\MARK POST #6595
LINK IS CLEAR AND IRREFUTABLE – ALL RESEARCH ON THE SUBJECT MATTER CYCLES BACK TIME AND TIME AGAIN POINTING BACK TO THIS ONE CHEMICAL. TIME TESTED UNDER MULTIPLE VARIABLE CONDITIONS WITH THE SAME RESULTS.
THERE IS A DIRECT LINK TO THIS ARTICLE THAT IMPLIES IT HAS AND PLAYS A DIRECT ROLE IN OBSEITY.
…”Industrial uses[edit]
Propionic acid inhibits the growth of mold and some bacteria at the levels between 0.1 and 1% by weight. As a result, most propionic acid produced is consumed as a preservative for both animal feed and food for human consumption. For animal feed, it is used either directly or as its ammonium salt. The antibiotic Monensin is added to cattle feed to favor propionibacteria over acetic acid producers in the rumen; this produces less carbon dioxide and feed conversion is better. This application accounts for about half of the world production of propionic acid. Another major application is as a preservative in baked goods, which use the sodium and calcium salts.[11] As a food additive, it is approved for use in the EU,[13] USA[14] and Australia and New Zealand.[15] It is listed by its INS number (280) or E number E280.
Propionic acid is also useful as an intermediate in the production of other chemicals, especially polymers. Cellulose-acetate-propionate is a useful thermoplastic. Vinyl propionate is also used. In more specialized applications, it is also used to make pesticides and pharmaceuticals. The esters of propionic acid have fruit-like odors and are sometimes used as solvents or artificial flavorings.[11]
Biological uses[edit]
The metabolism of propionic acid begins with its conversion to propionyl coenzyme A (propionyl-CoA), the usual first step in the metabolism of carboxylic acids. Since propionic acid has three carbons, propionyl-CoA cannot directly enter either beta oxidation or the citric acid cycles. In most vertebrates, propionyl-CoA is carboxylated to D-methylmalonyl-CoA, which is isomerised to L-methylmalonyl-CoA. A vitamin B12-dependent enzyme catalyzes rearrangement of L-methylmalonyl-CoA to succinyl-CoA, which is an intermediate of the citric acid cycle and can be readily incorporated there.
In propionic acidemia, a rare inherited genetic disorder, propionate acts as a metabolic toxin in liver cells by accumulating in mitochondria as propionyl-CoA and its derivative, methylcitrate, two tricarboxylic acid cycle inhibitors. Propanoate is metabolized oxidatively by glia, which suggests astrocytic vulnerability in propionic acidemia when intramitochondrial propionyl-CoA may accumulate. Propionic acidemia may alter both neuronal and glial gene expression by affecting histone acetylation.[16][17] When propionic acid is infused directly into rodents’ brains, it produces reversible behavior (e.g., hyperactivity, dystonia, social impairment, perseveration) and brain changes (e.g., innate neuroinflammation, glutathione depletion) that may be used as a means to model autism in rats.[16]
It also, being a three-carbon molecule, feeds into hepatic gluconeogenesis (that is, the creation of glucose molecules from simpler molecules in the liver).[18]”…
OVERTIME, I’VE BEEN ABLE TO ISOLATE AND CORRELATE THE CONNECTIONS BETWEEN NORMAL DAILY ENVIRONMENTAL ACTIVITIES(ACTION) TO CONSTITUTIONAL BIOLOGICAL REACTIONS(PHYSIOLOGICAL HEALTH/DISEASE) STATES
SIGNAL TRANSDUCTION(FOR THE PURPOSES OF THIS DISCUSSION – TRANSDUCTION CAN BE CHARACTERIZED AS ELECTRO-MAGNETIC INDUCTION – INSTANTEOUS IN THE MOUTH AND THE NOSE)
SIGNAL TRANDUCTION IS VIA REDOX, CATION/ANIONS, ACID/BASE,
https://en.wikipedia.org/wiki/Signal_transduction
MEMBRANE POTENTIAL
https://en.wikipedia.org/wiki/Membrane_potential
ION EXCHANGE RESIN
https://en.wikipedia.org/wiki/Ion-exchange_resin
LEWIS ACIDS/BASES
https://en.wikipedia.org/wiki/Lewis_acids_and_bases
Carboxylic acids – Propionic Acid
https://en.wikipedia.org/wiki/Carboxylic_acid
https://en.wikipedia.org/wiki/Propionic_acid
https://en.wikipedia.org/wiki/Endocrine_disruptor
https://en.wikipedia.org/wiki/Vinyl_chloride
https://en.wikipedia.org/wiki/Polyvinyl_chloride
Encapsulation of Electronic Components
http://www.panacol.com/adhesive-applications/electronics/encapsulation-of-electronic-components/
EXPOSURE TO MODERN TOXIC ELEMENTS OF ELECTRONICS IS ACCERLERATING THE DEGENERATION OF BIOLOGICAL TISSUES VIA THERMAL HEATING/COOLING PROCESSES.
SAME GOES FOR CHLOROFLUROCARBONS.
LIST IS TOO COMPHREHSIVE AND COMPLEX TO LIST IN THIS POST.
