Energy-dependent physical and biophysical constraints (9)

Summary: Energy determines genome compaction because activity in the nucleus is energy-dependent. Chromatin chains link energy-dependent changes in base pairs from single nucleotide polymorphisms to fixation of RNA-mediated amino acid substitutions in organized genomes via the physiology of pheromone-controlled reproduction. It’s all about the base. Energy-dependent physical and biophysical constraints (8) ChromEMT: Visualizing 3D chromatin […]

Energy-dependent epigenetic translation to mRNA stability (4)

See first: Energy-dependent epigenetic translation to mRNA stability (3) First-ever direct observation of chiral currents in quantum Hall atomic simulation The report on the simulation fails to address the facts about what happens at the level of hydrogen-atom transfer in DNA base pairs in solution when you have an MRI. Perhaps the link from chirality […]

Energy-dependent alternative splicings 1996 – 2016 (2)

See also: Energy-dependent alternative splicings 1996 – 2016 Re: Rs3827760 is Val370Ala and EDARV370A No matter what it is called, Val370Ala may be the best example of how nutrient energy-dependent biophysically constrained pheromone-controlled viral latency protects all organisms from virus-driven energy theft and all pathology. For example, see: Genome recoding by tRNA modifications The succession […]

Explorers who do not know what is known (2)

See: Explorers who do not know what is known See also: Energy-dependent polycombic ecological adaptation Now see: The B/Z reaction, and the problem with peer review December 9. 2016 by John Leonard … oscillating chemical reactions predictable by mathematical formula are partially responsible for organizing cells to form organs, bone, and tissue. Alan Turing didn’t […]