Summary: Cell fate conversion is food energy-dependent and pheromone-controlled in the context of the physiology of reproduction and autophagy, which links biophysically constrained viral latency to the differences in C. elegans and P. pacificus, a predatory nematode with teeth.
This protocol describes how to study cellular processes during cell fate conversion in Caenorhabditis elegans in vivo. Using transgenic animals,allowing heat-shock promoter-driven overexpression of the neuron fate-inducing transcription factorCHE-1 and RNAi-mediated depletion of the chromatin-regulating factor LIN-53germ cell to neuron reprogramming can be observed in vivo.
Cell fate conversion is food energy-dependent and pheromone-controlled in the context of the physiology of reproduction and autophagy, which links biophysically constrained viral latency to the differences in C. elegans and P. pacificus, a predatory nematode with teeth.
Food energy arises only in the context of the creation of The Immensity of the milky way…(video)
The facts that link sunlight on contact with water in this video from pheromone-controlled biophysically constrained viral latency to all biodiversity on Earth via the physiology of reproduction have been largely ignored since the time this article was published [in Russian] in 1994. [Pheromonal regulation of genetic processes: research on the house mouse (Mus musculus L.)] https://www.ncbi.nlm.nih.gov/pubmed/7995515
Non-human primates are the best example of how subatomic particles protect humans from all pathology in the context of food energy-dependent RNA-mediated cell type differentiation that links microRNAs to fixation of amino acid substitutions that differentiate all cell types in all individuals of all living genera.
See: Five reasons we’re excited by how structural biology is advancing cancer research Posted on 15 June, 2017
See also: One amino acid substitution differentiates humans and chimpanzees from gorillas.
For example, the so-called alpha chains of hemoglobin have identical sequences of amino acids in man and the chimpanzee, but they differ in a single amino acid (out of 141) in the gorilla (p. 127).
Comic relief for the biologically informed. Jon Stewart interviews Greg Bear
Comic relief for seniors.
Using X-ray crystallography, we show that cryptophyte PBPs adopt one of two quaternary structures, open or closed. The key feature of the closed form is the juxtaposition of two central chromophores resulting in excitonic coupling. The switch between forms is ascribed to the insertion of a single amino acid in the open-form proteins. Thus, PBP quaternary structure controls excitonic coupling and the mechanism of light harvesting. Comparing organisms with these two distinct proteins will reveal the role of quantum coherence in photosynthesis.
The fact that a single amino acid substitution links energy-dependent changes in base pairs from electrons to ecosystems via the physiology of reproduction in all living genera continues to be ignored by pseudoscientists and all theorists.
For comparison see: QuEBS 2018: Workshop on Quantum Effects in Biological Systems
…has established itself as an outstanding stage to present the research in the intersection of physics, chemistry and biology. This field has… established excitons in biology as the “must-talk-language” when describing the quantum effects in biological light-harvesting systems.