Eating electrons and excreting degraded energy
Summary: The tenacity of energy-dependent life extends from quantum physics to quantum souls via what is known about the birds and the bees (and bacteria). Simply put, if they don’t eat, they die.
Dietary modification also shows increasing promise for the exogenous manipulation of neurotransmitter signaling. Recent research into the effects on brain chemistry of the microbiome—the bacterial flora located in the human gut traditionally thought to aid in digestion—shows significant potential for covert alterations of neurotransmission.
Energy-dependent changes in electrons to ecosystems link the covert alterations of neurotransmission to behavior.
Indeed, in the case of higher animals we know the kind of orderliness they feed upon well enough, viz. the extremely well-ordered state of matter in more or less complicated organic compounds, which serve them as foodstuffs. After utilizing it they return it in a very much degraded form -not entirely degraded, however, for plants can still make use of it. (These, of course, have their most power supply of ‘negative entropy’ the sunlight.) (pp. 73 and 74)
If you do not know where nuclear energy comes from or do not know how it got into the mitochondria of every cell of every eukaryote ever created See: Biogenic non-crystalline U(IV) revealed as major component in uranium ore deposits
The tenacity of energy-dependent life extends from quantum physics to quantum souls via what is known about the birds and the bees (and bacteria). Simply put, if they don’t eat, they die. If they eat right, their pheromone-controlled physiology of reproduction can be linked to survival of every species from archaea to humans. In that context, there is no room for any nonsense about mutations and evolution.
…green sulphur bacteria can synthesize sugar from light by biologically controlling quantum mechanical effects at temperatures up to 80 degrees Fahrenheit.
The physiology of pheromone-controlled reproduction biophysically constrains the virus-driven degradation of messenger RNA that links the facts about vibrations and olfaction from quantum physics to all biologically-based biodiversity on Earth.
In his 1944 book, “What is Life?,” Schrödinger focused on how organisms, such as fruit flies, employ quantum mechanical effects to combat entropy by producing order from disorder.
‘Humans have not yet figured out how it is that nature can stabilize a coherent electronic quantum state in such complex systems for such long periods of time.’
Luca Turin figured that out more than 2 decades ago.
See: The vibrational theory of olfaction for the win
The link from bacteria to our visual perception of energy and mass via food odors and pheromones was established earlier this year by Wen Zhou’s group in China.
Olfaction Warps Visual Time Perception
They placed everything known to serious scientists into the context of the space-time continuum and refuted every aspect of neo-Darwinian pseudoscientific nonsense at the same time they refuted every aspect of “Big Bang” cosmology. Serious scientists start with claims about the creation of light. They link top-down causation to:
vibrational energy deposited in the system is also transferred via inter- and intramolecular hydrogen bonds
Luca Turin’s group inadvertently linked everything known about quantum physics to quantum souls with facts about vibrational energy that links intermolecular bonds to intramolecular bonds. He placed the facts into the context of what is known about food odors, pheromones, and hydrogen-atom transfer in DNA base pairs in solution, and RNA interference.
RNA interference has since been linked to our receptor-mediated structure and function of supercoiled DNA and to our behavior via inhalation.
Quark Pharmaceuticals, Inc. to Present Preclinical Efficacy Data on Inhaled siRNA Co-Developed with Biocon for Prevention of Primary Graft Dysfunction following Lung Transplantation at the 6th Annual RNAi China Conference
The presentation will summarize the preclinical efficacy data for inhaled small interfering RNA (siRNA) against an undisclosed target gene on preventing primary graft dysfunction and acute rejection in an animal model of lung transplantation.
For example, if you cannot inhale and exhale, your body will reject energy-dependent RNA-mediated life.