nutrient energy-dependent pheromone-controlled Archives - Autophagy

Explorers who do not know what is known

Dec 9, 2016James KohlAdaptations, Autophagy, biophotonics, Diseases & Disorders, Ecology, Light Energy, Model Organisms, Nutrigenomics, Physics, RNA Directed, RNA-directed DNA methylation, RNA-mediated epigenetic regulation of gene expression, RNA-mediated gene silencing, RNA–Mediated Epigenetic Heredity, Variationsantimicrobial susceptibility, autophagy, bacterial flagellum, bacterial species, Ben Feringa, bioluminescence, biophysically constrained, cell type differentiation, genomic entropy, Gunter Witzany, molecular mechanisms, nutrient energy-dependent pheromone-controlled, phenotype, phenotypic AST, protein folding chemistry, Pseudomonas fluorescens, Virus-driven energy theft, weekend resurrection, Whole genome sequencing, Yoshinori Ohsumi

Can genetic testing determine antimicrobial susceptibility? EUCAST experts say not yet… (link opens pdf) Reported as: Whole genome sequencing cannot yet be used to determine antimicrobial susceptibility For most bacterial species there is currently insufficient evidence to support the use of WGS-inferred AST to guide clinical decision making. WGS-AST should be a funding priority if […]

Nutrient-dependent pheromone-controlled autophagy (2)

Oct 10, 2016James KohlAdaptations, Alternative Splicings, Autophagy, Diseases & Disorders, Ecology, Human Pheromones, Model Organisms, Neuronal Plasticity, Nutrigenomics, Pharmacogenomics, Physics, RNA Directed, RNA methylation, RNA-directed DNA methylation, RNA-mediated epigenetic regulation of gene expression, RNA-mediated gene silencing, RNA-mediated toxicity, RNA–Mediated Epigenetic Heredity, Variationsautophagy, beneficial adaptation, biodiversity, cell type differentiation, central pattern generator, chemotaxis, chromatin remodeling, chromosomal rearrangements, Codon optimality, conserved molecular mechanisms, de novo Creation, epigenetic reprogramming, G-protein-coupled receptors, HDAC1-mediated, host and pathogen, immune system, molecular mechanisms, natural selection, nutrient energy-dependent pheromone-controlled, phototaxis, quorum-sensing signal, receptor mediated behaviors, RNA-mediated amino acid substitutions, Robin Williams, virus-driven entropy

See also: Nutrient-dependent pheromone-controlled autophagy Autophagy: cellular and molecular mechanisms (2010) Conclusion: … autophagy has emerged as a new and potent modulator of disease progression that is both scientifically intriguing and clinically relevant. My comment: Autophagy is energy-dependent and linked to supercoiled DNA by epigenetic effects on the innate immune system, which are linked to the […]

Nutrient-dependent pheromone-controlled autophagy

Oct 6, 2016James KohlAdaptations, Autophagy, Diseases & Disorders, Ecology, Light Energy, Model Organisms, Neuronal Plasticity, Physics, RNA Directed, RNA methylation, RNA-directed DNA methylation, RNA-mediated epigenetic regulation of gene expression, RNA-mediated gene silencing, RNA-mediated toxicity, RNA–Mediated Epigenetic Heredity, Variationsautophagy, beneficial adaptation, biodiversity, cell type differentiation, central pattern generator, chemotaxis, chromatin remodeling, chromosomal rearrangements, Codon optimality, conserved molecular mechanisms, de novo Creation, epigenetic reprogramming, G-protein-coupled receptors, HDAC1-mediated, host and pathogen, immune system, molecular mechanisms, natural selection, nutrient energy-dependent pheromone-controlled, phototaxis, quorum-sensing signal, receptor mediated behaviors, RNA-mediated amino acid substitutions, Robin Williams, virus-driven entropy

See also: Nutrient-dependent pheromone-controlled autophagy (2) The Excitable Mitochondria links 4 neurons from a nutrient energy-dependent pheromone-controlled network in a marine invertebrate to human brain development via the conserved molecular mechanisms that link the speed of light on contact with water to the de novo creation of G protein-coupled receptors (GPCRs). Receptor-mediated species -specific chromatin […]