PROPIONIC ACID WORKS ON A pH TYPE MECHANISM REACTION IN THE HUMAN SKULL AND PROPAGATES IT’S RESULTS BODYWIDE.
NEEDLESS TO SAY…
Simple acid reacts to the presence of ENDOCRINE DISRUPTORS – NAMELY BHP A/B, PCB, DIOXINS, CHLORINATED PRODUCTS, VINYL, PVC – ESPECIALLY, ACRYLATES, AND LIPIDS IN THE HUMAN BODY. VIA MAILLARD REACTIONS OF A THERMODYNAMIC NATURE.
THERE ARE COMPLEX INTERACTIONS WITH THE NEWER TYPES OF HIGH EFFICIENCY LAUNDRY DETERGENTS ON THE MARKET.
ACCELERATION OF DECOMPOSITION OF IONIC MOLECULAR CHEMICALS.
IT’S ACTION HAS SUBSTANTIAL REPERCUSSIONS IN THE WAY FATS AND LIPIDS ACCUMULATES ENDOCRINE DISRUPTORS AND BREAKDOWN OVER TIME WHEN DEMANDS FOR STORED ENERGY BECOMES IMPERATIVE. ADIPOSE TISSUE.
THE MECHANISMS USED BY THE BODY TO DETERMINE pH ACID/BASE LEVELS
TITRATION
https://en.wikipedia.org/wiki/Titration
THE WHOLE SYNERGISTIC OUTPUT RESULT OF WELL BEING – HOW YOU FEEL IS THE RESULT OF THE HUMAN BODY’S INTEGRITY COMPARED TO BACTERIA, VIRUSES AND OTHER PATHOGENS INCLUDING FOREIGN CHEMICAL DISRUPTORS.
ALL THE ORGANS AND CELLS WORK TO OUTPUT THE RESULT USING IMMUNOLOGICAL RESPONSE SYSTEM TO ADJUST AND FEND OFF DEGENERATION.
…”Assay[edit]
Main article: Assay
Main article: Virus quantification
An assay is a form of biological titration used to determine the concentration of a virus or bacterium. Serial dilutions are performed on a sample in a fixed ratio (such as 1:1, 1:2, 1:4, 1:8, etc.) until the last dilution does not give a positive test for the presence of the virus. The positive or negative value may be determined by visually inspecting the infected cells under a microscope or by an immunoenzymetric method such as enzyme-linked immunosorbent assay (ELISA). This value is known as the titer.[25]”…
ALL THE BODY IS DOING IS AS FOLLOWS –
…”Measuring the endpoint of a titration[edit]
Main article: Equivalence point
Different methods to determine the endpoint include:[26]
Indicator: A substance that changes color in response to a chemical change. An acid-base indicator (e.g., phenolphthalein) changes color depending on the pH. Redox indicators are also used. A drop of indicator solution is added to the titration at the beginning; the endpoint has been reached when the color changes.
Potentiometer: An instrument that measures the electrode potential of the solution. These are used for redox titrations; the potential of the working electrode will suddenly change as the endpoint is reached.
An elementary pH meter that can be used to monitor titration reactionspH meter: A potentiometer with an electrode whose potential depends on the amount of H+ ion present in the solution. (This is an example of an ion-selective electrode.) The pH of the solution is measured throughout the titration, more accurately than with an indicator; at the endpoint there will be a sudden change in the measured pH.
Conductivity: A measurement of ions in a solution. Ion concentration can change significantly in a titration, which changes the conductivity. (For instance, during an acid-base titration, the H+ and OH− ions react to form neutral H2O.) As total conductance depends on all ions present in the solution and not all ions contribute equally (due to mobility and ionic strength), predicting the change in conductivity is more difficult than measuring it.
Color change: In some reactions, the solution changes color without any added indicator. This is often seen in redox titrations when the different oxidation states of the product and reactant produce different colors.
Precipitation: If a reaction produces a solid, a precipitate will form during the titration. A classic example is the reaction between Ag+ and Cl− to form the insoluble salt AgCl. Cloudy precipitates usually make it difficult to determine the endpoint precisely. To compensate, precipitation titrations often have to be done as “back” titrations (see below).
Isothermal titration calorimeter: An instrument that measures the heat produced or consumed by the reaction to determine the endpoint. Used in biochemical titrations, such as the determination of how substrates bind to enzymes.
Thermometric titrimetry: Differentiated from calorimetric titrimetry because the heat of the reaction (as indicated by temperature rise or fall) is not used to determine the amount of analyte in the sample solution. Instead, the endpoint is determined by the rate of temperature change.
Spectroscopy: Used to measure the absorption of light by the solution during titration if the spectrum of the reactant, titrant or product is known. The concentration of the material can be determined by Beer’s Law.
Amperometry: Measures the current produced by the titration reaction as a result of the oxidation or reduction of the analyte. The endpoint is detected as a change in the current. This method is most useful when the excess titrant can be reduced, as in the titration of halides with Ag+.”…
WHOLE ORGANS AS A WHOLE END UP GIVING A BIOFEEDBACK LOOP SIGNAL INCLUDING CELLS TO DETERMINE PATHOLOGICAL IMMUNITY.
BACTERIAL/VIRAL INFECTIONS.
Live~NRGY 
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