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The 3-o-ethyl ascorbic acid (86404-04-8) is manufactured through purification and separation of 3-O-alkyl ascorbyl, each using-step process from the Vitamin C. This manufacturing method comprises of different steps such as reacting vitamin C, which is a base and an alkylating agent to synthesize 3-O-alkyl ascorbyl ether. The process also involves recovering the reaction solvent, ending the reaction, diluting residue using water, and applying anion exchange resin. The ion-exchanged column is then cleaned with a dilute acid, which combines the emission containing the 3-O-alkyl ascorbate. Once the elution is completed, the eluate is concentrated with pressure and then crystallized to produce purified 3-O-alkylascorbic acid ether.To get more news about ethylated ascorbic acid research, wisepowder official website is the best place for you.
The invention uses the separation method of ion-exchange to avoid using a large amount of flammable organic solvent. The process is safe, and delivers quality purification and separation effect as well as being cost-efficient. Some companies might have different methods of developing 3-O-ethyl-L-ascorbic acid, but separation and purification is the most common process used to manufacture the supplement. Ethylated ascorbic acid research shows that the drug can deliver quality results, primarily when used to improve skin health. For instance, the compound serves as an excellent supplement for boosting melanin formation and enhancing collagen synthesis to enhance cell repair. On the other hand, the supplement also helps in making your skin smooth, elastic, and in removing black spots as well.
There are three methods for Sesamol synthesis:To get more news about sesamol benefits, wisepowder official website is the best place for you.
1. Extraction from Sesame oil
Sesamol synthesis from Sesame oil is the easiest of the three methods. However, the resulting Sesame is characterized by high solvent consumption and is quite costly. As such, this method is not ideal for industrial production, especially due to high production costs.
2. Synthetic synthesis originating from piperamine
Although it is fairly economical for large scale Sesamol prodution, the entire route for sesamol synthesis from piperamine applies for small scale production when hydrolysis and hydrolysis process is employed. In such a case, pigment formation as a result coupling and side reaction is unavoidable.
Worse still for this process, it is extremely difficult to remove the formed pigments. Consequently, due to the undesired pigmentation, the synthesized Sesame has limited application.
3. Semi-synthetic route originating from jasmonaldehyde
Semi-synthetic route originating from jasmonaldehyde is the most widely used sesame phenol synthesis process as far as industrial purposes are concerned. The process involves oxidation and hydrolysis and because of that, the resulting sesame phenol is of high quality and great color.
The process uses cost-efficient oxidant and reactive extraction technology, enabling quick separation of the product from the extraction zone. This minimizes the possibility of side reaction occurrence significantly. No wonder the final product (white-like crystal) is of high quality in terms of colour and sesamol density.
As an anti-cancer agent, red pigment lycopene works to suppress phosphorylation of p53 proteins. The compound regulates the gap-junction communication and cell replication at the G0-G1 phase. A particular study proposes that dietary Lycopene induces the modulation of cytochrome P450 2E1, which offers protection against carcinogenic lesions.To get more news about lycopene benefits, wisepowder official website is the best place for you.
Lycopene supplement controls cellular proliferation and potent mitogens in certain cancer cell lines. It regulates the differentiation of T-cells, hence suppressing the growth of mammary tumors.
Lycopene for prostate prevents carcinogenesis in several organs by eliminating oxidation levels of cellular biomolecules such as DNA, lipoproteins, lipids, and proteins. When a test was done to patients with prostate cancer, the researchers established that the subject group had low lycopene levels in the serum. Besides, oxidative stress was high in lipids and proteins.