The Nobel Prize in Physiology or Medicine 2017 will be announced on Monday 2 October, 11:30 a.m. at the earliest.
The Nobel Prize in Physics 2017 will be announced on Tuesday 3 October, 11:45 a.m. at the earliest.
The Nobel Prize in Chemistry 2017 will be announced on Wednesday 4 October, 11:45 a.m. at the earliest.
The Nobel Peace Prize 2017 will be announced on Friday 6 October, 11:00 a.m.
Wen Zhou wins the 2017 Nobel Prize in Physiology or Medicine
See: Why the First Drawings of Neurons Were Defaced by R. Douglas Fields
Even in this age of electron microscopy and nuclear magnetic resonance imaging, his drawings retain their power to inspire and inform. While I was at the institute, Toledano opened one of the black boxes of glass microscope slides and held up a histological section of human brain cut and stained by Cajal at the turn of the 20th century. “This one I used in my new paper on senile dementia,” he said with a smile.
See for comparison: Link to Little-known nerve may be secret to lust
“You take those facts and form a hypothesis, and that’s exactly where we are,” he said.
Fields has supporters, among them James Kohl, co-author of “The Scent of Eros,” a book on pheromones.
“He’s right on,” Kohl said. “We have known there is some physical link, but [nerve zero] really helps to define it. Maybe a lot of neuroscientists don’t know about it, but people who study the olfactory system and pheromones see that and say that’s really important.”
Here’s exactly where we are 10 years later: Olfaction Warps Visual Time Perception
My summary: The sense of smell in bacteria has been linked from their energy-dependent pheromone-controlled physiology of reproduction to our visual perception of energy and mass in the context of the time-space continuum. Their findings and the findings of all serious scientists suggest that neural energy represents a warped perception of time in the context of multisensory input at subsecond scales.
The reality of the weekend resurrection of the bacterial flagellum in P. fluorescens attests to the fact that all neo-Darwinian theories will be eliminated when Wen Zhou wins the 2017 Nobel Prize in Physiology or Medicine.
Gianmarc Grazioli wins the 2017 Nobel Prize in Physics
By linking energy-dependent changes from physics and chirallity to the RNA-mediated stability of base pairs,Gianmarc Grazioli crossed the disciplines that Wen Zhou crossed to win her Nobel Prize in Physiology or Medicine.
See also: Chemists know (parody)
Mutations that destabilize native P5abc decrease the assembly rate up to 100-fold.
Lynn Zechiedrich wins the 2017 Nobel Prize in Chemistry
Zechiedrich has linked the energy-dependent transfer of hydrogen atoms in DNA base pairs in solution from quantum physics to chemistry and the functional structure of DNA via RNA-directed DNA methylation and fixation of amino acid substitutions that differentiate all cell types in all living genera in the context of their pheromone-controlled physiology of reproduction.
See also: All about that base (parody)
Bruce McEwen wins the 2017 Nobel Peace Prize
The synthesis of RNA in isolated thymus nuclei is ATP dependent.
Bruce McEwen has since helped others to link nutrient-stress and social stress from the virus-driven degradation of messenger RNA to amino acid substitutions in the context of the physiology of pheromone-controlled reproduction. For example, the substitution of one amino acid in the cell types of mammals protects them from the virus-driven energy theft that links amino acid substitutions in viruses to all pathology. McEwen’s works are the only known works of a serious scientist who has continued to refute the pseudoscientific nonsense touted by neo-Darwinian theorists since before 1964.
He will receive the “Peace Prize” for helping to establish and reestablish the fact that all organisms must forage and find food or they do not become part of a species. And, no organism has ever mutated into an organism that became a member of another species. That fact will lead to world peace if all those who are ecologically adapted to life in their energy-dependent ecosystems eat the most nutritious foods they can find and avoid eating too much. Eating too much causes the virus-driven degradation of messenger RNA that links excess energy to the proliferation of viruses that typically is constrained by food and pheromones.
DNA damage, if not repaired, is a significant cause of the diseases of aging such as declining energy levels, cancer, chronic inflammation and a host of other diseases. Unfortunately, our body’s natural DNA repair mechanisms decline with age. Boosting our DNA repair mechanisms could help us ward off the chronic illnesses of old age, such as flagging energy levels, chronic inflammation, and cancer. If NAD boosting with NMN supplementation repairs human DNA, it could be one of the greatest anti-aging and disease-preventing inventions of all time.
A conserved NAD+ binding pocket that regulates protein-protein interactions during aging NADH stands for “nicotinamide adenine dinucleotide (NAD) + hydrogen (H). The virus-driven theft of quantized energy has been linked from the degradation of messenger RNA to all pathology by serious scientists who do not make claims that the facts about energy-dependent healthy longevity have not been linked from viruses to all pathology. Serious scientists link hydrogen-atom transfer in DNA base pairs in solution to all biodiversity via the pheromone-controlled physiology of reproduction, which biophysically constrains viral latency.
Greg Bear wins the 2017 Nobel Prize in Literature
He predicted everything known about biophysically constrained viral latency in a series of novels that started with “Blood Music” (1985) and continued with “Darwin’s Radio” (1999), “Darwin’s Children” (2003) and Quantico (2006). The fact that he followed in the footsteps of the 1930 Nobel Prize winner in Literature, will be mentioned in the context of claims by Sinclair Lewis about viruses in bacteria that have since been linked to all pathology via the theft of quantized energy.
See for comparison: From Fertilization to Adult Sexual Behavior
Yet another kind of epigenetic imprinting occurs in species as diverse as yeast, Drosophila, mice, and humans and is based upon small DNA-binding proteins called “chromo domain” proteins, e.g., polycomb. These proteins affect chromatin structure, often in telomeric regions, and thereby affect transcription and silencing of various genes (Saunders, Chue, Goebl, Craig, Clark, Powers, Eissenberg, Elgin, Rothfield, and Earnshaw, 1993; Singh, Miller, Pearce, Kothary, Burton, Paro, James, and Gaunt, 1991; Trofatter, Long, Murrell, Stotler, Gusella, and Buckler, 1995).