NADP, Disodium Salt CAS 24292-60-2
Product Name: |
NADP, Disodium Salt |
Synonyms: |
NADP,NA2;TPN,2NA;TPN DISODIUM SALT;NADP,DISODIUM SALT;TPN,NA2;COENZYME II;β-Nicotinamide Adenine Dinucleotide Phosphate Disodium Salt;EINECS 246-129-8;β-NADP-Na2;MFCD00065390;β-NADH phosphate;disodium salt;NADHP;Triphosphopyridine nucleotide,disodium salt |
CAS NO: |
24292-60-2 |
EINECS: |
246-129-8 |
Molecular Formula: |
C21H26N7Na2O17P3 |
Molecular Weight: |
787.37 |
Melting Point: |
175-178 °C |
Appearance: |
Yellow powder |
Storage: |
-20°C |
Solubility: |
Water Solubility >50 g/L |
Description
NADP Disodium Salt, CAS 24292-60-2: The Powerhouse Coenzyme for Biosynthesis and Cellular Health
Join us on a journey to uncover the remarkable world of NADP Disodium Salt, CAS 24292-60-2, a coenzyme that plays a vital role in the world of biosynthesis and cellular health.
- Biological Energetics: NADP (Nicotinamide Adenine Dinucleotide Phosphate) is an essential coenzyme, serving as a carrier of electrons and a key player in various metabolic processes. It participates in biosynthetic reactions crucial for the production of molecules such as fatty acids and nucleotides.
- Oxidative Defense: NADP also plays a pivotal role in antioxidant defense mechanisms, helping cells combat oxidative stress and prevent damage caused by free radicals. This function contributes to overall cellular health and longevity.
- Enzymatic Catalyst: As a cofactor for numerous enzymes, NADP enables these enzymes to carry out essential reactions efficiently. This is essential for a wide range of biological processes, from energy production to DNA repair.
- Biotechnological Significance: NADP Disodium Salt is a valuable tool in biotechnology and research. Its applications range from enzymatic assays to the production of biofuels and pharmaceuticals.
- Scientific Innovation: Researchers continue to explore the diverse applications of NADP in understanding cellular function and developing novel therapies, highlighting its significance in advancing scientific knowledge.
- Elevate Your Understanding: Recognizing the importance and potential of NADP Disodium Salt, CAS 24292-60-2, underscores its central role in the fields of biochemistry, biotechnology, and health sciences.
Whether you're a biochemist unraveling the intricacies of biosynthesis, a biotechnologist developing cutting-edge applications, or someone passionate about understanding the building blocks of life, unveiling the potential of NADP offers profound insights into its pivotal role in sustaining cellular vitality and advancing scientific progress.
Your journey to discover the significance of this coenzyme, from its contributions to biosynthesis to its applications in biotechnology, begins here. Delve into its uses to gain a deeper understanding of its vital place in advancing scientific knowledge and supporting various aspects of life and health. Unleash the full potential of your knowledge and curiosity.
Application
NADP (Nicotinamide adenine dinucleotide phosphate) is a coenzyme derived from NAD+ and plays a crucial role in various cellular processes, particularly in redox reactions. The disodium salt form of NADP, with the CAS number 24292-60-2, is a stable and water-soluble version of NADP. Here are some reported usages and functions of NADP, Disodium Salt:
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Redox reactions: NADP, Disodium Salt serves as a cofactor in numerous enzymatic reactions that involve oxidation and reduction processes. It acts as an electron carrier, shuttling electrons between different enzymes and substrates, facilitating metabolic reactions and maintaining cellular homeostasis.
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Biosynthesis of macromolecules: NADP, Disodium Salt is involved in biosynthetic pathways, including fatty acid synthesis, cholesterol synthesis, and nucleotide synthesis. It provides the necessary reducing power (in the form of NADPH) for these anabolic processes, contributing to the production of essential molecules in the cell.
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Antioxidant defense: NADPH, the reduced form of NADP, plays a critical role in antioxidant defense mechanisms. It provides reducing equivalents to enzymes such as glutathione reductase and thioredoxin reductase, which help maintain a reduced cellular environment and protect against oxidative damage.
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Detoxification reactions: NADPH-dependent enzymes, such as cytochrome P450 reductase, are involved in the detoxification of xenobiotics and drugs in the liver. NADP, Disodium Salt supports these detoxification reactions by providing the necessary reducing power for enzyme activity.
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Photosynthesis: In plants and algae, NADP, Disodium Salt is a key component in the light-dependent reactions of photosynthesis. It functions as an electron carrier, accepting electrons during the light reactions and participating in the generation of energy-rich molecules like ATP and NADPH, which are used in the synthesis of carbohydrates.
NADP, Disodium Salt is primarily used for research purposes and is not commonly available as a dietary supplement. It is important to note that specific usage and dosages may vary depending on the research application or experimental design. If you are considering using NADP, Disodium Salt for research purposes, it is recommended to consult scientific literature, protocols, or expert guidance to ensure appropriate usage and handling.
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