1. Today's Quantum biology lesson: EMFs in mitochondria inform DNA what to do. DNA signal organelles how to arrange atoms in cells to store energy by molecular resonance.
DNA teleportation is a phenomenon linked to molecular resonance.
2. Most have no idea that this has been tested experimentally many times by different scientific teams and has been reproduced. Luc Montagnier was the first person to experimentally show that DNA emits light & that light could be buried in the hydrogen bonding network of water
3. The hydrogen-bonding network acts as an information storage device would in a computer array. This work is published in some of the most famous and respected PEER-reviewed journals in the SCIENCE WORLD. A Nobel Laureate was on the team. I mentioned this to @hubermanlab
4. DNA teleportation shows that DNA produces electromagnetic signals (light), measurable when highly diluted in water. This signal can allegedly be recorded, transmitted electronically over the internet
5. If this can happen electronically over the internet on silicon wafers it should stand to reason it could happen on carbon-based semiconductive devices inside of cells No?
6. This data was transferred to another computer & light was re-emitted from a silicon device to share its information with another distant pure water sample in a lab miles away.
7. In that lab, DNA was replicated through polymerase chain reaction (PCR) despite the physical absence of the original DNA in the new water sample. Many people refuted that water has memory capability but the data say it can no longer be doubted. ...
8. Montagnier, L.; Aïssa, J. Ferris, S.; Montagnier, J. L. Lavallée, C. (2009). "EM signals are produced by aqueous nanostructures derived from bacterial DNA sequences". Interdisc. Sciences: Computational Life Sciences. 1 (2): 81–90. doi:10.1007/s12539-009-0036-7. PMID 20640822
9. The experiment was first made in July 2005, and was repeated and filmed for a TV documentary in 2013, released on the French channel France 5 on 5 July 2014. The online journal Ouvertures detailed the test protocol through interviews with Montagnier.
10. Montagnier's experiment can be summarized as follows:
A known water sample with 2 ng/ml of 104 bases DNA from an HIV-infected patient is diluted by 10 into the water and agitated for 15 seconds.
11. After filtration to remove the DNA, the dilution and agitation steps are repeated 10 times, reaching high dilution levels of 10−10.
The highly diluted sample emits electromagnetic signals (EMS) of low frequencies.
12. This EMS is recorded by a microphone coil and saved as a 6-second WAV file at the lab in Paris.
The WAV file is emailed to a partner team at the University of Benevento in Italy.
13. The Italian team emits with a coil for 1 hour the EMS of the WAV file on a sample of distilled water in a sealed metal tube.
The water sample is then placed in a polymerase chain reaction (PCR) machine.
14. The PCR machine in Italy produces DNA, 98% identical to the initial DNA in Paris proving his thesis possible and correct. It has been reproduced in multiple labs now. It is no longer an idea. It happens.
15. Remember your mitochondria makes water at cytochrome c oxidase. The mitochondria emit light and magnetic signals from the matrix and imprint water and that information is sent to the nucleus where DNA is.
16. What else is in the nucleus that is connected to this signal? Cryptochromes, opsins, and clock genes.
17. One of the hallmarks of the living system in cells is that they are is exquisitely sensitivity to specific, weak signals. Most of these signals are electromagnetic in nature because of wide band gapped proteins in us.
18. The human eye can detect single photons falling on the retina, which pass information directly to the SCN and all its mitochondria. Small amounts of UV light in the eye induce the production of POMC.
19. Light stimulates many electromagnetic processes in man all at once to power all levels of the cell. This retina is where the light-sensitive photoreceptors in cells send out an action potential that represents a million-fold amplification of the energy in the photon.
20. This defines what a non-linear stimulus is. Some of you know it by the butterfly effect.
For the retina in the eyes, the optical signal is more or less directly on neurons and all the water networks of CSF in the brain.
21. For the brain is modulated by optical photonics messaging, as a wide-band semiconductor modulates the solar electrical signals to compute and store memory. Your colony of mitochondria is situated between the light and the water in the brain.
22. Mitochondrial contain many of the wide band gapped semiconductors. You need to have a basic understanding of how they work.
23. How do changes in electric fields by mitochondria change morphology? Cells store energy electronically at every level in a cell. Water is just one way. Montagnier showed us what water is capable of doing. I am showing you the array that mother nature uses in your cells.
24. Cells have a higher bandwidth to carry energy and information because they use a different band gap system to organize around.
