Pheromones protect us from viruses (3)

By: James V. Kohl | Published on: March 18, 2021

Creationists link God’s sunlight-activated generation of energy from ambient humidity and the anaerobic production of magnetite in marine microbes to electron transfer. That is how they link the ATP-dependent Creation of RNA to ammonia detection via fixation of amino acid substitutions in protein nanowires.
See: Harnessing Electricity-Producing Bacteria 3/2/21
Simply put:

When humans eat, their bodies convert sugars from food into electrons. These electrons transfer to oxygen to produce energy that powers the metabolic processes of the cell.

It is less simplistic to say that the metabolic processes of marine microbes link the nutrient-dependent pheromone-regulated genetic processes of reproduction in bacteria to the behavior of other species because the metabolic processes of all cell types is RNA-mediated.
See: Dependence of RNA synthesis in isolated thymus nuclei on glycolysis, oxidative carbohydrate catabolism and a type of “oxidative phosphorylation” (1964)

The synthesis of RNA in isolated thymus nuclei is ATP dependent.

The ATP-dependent synthesis of RNA links microRNA-mediated cell type differentiation to behavior.
See for example: Honey bee behaviours within the hive: Insights from long-term video analysis 3/17/21

The combined behaviours of individuals within insect societies determine the survival and development of the colony. For the western honey bee (Apis mellifera), individual behaviours include nest building, foraging, storing and ripening food, nursing the brood, temperature regulation, hygiene and defence.

Individual behaviors and the combined behaviors that determine the survival of species are nutrient-dependent and pheromone-regulated in species from microbes to humans.
For a historical perspective, see: Human pheromones and food odors: epigenetic influences on the socioaffective nature of evolved behaviors 3/15/12

The honeybee is a model organism for understanding the epigenetic link from food odors and social odors to neural networks of the mammalian brain, which ultimately determine human behavior.

Nutrient-dependent/pheromone-controlled adaptive evolution: a model 6/14/13

An environmental drive evolved from that of nutrient ingestion in unicellular organisms to that of pheromone-controlled socialization in insects. In mammals, food odors and pheromones cause changes in hormones such as LH, which has developmental affects on pheromone-controlled sexual behavior in nutrient-dependent reproductively fit individuals across species of vertebrates.

See also: Nutrient-dependent Pheromone-Controlled Ecological Adaptations: From Angstroms to Ecosystems 4/18/18

The companion papers [162-163] told a new short story of ecological adaptations. In the context of climate change and changes in diet, the story began with what probably was a nutrient-dependent base pair change and a variant epiallele that arose in a human population in what is now central China. Apparently, the effect of the epiallele was adaptive and it was manifested in the context of an effect on sweat, skin, hair, and teeth. In another mammal, such as the mouse, the effect on sweat, skin, hair, and teeth is probably due to a nutrient-dependent epigenetic effect on hormones responsible for the tweaking of immense gene networks that metabolize nutrients to pheromones. The pheromones appear to control the nutrient-dependent epigenetically-effected hormone-dependent organization and hormone-activation of reproductive sexual behavior in mammals such as mice and humans, but also in invertebrates and in microbes as previously indicated.

Moving forward, we see that Conserved C‐terminal motifs in odorant receptors instruct their cell surface expression and cAMP signaling 1/19/21

…we demonstrate the existence of highly conserved C‐terminal amino acid motifs, which discriminate at least between class‐I and class‐II odorant receptors, with their numbers of motifs increasing during evolution

That was reported on 3/17/21 as What brings olfactory receptors to the cell surface: ‘Zip codes’ for odor sensors identified

The structure-function analyses we performed indicate that certain amino acid motifs and their combinations in different receptor types individually promote their cell surface expression and signaling.

Energy-dependent biophysically constrained structure-function interactions link the light-activated assembly of the microRNA-RNA-peptide nanocomplex to biophysically constrained viral latency across kingdoms via the physiology of reproduction, biophysically constrained RNA-mediated amino acid substitutions and the functional structure of supercoiled DNA.
When biologically uninformed science idiots report that fact as “…numbers of motifs increasing during evolution...” they exemplify human idiocy.
The number of motifs is food energy-dependent and pheromones-regulate the genetic processes that biophysically constrain the Creation of all enzymes, hormones and all receptors.


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