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factory supply b-Nicotinamide-adenine Dinucleotide Reduced NADH CAS No 606-68-8 606-68-8 C21H27N7Na2O14P2
Product Name: b-Nicotinamide-adenine Dinucleotide, reduced(NADH)
Purity: 90%, 98%
CAS No.: 606-68-8
Formula: C21H27N7O14P2•Na2
Maximum absorption wave length: 260nm and 340nm
Appearance: White to yellowish lyophilized powder
Storage: Keep dry and away from light, long term storage at -25℃ to -15℃
Nicotinamide adenine dinucleotide, abbreviated NADh+, is a coenzyme found in all living cells. The compound is a dinucleotide, since it consists of two nucleotides joined through their phosphate groups. One nucleotide contains an adenine base and the other nicotinamide.
In metabolism, NAD+ is involved in redox reactions, carrying electrons from one reaction to another. The coenzyme is, therefore, found in two forms in cells: NAD+ is an oxidizing agent – it accepts electrons from other molecules and becomes reduced. This reaction forms NADH, (Nicotinamide adenine dinucleotide) which can then be used as a reducing agent to donate electrons. These electron transfer reactions are the main function of NAD+. However, it is also used in other cellular processes, the most notable one being a substrate of enzymes that add or remove chemical groups from proteins, in posttranslational modifications. Because of the importance of these functions, the enzymes involved in NAD+ metabolism are targets for drug discovery.
Product Name: b-Nicotinamide-adenine Dinucleotide, reduced(NADH)
Purity: 90%, 98%
CAS No.: 606-68-8
Formula: C21H27N7O14P2•Na2
Maximum absorption wave length: 260nm and 340nm
Appearance: White to yellowish lyophilized powder
Storage: Keep dry and away from light, long term storage at -25℃ to -15℃
Nicotinamide adenine dinucleotide, abbreviated NADh+, is a coenzyme found in all living cells. The compound is a dinucleotide, since it consists of two nucleotides joined through their phosphate groups. One nucleotide contains an adenine base and the other nicotinamide.
In metabolism, NAD+ is involved in redox reactions, carrying electrons from one reaction to another. The coenzyme is, therefore, found in two forms in cells: NAD+ is an oxidizing agent – it accepts electrons from other molecules and becomes reduced. This reaction forms NADH, (Nicotinamide adenine dinucleotide) which can then be used as a reducing agent to donate electrons. These electron transfer reactions are the main function of NAD+. However, it is also used in other cellular processes, the most notable one being a substrate of enzymes that add or remove chemical groups from proteins, in posttranslational modifications. Because of the importance of these functions, the enzymes involved in NAD+ metabolism are targets for drug discovery.
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