High-Purity NADH Disodium Salt (CAS 606-68-8)
Essential Cofactor for Cellular Energy Metabolism and Vital Biological Processes.
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NADH Disodium Salt
NADH Disodium Salt is a critical reduced coenzyme essential for cellular energy metabolism. It plays a pivotal role as a biological hydrogen carrier, facilitating the transfer of energy for ATP synthesis through oxidative phosphorylation. Its involvement in glycolysis and cellular respiration makes it a cornerstone for cellular vitality.
- NADH Disodium Salt (CAS 606-68-8) provides high purity (99%) for reliable biochemical applications, serving as a crucial component in enzymatic assays and metabolic studies.
- Understanding the cellular respiration cofactor NADH is key to appreciating its function in generating cellular energy, impacting overall cell health and performance.
- The substance acts as a biological hydrogen carrier, transferring vital energy to facilitate ATP synthesis, a fundamental process for all living cells.
- Monitoring the NADH/NAD+ redox balance is important for characterizing mitochondrial function in vivo, highlighting its role in cellular health and diagnostics.
Key Advantages
Supports Cellular Energy Production
As a vital cofactor, NADH disodium salt is central to the energy metabolism of cells, directly contributing to ATP synthesis and cellular function.
Critical for Enzymatic Activity
Facilitating numerous enzymatic redox reactions, this compound ensures the efficiency of biochemical processes essential for cell growth and survival.
Reliable Research Grade Material
With a purity of 99%, it is an ideal choice for researchers conducting detailed biochemical applications and metabolic studies, ensuring accurate and reproducible results.
Key Applications
Biochemical Assays
Utilized in various enzymatic assays to study reaction kinetics and enzyme mechanisms, contributing to a deeper understanding of biological processes.
Metabolic Studies
Essential for investigating cellular energy production pathways and metabolic disorders, providing insights into cellular health.
Cellular Respiration Research
A key component in studying the electron transport chain and mitochondrial function, crucial for understanding cellular energy generation.
Biotechnology & Pharmaceuticals
Employed as a pharmaceutical intermediate or in biopharmaceutical production, supporting the development of new therapies and research tools.