Summay: “…chemosignals are a promising approach both to modeling posttraumatic stress disorders in humans  and to searching for mehods of their treatment.”
Serious scientists linked the sense of smell in bacteria from the physiology of pheromone-controlled reproduction in all living genera to our visual perception of energy and mass in the context of the space time continuum.
The fact that food odors and pheromones biophysically constrain cell type differentiation in mammals was first placed into the context of [Pheromonal regulation of genetic processes: research on the house mouse (Mus musculus L.)] (1994)
For evidence of the link from the anti-entropic virucidal energy of sunlight to all biodiversity, see also: 1994 Effect of atrazine herbicide on growth, photosynthesis, protein synthesis, and fatty acid composition in the unicellular green alga Chlorella kessleri
Sublethal atrazine concentrations induced a general inhibition on growth, photosynthesis, and dark respiration in the green alga Chlorella kessleri….. Progressive reduction in protein synthesis was associated with increasing herbicide concentration at all experimental periods. The herbicide had preferential effect on the associated fatty acid composition of total and phospholipids. After 24 and 48 hr the herbicide stimulated fatty acids synthesis at concentrations where photosynthesis was inhibited. Meanwhile, stearic and miristic acids disappeared at 15 μM after 24 hr and the total polyunsaturated fatty acids were not affected after 48 hr. Fatty acid synthesis was sensitive to treatment at 72 hr by 5 and 10 μM atrazine, whereas the total saturated fatty acids were completely inhibited.
Sublethal effects of chemicals on protein biosynthesis and degradation have been linked to all pathology via the virus-driven degradation of messenger RNA, which links changes in the microRNA/messenger RNA balance to mutations and all pathology. For example, this is what must happen to link the sun’s anti-entropic virucidal energy from electrons to ecosystems via the chemistry and physiology of pheromone-controlled reproduction in all living genera.
A dietary difference in nematodes links their chemistry of metabolism from what they eat to the pheromone-controlled physiology of reproduction in C. elegans and the ecological adaptations manifested in P. pacificus, a predatory nematode with teeth.
See other information on biophysically constrained biologically based cause and effect in Nutrient-dependent/pheromone-controlled adaptive evolution: a model.
The epigenetic effects of nutrients on evolved differences in the diet and starch digestion of dogs and wolves (Axelsson et al., 2013) were detailed at the same time differences in the socialization of these subspecies were attributed to explorations involving only chemosensory input in 3 to 4-week-old wolf pups. For comparison, differences in starch digestion and exploration involving multisensory input in dogs begin a mere 2 weeks later (Lord, 2013). The differences in nutrient-dependent pheromone-controlled socialization, however, extend across a life-time of more aggressive behavior in wolves that have not been domesticated because less digested starch from their diet genetically predisposes infants to first respond to olfactory/pheromonal cues as they initially explore their postnatal environment.
But, she said, her test and the mirror tests “all show that there’s this selective sensory investigation of something that comes from yourself, but is changed.”
The link from a light-induced change in an endogenous substrate — that comes from yourself — to the physiology of reproduction is changed by the pheromone-controlled physiology of reproduction, which is linked to all biodiversity.
That fact and facts about intelligence in different species started to become clear when Schrodinger (1944) wrote:
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)
Perfect clarity was achieved among all intelligent serious scientists when McEwen et al, (1964) wrote; Dependence of RNA synthesis in isolated thymus nuclei on glycolysis, oxidative carbohydrate catabolism and a type of “oxidative phosphorylation”
The synthesis of RNA in isolated thymus nuclei is ATP dependent.
Nothing in life happens outside the context of the ATP-dependent creation of RNA.
Decades later, Roger Penrose wrote:
“How often do we still hear that quantum effects can have little relevance in the study of biology, or even that we eat food in order to gain energy?” (Roger Penrose 8 August 1991)
See also: Olfaction Warps Visual Time Perception
The authors linked the sense of smell in bacteria from the physiology of pheromone-controlled reproduction in all living genera to our visual perception of energy and mass in the context of the space time continuum.
The fact that food odors and pheromones biophysically constrain cell type differentiation in mammals was first placed into the context of [Pheromonal regulation of genetic processes: research on the house mouse (Mus musculus L.)] (1994) in Russian
Abstract excerpt (in English)
The adaptive role of cytogenetic and other observed pheromonal effects is considered. The possible existence of interorganism systems of genetic regulation is discussed, the search for and study of which may help in more complete understanding of the regularities of functioning of genetic material.
Effects of volatile components of the urine (VCU) of mature male and female CBA/LacStoRap mice on proliferating bone marrow cells in young females of the same line were analyzed.
In 2005, a 2004 Nobel Laureate and her co-authors caught up to what researchers in Russia had already been claiming for 20 years. See: Feedback loops link odor and pheromone signaling with reproduction
See also: Chemosignals from isolated females have antimutagenic effect in dividing the cells of bone marrow from male mice of the CBA strain (2014) with my emphasis
Humans also have various pheromone-induced physiological effects, especially those associated with reproduction [46, 47]. This suggests that the human olfactory system is still an effective pathway for influencing environmental factors on the human nervous system. Various psychoemotional states of the human nervous system can, in turn, disrupt the integrity of the chromosomal apparatus of target cells, for instance lymphocytes [41, 42]. Therefore, studies on the oppositely directional modulation of the mutagenic consequences of stress in rodents with the use of specific, volatile, and zoosocial important chemosignals are a promising approach both to modeling posttraumatic stress disorders in humans  and to searching for mehods of their treatment.
 is Kohl, J.V., Atzmueller, M., Fink, B., and Grammer, K., Human pheromones: integrating neuroendocrinology and ethology, Neuroendocrinol. Lett., 2001, vol. 22, pp. 309–321.
