Ecological Adaptations vs the Randomness of Evolution

By: James V. Kohl | Published on: May 1, 2018

Summary: Ecological variation is linked to ecological adaptations in all living genera via the creation of microRNAs and the sense of smell.

Odor Perception on the Two Sides of the Brain: Consistency Despite Randomness


  • •A random model predicts observed preservation of correlations in piriform responses
  • •The model supports consistent agreement about odor quality among individuals

The model fails to explain how the energy-dependent creation of microRNAs links pattern recognition to the creation of pre-mRNAs and biophysically constrained viral latency. Everything required for our visual perception of energy and mass in the context of the space-time continuum has been linked to the RNA-mediated transgenerational epigenetic inheritance of conserved molecular mechanisms.

See: Minding your caps and tails

A nascent mRNA, synthesized in the nucleus, undergoes different modifcations before it can be translated into proteins in the cytoplasm. For a mRNA to be functional, it requires modifed 5´ and 3´ ends and a coding region (i.e., an open reading frame (ORF) encoding for the protein of interest) flanked by the untranslated regions (UTRs). The nascent mRNA (premRNA) undergoes two signifcant modifcations in addition to splicing.

Simply put, nascent mRNAs do not exist outside the context of their energy-dependent creation.

See also:  Feedback loops link odor and pheromone signaling with reproduction (2005)

Mathematical models explain nothing when they fail to link the anti-entropic virucidal of sunlight to energy-dependent RNA-mediated biophysically constrained viral latency.

Linda Buck shared the 2004 Nobel Prize in Physiology and Medicine with Richard Axel, who is a co-author of the article about consistency despite randomness. She is scheduled to present during Schrödinger at 75 – The Future of Biology – September 2018

For comparison, Richard Axel appears to have been stuck with ridiculous theories and mathematical models.

See also: Are Evolution and Adaptation the Same?

Evolutionists believe adaptable traits arose through the progressive accumulation of random genetic mutations that somehow provided an advantage to living things facing specific environmental challenges. But not only are nearly all mutations either harmful or at best neutral, it’s impossible to achieve a functioning system of many orchestrated components one step at a time. All-or-nothing systems cannot evolve bit by bit.

Ecological variation is linked to ecological adaptations in all living genera via the creation of microRNAs and the sense of smell.

See: Olfaction Warps Visual Time Perception

See also: Energy as information and constrained endogenous RNA interference

Feedback loops link quantized energy as information to biophysically constrained RNA-mediated protein folding chemistry. Light induced energy-dependent changes link angstroms to ecosystems from classical physics to chemistry/chirality and to molecular epigenetics/autophagy. The National Microbiome Initiative links microbial quorum sensing to the physiology of reproduction via endogenous RNA interference and chromosomal rearrangements.

The rearrangements link energy-dependent fixed amino acid substitutions to the Precision Medicine Initiative via genome wide inferences of natural selection. This detailed representation of energy-dependent natural selection for codon optimality links biologically- based cause and effect from G protein-coupled receptors to RNA-mediated amino acid substitutions and the functional structure of supercoiled DNA.

Energy-dependent polycombic ecological adaptations are manifested in supercoiled DNA. Chromosomal inheritance links the adaptations from morphological phenotypes to healthy longevity via behavioral phenotypes. For contrast, virus-driven energy theft is the link from messenger RNA degradation to negative supercoiling, constraint breaking mutations, and hecatombic evolution. The viral hecatomb links transgenerational epigenetic inheritance from archaea to Zika virus-damaged DNA, which typically is repaired by endogenous RNA interference and fixation of RNA-mediated amino acid substitutions in organized genomes

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