5th-6th Sept 2018 Dublin, Ireland

The eternal significance of microRNAs (8)

Use of definitions in attempts to explain any aspect of species-specific biophysically constrained cell type differentiation and aging has been replaced by the use of model systems of biological processes.  Biological processes can be compared to so-ca ...

Caption: Contemporary analyses of cell metabolism have called out three metabolites: ATP, NADH, and acetyl-CoA, as sentinel molecules whose accumulation represent much of the purpose of the catabolic arms of metabolism and then drive many anabolic pathways. Such analyses largely leave out how and why ATP, NADH, and acetyl-CoA (Figure 1) at the molecular level play such central roles. Yet, without those insights into why cells accumulate them and how the enabling properties of these key metabolites power much of cell metabolism, the underlying molecular logic remains mysterious. Four other metabolites, S-adenosylmethionine, carbamoyl phosphate, UDP-glucose, and Δ2-isopentenyl-PP play similar roles in using group transfer chemistry to drive otherwise unfavorable biosynthetic equilibria. This review provides the underlying chemical logic to remind how these seven key molecules function as mobile packets of cellular currencies for phosphoryl transfers (ATP), acyl transfers (acetyl-CoA, carbamoyl-P), methyl transfers (SAM), prenyl transfers (IPP), glucosyl transfers (UDP-glucose), and electron and ADP-ribosyl transfers (NAD(P)H/NAD(P)+) to drive metabolic transformations in and across most primary pathways. The eighth key metabolite is molecular oxygen (O2), thermodynamically activated for reduction by one electron path, leaving it kinetically stable to the vast majority of organic cellular metabolites

Kohl's Laws of Biology (codon-optimality revisited)

Summary: Kohl's Laws help to explain what was missing from Darwin's 'conditions of life.' Darwin knew nothing about genetics, which means he knew nothing about the epigenetic effects of food odors or pheromones. Ancient hepatitis B viruses from the Bronze ...

5th-6th Sept 2018 Dublin, Ireland

The eternal significance of microRNAs (7)

Sales of human pheromone-enhanced fragrance products have been virtually eliminated by the pseudoscientific nonsense touted by neo-Darwinian theorists and Big Bang cosmologists. I may revisit their ridiculous claims at ScentofEros.com and Pheromones.com, ...

Caption: Contemporary analyses of cell metabolism have called out three metabolites: ATP, NADH, and acetyl-CoA, as sentinel molecules whose accumulation represent much of the purpose of the catabolic arms of metabolism and then drive many anabolic pathways. Such analyses largely leave out how and why ATP, NADH, and acetyl-CoA (Figure 1) at the molecular level play such central roles. Yet, without those insights into why cells accumulate them and how the enabling properties of these key metabolites power much of cell metabolism, the underlying molecular logic remains mysterious. Four other metabolites, S-adenosylmethionine, carbamoyl phosphate, UDP-glucose, and Δ2-isopentenyl-PP play similar roles in using group transfer chemistry to drive otherwise unfavorable biosynthetic equilibria. This review provides the underlying chemical logic to remind how these seven key molecules function as mobile packets of cellular currencies for phosphoryl transfers (ATP), acyl transfers (acetyl-CoA, carbamoyl-P), methyl transfers (SAM), prenyl transfers (IPP), glucosyl transfers (UDP-glucose), and electron and ADP-ribosyl transfers (NAD(P)H/NAD(P)+) to drive metabolic transformations in and across most primary pathways. The eighth key metabolite is molecular oxygen (O2), thermodynamically activated for reduction by one electron path, leaving it kinetically stable to the vast majority of organic cellular metabolites

The eternal significance of microRNAs (5)

Excerpt: Researchers in South Korea, for example, have reminded the God-less Communist dictator of North Korea that one microRNA-mediated amino acid substitution in the influenza B virus could decimate the human populations that he thinks he rules. Concl ...

An evolutionary theory killer

ATP and RNA-mediated chromosomal stability

Cytosis, a cell biology game for ages 10+ links ATP to viral latency and the protection of all organized genomes from the virus-driven degradation of messenger RNA that serious scientists have linked to all pathology. It is time for a new measure of cell ...

An evolutionary theory killer

A single base change refutes theistic evolution (2)

Announcing publication of a model that links the creation of quantized energy from changes in subatomic particles to biophysically constrained viral latency and sympatric speciation in all living genera. Nutrient-dependent Pheromone-Controlled Ecological ...

Watering Young Plant - Vintage Effect

A single base change refutes theistic evolution

Everyone who failed to learn how light-activated endogenous substrates biophysically constrain viral latency is playing "catch up" to serious scientists. The serious scientists know how quantized energy-dependent RNA-mediated cell type differentiation o ...

Caption: Contemporary analyses of cell metabolism have called out three metabolites: ATP, NADH, and acetyl-CoA, as sentinel molecules whose accumulation represent much of the purpose of the catabolic arms of metabolism and then drive many anabolic pathways. Such analyses largely leave out how and why ATP, NADH, and acetyl-CoA (Figure 1) at the molecular level play such central roles. Yet, without those insights into why cells accumulate them and how the enabling properties of these key metabolites power much of cell metabolism, the underlying molecular logic remains mysterious. Four other metabolites, S-adenosylmethionine, carbamoyl phosphate, UDP-glucose, and Δ2-isopentenyl-PP play similar roles in using group transfer chemistry to drive otherwise unfavorable biosynthetic equilibria. This review provides the underlying chemical logic to remind how these seven key molecules function as mobile packets of cellular currencies for phosphoryl transfers (ATP), acyl transfers (acetyl-CoA, carbamoyl-P), methyl transfers (SAM), prenyl transfers (IPP), glucosyl transfers (UDP-glucose), and electron and ADP-ribosyl transfers (NAD(P)H/NAD(P)+) to drive metabolic transformations in and across most primary pathways. The eighth key metabolite is molecular oxygen (O2), thermodynamically activated for reduction by one electron path, leaving it kinetically stable to the vast majority of organic cellular metabolites

EDAR V370A and sympatric speciation

Nick Lane and others like him refuse to reappraise their human mitochondrial DNA recombination dogma. All serious scientists know where the energy for recombination comes from. But, in his latest video clip, he touts the same unsubstantiated theoretical ...