Genetic monitoring of the environment is an important component in the analysis of the status of the biosystems. Its efficiency depends on the correct choice of (a) natural bioindicator species; (b) appropriate signs reflecting the state of the environment; and (c) appropriate statistical analysis. The assessment of genomes’ integrity plays the key role in the studies of mutagenicity in a polluted environment. We present a step-by-step recommendations for the analysis of the cytogenetic data and discuss the prospects of applying genetic tests for ecological monitoring, based on the example of analysis using crustacean species.
The nutrient energy-dependent pheromone-controlled ecological adaptations in all invertebrates and vertebrates were reviewed in the context of: Role of olfaction in Octopus vulgaris reproduction
Future work on O. vulgaris olfaction must also consider how animals acquire the odours detected by the olfactory organ and what kind of odour the olfactory organ perceives. The OL acting as control centre may be target organ for metabolic hormones such as leptin like and insulin like peptides, and olfactory organ could exert regulatory action on the OL via epigenetic effects of nutrients and pheromones on gene expression (Kohl, 2013; Elekonich and Robinson, 2000). — p. 61
See for comparison 1): Riding the Evolution Paradigm Shift With Eugene Koonin
“[T]he entire ideology of personalized medicine should be taken with many grains of salt. It’s not useless, it’s useful to sequence thousands of genomes. It’s useful to sequence everyone’s genome. It’s useful and desirable — yet, it’s wrong and to some degree dangerous to think that, by peering into the sequence of the A, G, T, and Cs in your genome, your family doctor is going to tell you how to treat all your conditions and what conditions you are going to develop, and which ones you are not going to develop, and so on.” — Eugene Koonin
See also for comparison 2): Riding the Evolution Paradigm Shift With Eugene Koonin
“The entire evolution of the microbial world and the virus world, and the interaction between microbes and viruses and other life forms have been left out of the Modern Synthesis…” — Eugene Koonin
The entire ideology of personalized medicine is based on what is known about how the anti-entropic virucidal energy of sunlight must be linked from endogenous RNA interference and foraging behavior to the physiology of biophysically constrained pheromone-controlled reproduction in species from microbes to humans. See this 7 minute representation from my Precision Medicine virtual conference presentation. Energy as information and constrained endogenous RNA interference (2017)
Do not be surprised if you cannot track the historical record of scientific advances in nutritional epigenetics from 1994 Effect of atrazine herbicide on growth, photosynthesis, protein synthesis, and fatty acid composition in the unicellular green alga Chlorella kessleri to the current representations of top-down causation and energy-dependent biophysically constrained biologically-based cause and effect. There are many pseudoscientists who will do everything possible to prevent you from learning that their ridiculous theories have never been supported by experimental evidence.
See for example: 7/25/13
Jay R. Feierman: “Variation is not nutrient availability and the something that is doing the selecting is not the individual organism. A feature of an educated person is to realize what they do not know. Sadly, you don’t know that you have an incorrect understanding [of] Darwinian biological evolution.”
See also: One crank dies, another rises to take his place by PZ Myers
I was asked to look at a string of comments left on a science article by a fellow going by the pseudonym JVK, and all the Davison traits were there. Pretentious phrasing. Repetition: if the audience didn’t get it the first time, just say the same thing again, twice. A kind of sneering anger that people don’t understand how smart he is. An obsession with one narrow idea, which is his, which explains all of evolution and proves that everyone else is wrong.
Behold James Vaughn Kohl.
Ecological adaptation occurs via the epigenetic effects of nutrients on alternative splicings of pre-mRNA which result in amino acid substitutions that differentiate all cell types of all individuals of all species. The control of the differences in cell types occurs via the metabolism of the nutrients to chemical signals that control the physiology of reproduction.
These facts do not refute evolution; they simply refute the ridiculous theory of mutation-initiated natural selection that most people here were taught to believe is the theory of evolution.
That theory is far too ridiculous to be anything but a joke in the context of biological-based increasing organismal complexity. But here, we have lots of jokers, don’t we? The proof of ecological variation that appears to refute the theory of evolution, which actually refutes itself, is that ecological adaptations occur too fast for mutations to compete with them as a source of anything but diseases and disorders.
Ecological adaptations are food energy-dependent and biophysically constrained in the context of biologically based chromosomal inheritance via the pheromone-controlled physiology of reproduction. There is only one model for that.
It’s my model:
A gene associated with the risk of schizophrenia regulates critical components of early brain development, according to a new study led by researchers from Penn State University. The gene is involved in the translation of proteins from RNA and in the proliferation and migration of neurons in the brain.
Gene regulation is energy-dependent and RNA-mediated. That fact is twisted into this misrepresentation: “The gene is involved in the translation of proteins from RNA and in the proliferation and migration of neurons in the brain.”
What they claim, in the most twisted way possible, is that the energy-dependent RNA-mediated translation of proteins must be linked to ecological adaptations via the proliferation and migration of neurons in the brain.