High-Purity Nicotinamide Adenine Dinucleotide Phosphate (NADP) for Advanced Applications
Unlock advanced biochemical processes and innovative drug development with our superior cofactor.
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β-Nicotinamide Adenine Dinucleotide Phosphate (Monosodium/Disodium Salt)
This high-purity Nicotinamide Adenine Dinucleotide Phosphate (NADP) is a critical coenzyme, widely present in biological systems. It functions primarily as an oxidized coenzyme II, vital for numerous metabolic pathways and essential for a wide range of scientific and industrial applications.
- Essential for biological enzyme reactions and a key component in diagnostic reagents.
- Supports the enzymatic synthesis of critical pharmaceutical intermediates and APIs.
- Functions as an oxidized coenzyme, vital for various metabolic pathways in cellular life.
- Produced with advanced freeze-drying and purification technologies for consistent high purity.
Product Advantages
Enhanced Product Stability
Our advanced freeze-drying technology ensures exceptional `NADP product quality` and extended shelf life, vital for sensitive `biochemical applications`.
Sustainable Production Process
Utilizing an environmentally `green enzymatic synthesis method` eliminates harmful solvent residues, supporting `sustainable pharmaceutical raw material` sourcing.
Superior Purity and Performance
Experience higher product content and conversion rates with our `unique seven-step purification technology` for optimal `enzyme catalysis efficiency`.
Key Applications
Diagnostic Reagents
As a crucial `diagnostic reagent raw material`, NADP is integral to various test kits, including `creatine kinase assays`.
Pharmaceutical Manufacturing
A key `pharmaceutical raw material` and intermediate, supporting the synthesis of `atorvastatin and montelukast` APIs.
Enzyme Catalysis
Essential for `enzyme catalyzed reactions` such as those involving `ketoreductase`, crucial for `biochemical research` and industrial processes.
Scientific Research
Widely used in `biochemical cofactor research` and development, contributing to advancements in `redox biology` and metabolism studies.