25. The stored energy in cells is coherent energy. that energy acts in unison to power the living state. The organism is, therefore, a highly coherent domain possessing a full range of coherence times and coherence volumes of energy storage.
26. The organism is, therefore, a highly coherent domain possessing a full range of coherence times and coherence volumes of energy storage. This keeps it far from equilibrium and makes it a highly dissipative system of organization.
27. Is the Montagnier system in our tissues? tbiomed.biomedcentral.com/articles/10.11…
28. Now to DNA. It is a perfect electronic antenna. A topologic antenna in fact.
29. Polypeptide chains in the α-helical configuration, like collagen or DNA, have enormous dipole moments upwards of 500 debyes, as the individual moments of the peptide bonds are all aligned.
30. In the double-helical DNA, on the other hand, the antiparallel arrangement of the two strands means that there is no net dipole moment, even though the single strands have their dipole moments due to the sugar-phosphate bonds in the backbone all aligned in the same direction.
31. Adding Phosphorus dopes DNA to make it a DUV/VUV semiconductor. This shows you how carbon in a triple helix seems to be being built as a wide-bandgap semiconductor.
32. Hydrogen bonds are responsible for stabilizing the α-helical secondary structure of the polypeptide chain, as well as the β-pleated sheet structures between polypeptide chains. This is why neurodegeneration shows protein misfolding. Light is lost and H+ change.
33. They also stabilize various ‘conformations’ or folded tertiary and quarternary structures of polypeptides and proteins. Remember DNA codes for the basic protein structure in humans = semiconductor fab.
34. The hydrogen bonds between base pairs in the DNA double helix are responsible for the templating mechanism which ensures the faithful reproduction of the base sequence of the DNA molecule during replication. It requires subatomic-level precision.
35. When you add hydrogen bonds around any protein you can begin to see how nature's fab plant inside us is building a novel solid-state semiconductor. It is quite different than a silicon wafer but it functions exactly the same.
36. Wide bandgap semiconductors allow power electronic components to be smaller, faster, more reliable, and more efficient than their Si-based counterparts. These capabilities make it possible to reduce weight, volume, and life-cycle costs in a wide range of power applications.
37. They are also resistant to high-energy nnEMF and work at higher temperatures. The key is they work better at lower temperatures and do things that silicon wafers cannot do. WBG offers ten times the performance of silicon. Cells use carbon = collagen triple helix
38. Collagen is a known N-type semiconductor used in bone described in the papers on bone regeneration of Becker.
39.These semiconductors offer high optical absorption, electrical conductivity, carrier mobility, low reflectance, low recombination rate of charge carriers & are needed for a variety of applications in solar energy absorption w/conversion and optoelectronic signal transformation
40. As the scale shrinks with the electromagnetic force, its strength gets larger. When the band gap changes for any reason at all the energy changes at the nanoscale level. This is why the inner mitochondrial membrane can carry 30 million volts of charge on it.
41. WBG is needed to carry this type of high voltage @ the small scale to be useful. This can be explained quantum mechanically as particle size reaches the nanoscale, the number of overlapping of orbitals or energy level decreases and the thickness of the band becomes thinner
42. In a pure semiconductor, the energy gap decreases with doping. Collagen and DNA are doped at every level in cells by specific atoms. The mechanism of doping is coupled to hydrogen bonding in collagen and DNA. (N, S, P, Na, Ca, Mg, Cu)
43. The hydrogen bond arises from dipole interactions in molecules where hydrogen is bonded to an electronegative atom such as oxygen, nitrogen, phosphorus, and sulfur.
44. This results in the bonding electrons being closer to the other atom than to the hydrogen, leaving a net positive charge on the non-bonded side of the atom. This creates a hole that alters the charge to create a solid-state electronic circuit in cells.
45. Water has massive hydrogen bonding potential because of this arrangement.
Modern quantum biology has experimentally proven that energy is trapped directly at the electronic level in cells.
46. Energy is stored not only as vibrational and electronic bond energies in biochemicals, but also in the structure of the system: its DHA membranes, and in gradients, fields and flow patterns, compartments, organelles, cell water, enzymes, basically everywhere in our tissues.
47. All this in turn enables organisms to mobilize their energies coherently at any time it is needed and hence make available the entire spectrum of stored energies for physiological work. Life really is energy in demand by atomic design.
48. I hope you enjoyed today's lesson on quantum cell design. Thanks for reading. If you want more of this science join me at patreon.com/DrJackKruse
44. This is why fluoride ^^^ is a problem:
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