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NAD+
€ 72,45
Don't forget the reconstitution water
Required for dissolving freeze-dried peptides.
All products are intended for laboratory research only and are not suitable for human or animal consumption. By purchasing, the buyer agrees to use these products in accordance with all applicable laws.
This substance has not been evaluated or approved by the European (EMA), American (FDA) or Dutch (MEB/IGJ) medicines authorities for any human or veterinary use. No medical, therapeutic, diagnostic or preventive use is claimed or implied.
NAD+ (Nicotinamide Adenine Dinucleotide) is an essential coenzyme found in all living cells and plays a central role in cellular energy production, redox reactions, and metabolic signaling pathways. It is extensively studied in molecular, biochemical and mitochondrial research because of its fundamental function in energy management and cellular regulation.
As a crucial component in biological systems, NAD+ acts as an important electron carrier that enables reactions in which nutrients are converted into usable cellular energy. Because of this, it is often used in research on mitochondrial function, metabolic efficiency, and biochemical pathways.
Structure and Biological Role of NAD+
NAD+ occurs in two primary forms within biological systems:
• NAD+ (oxidized form)
• NADH (reduced form)
The balance between these two forms is essential for maintaining cellular redox status and energy homeostasis.
Key biological functions:
• Electron transfer in metabolic reactions
• Support of mitochondrial ATP production
• Regulation of redox balance within cells
• Interaction with enzymatic and signaling pathways
NAD+ also plays a role in processes such as cellular repair, signal regulation and metabolic adaptation, making it a central molecule in biological research.
NAD+ Structure and Molecular Data
Molecular Name: Nicotinamide Adenine Dinucleotide (NAD+)
Molecular Formula: C21H27N7O14P2
Molecular Weight: ~663.43 g/mol
The structure of NAD+ allows it to function as a coenzyme in redox reactions, which is essential for energy production and biochemical pathway functionality within experimental models.
NAD+ Research Findings
NAD+ has been extensively studied in metabolic, cellular and mitochondrial models, with a focus on energy production and signaling pathways.
Research shows activity related to:
• Cellular energy production and ATP-related pathways
• Redox balance and oxidative metabolism
• Mitochondrial function and metabolic regulation
• Enzymatic activity and signal modulation
Major Research Areas of NAD+
Metabolic Research
Focus on energy production, nutrient metabolism and pathway efficiency.
Mitochondrial Research
Analysis of cellular respiration and energy generation.
Cellular Research
Study of redox balance, signaling pathways and molecular regulation.
Systemic Research
Research into metabolic coordination within complex biological systems.
Scientific Relevance of NAD+
NAD+ is considered a fundamental molecule in biochemical and metabolic research due to its essential role in energy production, redox reactions, and cellular signaling processes.
Its involvement in virtually all aspects of cellular metabolism makes it a crucial subject for studying biological efficiency, metabolic regulation, and mitochondrial function.
References
Yoshino J. et al. (2018). NAD+ metabolism and its role in cellular function.
Cantó C. et al. (2015). NAD+ as a metabolic regulator.
Verdin E. (2015). NAD+ in aging and metabolic regulation.
Our Process
Frequently asked questions
Each batch is independently tested by third-party laboratories using HPLC and mass spectrometry. You can view the Certificate of Analysis (COA) of your specific batch on our lab results page.
Orders placed before 15:00 will be shipped the same day from our EU warehouse. Delivery typically takes 1–3 business days, depending on your location within Europe.