NADPH Tetrasodium Salt: A Vital Cofactor for Cellular Redox Reactions and Biosynthesis
Discover the critical role of NADPH tetrasodium salt in cellular energy metabolism and as an essential cofactor for a multitude of enzymatic reactions, crucial for maintaining cellular health and driving vital biosynthetic pathways.
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NADPH Tetrasodium Salt
As a leading supplier in China, we provide high-quality NADPH tetrasodium salt, a vital coenzyme essential for numerous cellular processes. It acts as a primary electron donor in many enzyme-catalyzed oxidation-reduction reactions, supporting critical anabolic pathways like lipid and cholesterol biosynthesis. Our commitment ensures you receive a reliable product, manufactured with precision to meet your research needs. We are a dedicated manufacturer in China, focused on delivering excellence in biochemicals.
- Essential Cofactor for Biosynthesis: Utilizing NADPH tetrasodium salt enables efficient lipid and cholesterol biosynthesis, key processes for cellular structure and function.
- Critical for Antioxidant Defense: This compound plays a vital role in cellular antioxidant mechanisms, protecting against the accumulation of reactive oxygen species.
- Supports Redox Reactions: As a key electron donor, it facilitates a wide range of enzymatic redox reactions, underpinning cellular energy transfer and metabolic regulation.
- High Purity for Research: Our NADPH tetrasodium salt is supplied with high purity, ensuring reliable and reproducible results in your sensitive biochemical assays and studies.
Advantages of Using Our Product
Enhanced Solubility
The tetrasodium salt form of NADPH ensures superior solubility in aqueous solutions, simplifying preparation and enhancing its utility in various research applications.
Stability and Handling
While unstable in acidic media, proper storage at low temperatures and neutral to alkaline pH maintains the integrity of NADPH tetrasodium salt, vital for consistent experimental outcomes.
Versatile Cofactor Role
Leverage the broad applicability of NADPH in studies related to enzyme kinetics, oxidative stress, and metabolic pathway analysis, making it a cornerstone biochemical.
Key Applications
Enzyme Kinetics Studies
NADPH tetrasodium salt is extensively used as a substrate in studies of dehydrogenase and reductase enzymes, providing crucial insights into enzyme mechanisms and reaction rates.
Metabolic Pathway Analysis
Investigate complex metabolic pathways, including fatty acid synthesis and cholesterol metabolism, by utilizing NADPH's role as a reducing agent in these biosynthetic processes.
Oxidative Stress Research
Explore the mechanisms of oxidative stress and cellular defense by examining the function of NADPH in regenerating reduced glutathione and other crucial antioxidants.
Biochemical Research
This fundamental cofactor is indispensable for a wide array of biochemical assays and research focusing on cellular respiration and energy transfer within living systems.