03 May 2016

Transference of oxygen on the plant cell phenomena. | Fenómenos de transferencia de oxígeno en la célula vegetal.

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Oxygen is a fundamental part of life as we know it on planet earth. Vegetables are organisms capable of transforming oxygen into water.

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O2  ⇔  H2O

In this simple reduction equation, oxygen is reduced, it provides protons from its structure to the environment, which hydrogen accepts and then water is formed. A true miracle that no laboratory is able to perform and which the most simple plant can do effectively and efficiently every femtosecond. This is achieved thanks to a protein called Cytochrome C Oxidase, this processes are known as Global Redox Cycles, where Carbon (C), Hydrogen (H), Oxygen (O) and Nitrogen (N) interfere to form the typical CHON. Our research demonstrates that CHON → CHONPS–>CHONPSK where Phosphorous (P), Sulfur (S),and Potassium (K) are integrated. To understand intracellular redox environment and its homeostasis maintenance is essential for the normal functioning of the cell.

Oxidative stress by ROS(Reactive Oxygen Species) increase is generated by the essential metabolic reactions in the mitochondria, when producing energy when the cytochrome P450 oxidates the metabolites, it dissipates because of anti-oxidatives buffer action just like glutamate GSH, a tripeptide formed by glutamate, cysteine, and glycine (Y-Glutamyl-cysteinyl-glycine). The homeostasis is modulated by two enzymes: Glutamate Cysteine Ligase (that regulates GHS biosynthesis) and y-glutamyl-transpeptidase (that regulates GSH requirement) GHS modulates cell signaling in oxidation-dependent mechanisms , ergo, it is crucial to keep oxidative efficiency, preventing cell aging.

formulas

Potassium hexationate polynates: Bioteksa’s Ultra S and Ultra SN interact directly on the combination Ditiol/Disulfate and the oxidized glutathione and potentially reduced. The main buffer Tiol-base of the vegetal kingdom, as its nano-femto-logic design gives redox balance that regulates the synthesis of proteins and compounds with low molecular weight on the plant cell:

2GHS + H2O2 ->GSSG + 2H2O

2GHS + ROOH ->GSSG + ROH + H2O

formulas (1)

Ultra S, Ultra SN, perfect balance for oxidative mechanisms – plant life reductives = rejuvenating oxygen.

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