What energy source do proteins prefer (2)

By: James V. Kohl | Published on: May 6, 2017

See first: What energy source do proteins prefer?


…many developmentally important proteins display preference for mCpG-containing sequences.

How do proteins display a preference for anything except food and codon optimality?

Natural selection for quantized food energy-dependent codon optimality links the structure and function of supercoiled DNA to protection from virus-driven energy theft.

SARCASM ALERT: All life on Earth seems to have developed a preference for the energy in hydrogen atoms. For a historical perspective see:

What is Life? (1944)

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.)

See also: Codon identity regulates mRNA stability and translation efficiency during the maternal-to-zygotic transition

See also:The Bull Sperm MicroRNAome and the Effect of Fescue Toxicosis on Sperm MicroRNA Expression
Resistance to the pseudoscientific nonsense touted by biologically uninformed theorists sometimes seems futile.  See for example:

Swirling Bacteria Linked to the Physics of Phase Transitions

…collective behavior evokes not souls but phase transitions, which occur when billions upon billions of particles simultaneously become ordered when a bulk parameter such as temperature or pressure increases or decreases past a certain value.

The obvious link from quantum physics to to quantum souls is energy-dependent and biophysically constrained by the physiology of reproduction in all genera. The light energy-dependent simultaneous creation of RNA, protein and lipid precursors was linked from Common origins of RNA, protein and lipid precursors in a cyanosulfidic protometabolism to the Structural diversity of supercoiled DNA

DNA simultaneously exists in a largely inactive B-form with bases tucked in and protected and an active, highly varied structure with exposed bases.

See also:
Energy-dependent changes in angstroms to ecosystems have since been linked from this parody to all biodiversity by reports on how microRNAs protect all cell types from virus-driven energy theft and how the degradation of messenger RNA is linked from mutations to all pathology in all living genera.
See microRNA
See also: Energy as information and constrained endogenous RNA interference

Swirling Bacteria Linked to the Physics of Phase Transitions

…seemingly uncoordinated motions of individual bacteria can add up to synchronized oscillations at large scales — a phenomenon never before reported in the scientific literature.

See:  Weak synchronization and large-scale collective oscillation in dense bacterial suspensions

My summary: They claim that as the nutrient energy-dependent pheromone-controlled physiology of reproduction alters cell density due to  cell multiplication, an unnoticed “phenomenon” emerges.

Energy-dependent changes in hydrogen-atom transfer in DNA base pairs in solution link the anti-entropic virucidal effect of ultraviolet light from Schrodinger’s claims in “What is Life?” (1944) to the claim of Roger Penrose in the forward to the reprint edition.
“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: Dependence of RNA synthesis in isolated thymus nuclei on glycolysis, oxidative carbohydrate catabolism and a type of “oxidative phosphorylation” (1964)
“Isolated thymus nuclei transport amino acids into an intranuclear pool by a process which seems to depend on energy from nuclear ATP synthesis (20).”
Theorists have been confronted with experimental evidence of biologically-based cause and effect since the time that Thomas Hunt Morgan helped to explain energy-dependent biophysically constrained chromosomal inheritance. Revisiting claims about emergence confronts serious scientists with more pseudoscientific nonsense that should ever have been considered in the past.


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