Price range: $164.99 through $219.99
Nicotinamide adenine dinucleotide (NAD) is a coenzyme molecule that plays a central role in cellular bioenergetic processes. It serves as a fundamental participant in enzymatic reactions commonly examined in controlled research environments.
West Peptides supplies NAD in high purity form to support laboratory studies and analytical applications that involve cellular metabolism and molecular response systems under defined experimental conditions.
Price range: $164.99 through $219.99
Nicotinamide adenine dinucleotide (NAD) is a coenzyme molecule that plays a central role in cellular bioenergetic processes. It serves as a fundamental participant in enzymatic reactions commonly examined in controlled research environments.
West Peptides supplies NAD in high purity form to support laboratory studies and analytical applications that involve cellular metabolism and molecular response systems under defined experimental conditions.
Nicotinamide adenine dinucleotide (NAD) is a coenzyme molecule that plays a central role in cellular bioenergetic processes. It serves as a fundamental participant in enzymatic reactions commonly examined in controlled research environments.
West Peptides supplies NAD in high purity form to support laboratory studies and analytical applications that involve cellular metabolism and molecular response systems under defined experimental conditions.
NAD supplied by West Peptides is presented as a solid, high-purity powder suitable for use in controlled laboratory settings. Its formulation enables accurate solution preparation when combined with appropriate sterile solvents during research workflows.
Researchers often include coenzyme molecules like NAD in experimental designs that investigate biochemical pathways, enzymatic activity, and related molecular systems.
NAD is a naturally occurring coenzyme present in many biological systems and referenced extensively in scientific and biochemical research. It is known for its involvement in electron transfer reactions and its role in metabolic pathways. In laboratory investigations, defined NAD preparations are used to support studies involving:
Laboratories rely on high-purity NAD to ensure consistent and reproducible outcomes when studying molecular processes that involve coenzyme participation.
Compound Name: Nicotinamide adenine dinucleotide
Form: High-purity white powder
Purity: Analytical grade standard
Stability: Stable under recommended laboratory conditions
Every batch of NAD is verified for composition and purity to support consistency in research applications.
NAD is commonly used in laboratory research for:
These use cases reflect settings where defined coenzyme compounds contribute to structured biochemical inquiry.
High Purity Standard
Batch-verified to support reliability and reproducibility in laboratory environments.
Analytical Quality
Produced in accordance with standards suitable for experimental investigation.
What is NAD?
NAD stands for nicotinamide adenine dinucleotide. It is a coenzyme molecule involved in fundamental biochemical processes and used as a reference compound in laboratory research.
Why is NAD used in research environments?
Defined coenzyme preparations like NAD are incorporated into experimental designs that explore metabolic pathways, oxidation-reduction reactions, and enzymatic activity within controlled systems.
Is this NAD synthetic or extracted?
Research-grade NAD is typically produced through controlled manufacturing processes to meet defined purity and consistency standards suitable for scientific investigation.
This product is intended strictly for laboratory research and scientific investigation purposes only.Nicotinamide adenine dinucleotide (NAD) is not approved for human or veterinary use. It is not intended for use as a drug, dietary supplement, cosmetic, or food product.
Our products are produced using a freeze-drying process (lyophilization), which helps maintain their integrity and stability during transit, typically for up to 3–4 months.
After the peptides are reconstituted (mixed with bacteriostatic water), they should be kept refrigerated to preserve their quality. Once in liquid form, they generally remain stable for up to 30 days when stored properly.
Lyophilization—also referred to as cryodesiccation—is a dehydration method where the material is first frozen and then exposed to low pressure. This allows moisture to transition directly from solid to vapor, leaving behind a dry, stable compound in the form of a light, crystalline powder. In this state, the product can be kept at room temperature until it is ready to be reconstituted.
Upon receiving your peptides, it is recommended to protect them from heat and light exposure. For short-term use (ranging from a few days to several weeks), refrigeration below 4°C (39°F) is suitable. Lyophilized products can also tolerate room temperature storage for a limited period if they will be used relatively soon.
For extended storage—spanning several months or longer—freezing is advised. Ideally, peptides should be kept at approximately -80°C (-112°F) to best maintain long-term stability
