High Quality NADH N...

High Quality NADH Nicotinamide Adenine Dinucleotide Powder CAS NO. 606-68-8

High Quality NADH Nicotinamide Adenine Dinucleotide Powder CAS NO. 606-68-8

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10 Gram

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  • Min.Order :10 Gram
  • Purity: 99%
  • Payment Terms : T/T,

Keywords

NADH Nicotinamide Adenine Dinucleotide CAS 606-68-8

Quick Details

  • Appearance:white powder
  • Application:used as a reducing agent to donate electrons. also used in other cellular processes, the most notable one being a substrate of enzymes that add or remove chemical groups from proteins, in posttrans
  • PackAge:aluminum foil bag
  • ProductionCapacity:100|Kilogram|Month
  • Storage:cool and dry place
  • Transportation:email: wonda-chem@outlook.com

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Details:

Product Name:Nicotinamide Adenine Dinucleotide

Purity: 95%, 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.

 

In organisms, NAD+ can be synthesized from simple building-blocks (de novo) from the amino acids tryptophan or aspartic acid. In an alternative fashion, more 

complex components of the coenzymes are taken up from food as the vitamin called niacin. Similar 

compounds are released by reactions that break down the structure of NAD+. These preformed

 components then pass through a salvage pathway that recycles them back into the active form. Some

 NAD+ is also converted into nicotinamide adenine dinucleotide phosphate (NADP+); the chemistry

 of this related coenzyme is similar to that of NAD+, but it has different roles in metabolism.

 

 

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