femtosecond level in any environment. Inside a cell, its atomic arrangement is controlled by electrostatic forces in a cell created by the redox power of the mitochondria in that cell. These hydrogen bonds can rapidly rearrange in response to, light frequencies, charge density, and changing conditions and environments (for example, solutes like K+ in a cell).

    Shannon demonstrated, contrary to what was commonly believed in the 1940s, that engineers could beat their worst enemy ever: transmission errors-or in their technical jargon, "noise." Noise is anything that disturbs communication. It can be an electric signal in a telephone wire that causes crosstalk in an adjacent wire, a thunderstorm static that perturbs TV signals distorting the image on the screen, or a failure in network noise to increase the energy of the transmission signals or send the same message repeatedly-much as when, in a crowded pub, you have to shout for a beer several times. Shannon showed a better way to avoid errors without wasting so much energy and time: coding. Nature does the same thing.

    She takes the message in the hydrogen bonding network and encodes it in mRNA, mtDNA, RNA, tRNA, and DNA

    Coding is at the heart of information theory. All communication processes need some sort of coding to limit the noise and create a high-fidelity signal that doesn't degrade. Water preserves the information and transfers it to nucleic acids via hydrogen bonds. Just as the telephone system transforms the spoken voice into electrical signals. In Morse code, letters are transmitted with combinations of dots and dashes. The DNA molecule specifies a protein's structure with four types of genetic bases. Digital communication systems use bits to represent-or encode- information. Each letter of the alphabet, for example, can be represented with a group of bits, a sequence of zeroes, and ones. You can assign any number of bits to each letter and arrange the bits in any way you want. In other words, you can create as many codes as desired. Cells have done this to run life's program.

    The interactions of electrons in a solid or liquid crystal change space in abstract ways. If you look at the picture below you can see odd shape and size changes and this leads to the different thermodynamics of what is possible on the surface. Many TI’s develop “holes” where electrons are absent and this allows them to act as P-type semiconductors and then there are adjacent regions that are extremely electron rich that can act as an N-type semiconductors. Those positive and negative regions can act like “charges” and can lead to striking effects. For example, an insulating material (phosphorus) can become conductive at its surface when sunlight hits it. Phosphorus has ten atoms that stick directly out from the surface of DNA when you look at it from an axial view. See figure C below. Those ten atoms are surrounded by 447 water molecules to form part of the TI in DNA. The addition of phosphorus and iodine in the liquid crystalline water networks creates a “playground of charges and spins” to control DNA from the surface.


    Note the ten phosphorus groups sticking out to bind with EZ water as DNA unwinds above

    Within the heavily condensed and coiled state DNA structure tightly holds atoms, electrons, and photons in one “spin state”. When DNA is uncoiled by electromagnetic signals from our mitochondria on its surface, light is liberated from the double helix and the surface template of hydrogen bonds radically changes its “topology” by altering spin states. This can turn on and off DNA replications
    The spins of electrons/protons (H+) are not only manipulated by magnetic fields (mitochondria) but also by electrical fields (proteins side chains) and can be used to collect and store information from electrons or the photons they carry. All magnetic drives use spintronics today to magnetically store data on hard drives.

    We already know a leaf can do it via photosynthesis and so can a European Robin using a light inclination magnetic compass in its eye. In my humble opinion, this process works in all animal tissues to create the many species of animals we all observe in the classical world we inhabit.

    Topology is a branch of mathematics focused on the fundamental shapes of things as they change. In cells, proteins can vary their size and shape based on the light energy that is added or subtracted from their bonds. In this way, life can be considered a quantum computer that is working in parallel with a quantum universe that also runs on light. The messages are information buried in light wave frequencies in the sun that can be magnetically stored in a thin film of water surrounding nucleic acids, using non-linear aspects of light. DNA is the ultimate topologic insulator or superconductor suspended in a superfluid of coherent and noncoherent water that imprints information and conducts electrons, protons, and photons in different ways. This Nobel Prize may soon get biology away from its “solution-based ideas” in biochemistry books and push them toward quantum biology which uses a solid-state foundation. That is what this Nobel Prize means to me in 2016. The state of fluctuation of the hydrogen bonding network creates probabilities in a cell.


    Knowing is just not enough. Understanding connections is critical. Stop being your own worse enemy. Stop looking outside for solutions when the wisdom you seek is buried within.
    JanSz and 5G Canary like this.

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