Sperm RNAs Transmit Stress

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Bale’s group will next try to identify epigenetic changes in embryos that might allow miRNA changes to have an effect in adult animals.

Nutrient-dependent microRNAs are the link from viral microRNAs to transgenerational epigenetic inheritance of morphological and behavioral phenotypes. The nutrient-dependent microRNAs typically protect organized genomes from DNA damage linked to the theft of nutrient-energy.

The energy theft by viruses links entropic elasticity to genomic entropy, which links viruses to all pathology in the context of thermodynamic cycles of protein biosynthesis and degradation that are modulated by the innate immune system.

Nutrient stress and social stress act via the innate immune system and cause the suppression of the immune system that links the proliferation of viruses to transgenerational epigenetic inheritance via everything currently known about microRNAs and adhesion proteins.

See: Distinct E-cadherin-based complexes regulate cell behaviour through miRNA processing or Src and p120 catenin activity

The octopus genome and the evolution of cephalopod neural and morphological novelties

The Bull Sperm MicroRNAome and the Effect of Fescue Toxicosis on Sperm MicroRNA Expression

Researchers who continue to force what is known about nutrient-dependent RNA-mediated cell type differentiation to fit their neo-Darwinian theories have prevented the scientific progress required to limit pathology via what is known about the conserved molecular mechanisms that protect organized genomes from viruses.

Please see the parody All About that Base (Meghan Trainor Parody).

If you think your research can start with links from anything else but nutrient-dependent base pair changes, you’re not likely to receive the funding you thought you deserved — because you probably never deserved any funding. Others have moved forward by linking atoms to ecosystems, but only after dismissing several generations of pseudoscientific nonsense touted by theorists who never learned anything about cell type differentiation.

My first comment on this topic was removed from The Scientist’s site. Perhaps I was too critical.

I just tried this one (without the added criticisms).

Re:

Bale’s group will next try to identify epigenetic changes in embryos that might allow miRNA changes to have an effect in adult animals.

Nutrient-dependent microRNAs are the link from viral microRNAs to transgenerational epigenetic inheritance of morphological and behavioral phenotypes. The nutrient-dependent microRNAs typically protect organized genomes from DNA damage linked to the theft of nutrient-energy.

The energy theft by viruses links entropic elasticity to genomic entropy, which links viruses to all pathology in the context of thermodynamic cycles of protein biosynthesis and degradation that are modulated by the innate immune system.

Nutrient stress and social stress act via the innate immune system and cause the suppression of the immune system that links the proliferation of viruses to transgenerational epigenetic inheritance via everything currently known about microRNAs and adhesion proteins.

See: Distinct E-cadherin-based complexes regulate cell behaviour through miRNA processing or Src and p120 catenin activity

The octopus genome and the evolution of cephalopod neural and morphological novelties

The Bull Sperm MicroRNAome and the Effect of Fescue Toxicosis on Sperm MicroRNA Expression

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