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NAD+ 500mg

$ 54.95

NAD+ (Nicotinamide Adenine Dinucleotide) is a high-purity research compound designed for advanced laboratory studies investigating cellular energy metabolism, redox reactions, and biochemical signaling pathways. NAD+ plays a critical role in electron transfer processes within cells, supporting studies on ATP production, mitochondrial function, and oxidative phosphorylation, making it a vital tool for metabolic and molecular research.

Researchers use NAD+ to explore pathways related to energy balance, enzymatic activity, DNA repair mechanisms, and sirtuin activation in controlled laboratory conditions. Its stable formulation ensures reliable performance in in vitro assays, pre-clinical models, and molecular experiments focused on metabolic regulation and biochemical signaling networks.

Each vial of NAD+ is manufactured under stringent quality standards, providing consistency, structural integrity, and stability required for professional laboratory research.

For Research Use Only – Not for Human Consumption

Availability: In stock

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NAD+ (Nicotinamide Adenine Dinucleotide) is a critical coenzyme and research-grade compound widely used in laboratory studies to investigate cellular energy metabolism, enzymatic activity, redox balance, and biochemical signaling pathways. As a central player in electron transfer and oxidative phosphorylation, NAD+ facilitates ATP production, mitochondrial function, and energy homeostasis, making it essential for metabolic research and cellular bioenergetics studies.

In modern laboratory research, NAD+ is utilized to study mechanisms involving cellular energy balance, enzymatic reactions, sirtuin activation, DNA repair, and oxidative stress responses. Its role in electron transfer between NADH and NAD+ is pivotal for examining metabolic flux, mitochondrial efficiency, and biochemical signaling under controlled experimental conditions. Researchers can leverage NAD+ to understand the dynamics of redox reactions, mitochondrial respiration, and metabolic adaptation in various cell and tissue models.

Research applications for NAD+ include:

  • Investigation of cellular energy metabolism and ATP synthesis

  • Analysis of oxidative phosphorylation and redox reactions

  • Studies on enzymatic cofactor activity and metabolic regulation

  • DNA repair mechanism and sirtuin pathway research

  • Oxidative stress response evaluation in in vitro and pre-clinical models

  • Comparative studies of metabolic and biochemical pathway modulation

  • Cellular signaling and molecular pathway mapping

NAD+ is provided in a stable, high-purity form suitable for laboratory use. Each batch undergoes rigorous quality control, including purity verification, structural confirmation, and sterile preparation, ensuring consistent experimental outcomes. Its validated formulation minimizes variability in results, allowing researchers to focus on mechanistic insights and data interpretation.

In addition to energy metabolism studies, NAD+ is valuable for research exploring metabolic dysfunction, mitochondrial performance, enzyme regulation, and cellular adaptation processes. Laboratories can incorporate NAD+ in multi-phase experimental designs, including time-course assays, pathway modulation studies, and cellular stress modeling, to evaluate how changes in NAD+ availability affect biological processes at the molecular level.

It is important to note that NAD+ is not intended for human consumption, supplementation, clinical use, or therapeutic application. It is a laboratory-grade research compound, and handling should be restricted to trained professionals in controlled research settings following appropriate laboratory safety protocols.

By providing a reliable and high-quality NAD+ formulation, this compound enables researchers to perform advanced studies in cellular bioenergetics, metabolic regulation, redox biology, and molecular signaling with reproducibility, accuracy, and confidence. Its applications in energy metabolism, enzymatic research, and mitochondrial function studies make NAD+ an indispensable tool for modern laboratory investigations.

For Research Use Only – Not for Human Consumption

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