Beta-Nicotinamide adenine dinucleotide disodium salt (NADH) powder manufacturer CAS No. : 606-68-8 95% purity min. Bulk supplements ingredients
Product Parameters
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Product name |
NADH |
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Other name |
eta-d-ribofuranosyl-3-pyridinecarboxamide,disodiumsalt; BETA-NICOTINAMIDEADENINEDINUCLEOTIDE,REDUCEDFORMDISODIUMSALT; BETA-NICOTINAMIDE-ADENINEDINUCLEOTIDE,REDUCED,2NA; BETA-NICOTINAMIDEADENINEDINUCLEOTIDEREDUCEDDISODIUMSALT;BETA-NICOTINAMIDEADENINEDINUCLEOTIDE,DISODIUMSALT; beta-Nicotinamideadeninedinucleotidedisodiumsalthydrate;eta-d-ribofuranosyl-3-pyridinecarboxamide,disodiumsaltbeta-nicotinamideadeninedinucleotide,disodiumsalt,hydratebeta-nicotinamideadeninedinucleotidedisodiumsalt,trihydrate; NICOTINAMIDEADENINEDINUCLEOTIDE(REDUCED)DISODIUMSALTextrapure |
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CAS No. |
606-68-8 |
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Molecular formula |
C21H30N7NaO14P2 |
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Molecular weight |
689.44 |
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Purity |
95% |
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Appearance |
White to yellowish powder |
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Application |
Dietary Supplement Raw Material |
Product introduction
NADH is a biomolecule involved in intracellular energy metabolism. It is an important coenzyme in converting food molecules such as glucose and fatty acids into ATP energy. NADH is the reduced form of NAD+ and NAD+ is the oxidized form. It is formed by accepting electrons and protons, a process that is crucial in many biochemical reactions. NADH plays a vital role in energy metabolism by providing electrons to promote intracellular redox reactions to produce ATP energy. In addition to participating in energy metabolism, NADH is also involved in many other important biological processes, such as apoptosis, DNA repair, cell differentiation, etc. NADH's role in these processes may be different from its role in energy metabolism. NADH plays an important role in cell metabolism and life activities. It is not only an important player in energy metabolism, but also participates in many other important biological processes and has a wide range of applications.
Feature
(1) High purity: NADH can obtain high-purity products through a refined production process. High purity means better bioavailability and fewer adverse reactions.
(2) Antioxidant properties: NADH has powerful antioxidant properties and can protect cells from damage caused by oxidative stress and free radicals.
(3) Stability: NADH has good stability and can maintain its activity and effect under different environments and storage conditions.
Applications
At present, NADH has been widely used in nutritional products, cosmetics and other fields.
In the field of nutrition, NADH is used as health products and nutritional supplements to increase the body's energy levels, enhance immune system function, and promote overall health. In addition, NADH is widely used in the cosmetics industry as an anti-aging ingredient, helping to resist free radical damage, reduce fine lines and wrinkles, and improve skin elasticity and luster. With the continuous deepening of research on the mechanism of action of NADH and the continuous expansion of its application scope, the application prospects of NADH are becoming more and more promising. In the future, NADH is expected to play a more important role in nutrition, cosmetics and other fields.
