GLYPHOSATE POISON
Glyphosate, Deuterium, Prions And Neurodegeneration - Stephanie Seneff, PhD
youtube.com/watch?v=KmSsglo4lkU
DEUTERIUM BAD
Deuterium Depleted Water Inhibits the Proliferation of Human MCF7 Breast Cancer Cell Lines
https://pubmed.ncbi.nlm.nih.gov/31045450/
Deuterium and its impact on living organisms
https://pubmed.ncbi.nlm.nih.gov/31352668/
Abstract
The rare stable isotope of hydrogen, deuterium, has fascinated researchers since its discovery in the 1930s. Subsequent large-scale production of deuterium oxide, commonly known as heavy water, became a starting point for further research. Deuterium exhibits unique physicochemical properties as well as having the strongest kinetic isotope effects among all other elements. Moreover, a broad variety of morphological and physiological changes have been observed in deuterium-treated cells and organisms, including changes in fundamental processes such as cell division or energy metabolism. Even though our understanding of such alterations is still insufficient, it is evident that some of them make growth in a deuterium-enriched environment a challenging task. There seems to be certain species-specific limits to their tolerance to heavy water, where some organisms are unable to grow in heavy water whilst others have no difficulties. Although the effects of deuterium on living organisms are, in general, negative, some of its applications are of great biotechnological potential, as is the case of stable isotope-labelled compounds or deuterated drugs.
DEUTERIUM GOOD
Slight Deuterium Enrichment in Water Acts as an Antioxidant: Is Deuterium a Cell Growth Regulator?
https://pubmed.ncbi.nlm.nih.gov/32769093/
Abstract
Small admixtures in water, e.g. of metal ions, often act as cell growth regulators. Here we report that enrichment of deuterium content in water, normally found at 8 mm concentration, two-three folds increases cell proliferation and lowers the oxidative stress level as well. Acting as an anti-oxidant, deuterium-enriched water prevents the toxic effect of such oxidative agents as hydrogen peroxide and auranofin. This action is opposite to that of deuterium depletion that is known to suppress cell growth and induce oxidative stress in mitochondria. We thus hypothesize that deuterium may be a natural cell growth regulator that controls mitochondrial oxidation-reduction balance. Because growth acceleration is reduced approximately by half by addition to water a minute amount (0.15%) of 18O isotope, at least part of the deuterium effect on cell growth can be explained by the isotopic resonance phenomenon. A slight (≈2-fold) enrichment of deuterium in water accelerates human cell growth. Quantitative MS based proteomics determined changes in protein abundances and redox states and found that deuterium-enriched water acts mainly through decreasing ROS production in mitochondria. This action is opposite to that of deuterium depletion that suppresses cell growth by inducing oxidative stress. Thus deuterium may be a natural cell growth regulator that controls mitochondrial oxidation-reduction balance. The role of isotopic resonance in this effect was validated by further experiments on www.