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⚠ Product Usage: For Research Use Only – Not for Human or Veterinary Use

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NAD+

Price range: $49.00 through $349.00

NAD+ Boosting Compounds combine Nicotinamide Mononucleotide (NMN) and Nicotinamide Riboside (NR) with specially designed peptide modulators to create a reliable research model for studying cellular energy and mitochondrial function.
This formulation supports laboratory research focused on NAD+ biosynthesis, ATP production, and oxidative balance — key pathways behind energy regulation and cellular repair.

Bacteriostatic water needed for reconstitution. 

Earn up to 349 points.

⚠ Product Usage: For Research Use Only – Not for Human or Veterinary Use

10peptides products are supplied to qualified research professionals and institutional users for in vitro laboratory research only. KYC verification is required prior to order fulfillment, and we reserve the right to refuse orders that do not meet buyer qualification criteria. These products are not drugs, foods, cosmetics, or dietary supplements, have not been evaluated by the FDA, and are not intended for human or animal use. Any such use is prohibited and may violate federal, state, or local law. By purchasing, the buyer represents and warrants that the product will be used solely for in vitro research.

Technical Specifications

Molecular Data
Product Ref
NAD+
CAS Number
53-84-9
Chemical Class
coenzyme
Molecular Weight
663.43 g/mol
Sequence Length
Format
Lyophilized powder (typically solid white appearance)
Mass Format
500mg
Purity
Greater than 99%
Solubility
Storage
Store at -20°C as a dry lyophilized powder for long-term stability
Intended Use
For laboratory research use only

Product Description

NAD+ Boosting Compounds (NMN / NR + Peptide Modulation): Cellular Energy & Mitochondrial Research Complex

Product Specifications

– Formula: NMN + NR + peptide modulators
– Molecular Weight: Variable (blend dependent)
– Purity: ≥99% (HPLC verified)
– Disclaimer: For Research Use Only. Not for human or veterinary use.

Integrated NAD+ Precursors with Peptide Modulators: Research Rationale & Synergy

The NAD+ Boosting Compounds blend was designed for researchers exploring how cells produce, manage, and sustain energy. It combines Nicotinamide Mononucleotide (NMN) and Nicotinamide Riboside (NR), two of the most studied NAD⁺ precursors, with specialized peptide modulators that enhance molecular stability and performance under laboratory conditions. Together, these components create a robust research platform for studying cellular metabolism, oxidative balance, and mitochondrial function-core processes essential to understanding energy generation and bioenergetic resilience.

When NMN and NR are combined with peptide modulators, the research benefits multiply. Peptides can stabilize fragile molecules, improve bioavailability, and influence receptor-mediated processes that drive intracellular communication. This creates an experimental model that mimics real cellular dynamics more closely, allowing scientists to examine NAD+ driven redox cycles, oxidative stress management, and energy transduction under controlled conditions. These qualities make NAD⁺ Boosting Compounds a valuable tool for studying cellular recovery, stress adaptation, and energy restoration pathways.

NAD+ Biology in Energy & Genome Maintenance, with Sirtuin-Dependent Regulation

In every living cell, NAD+ (Nicotinamide Adenine Dinucleotide) plays a central role in converting nutrients into energy. It serves as a coenzyme in redox reactions, helping drive electron transfer through pathways such as glycolysis and the Krebs cycle. Beyond energy conversion, NAD+ is essential for DNA repair, chromatin remodeling, and gene regulation through enzymes like sirtuins and PARPs. As cellular NAD+ levels naturally decline with age or stress, laboratory models using NMN and NR help scientists study how restoring NAD+ affects mitochondrial efficiency, protein regulation, and adaptive signaling.

Another major area of exploration involves sirtuin activation, as sirtuins are NAD+-dependent enzymes that govern gene silencing, protein deacetylation, and metabolic adaptation. By replenishing NAD+ levels experimentally, scientists can observe how sirtuins influence transcription, repair pathways, and overall cellular balance. This peptide-supported model makes it possible to study these effects with greater precision and consistency than with NAD+ precursors alone.

Redox Signaling & Mitochondrial Function: Models and Longitudinal Readouts

A key focus of NAD plus research involves understanding its impact on redox signaling, the delicate balance of oxidation and reduction that regulates cellular health. Changes in NAD+ levels can shift this equilibrium, influencing enzyme activity, protein folding, and mitochondrial resilience. Experiments using NMN and NR in combination with peptides enable researchers to investigate how these compounds affect metabolic performance and cellular longevity mechanisms. Such studies are critical for building knowledge about how cells adapt to oxidative or environmental stress without crossing into therapeutic research claims.

Moreover, the synergy between NAD+ precursors and peptides enables reproducible modeling of mitochondrial performance and redox equilibrium. This allows scientists to measure long-term biochemical effects while ensuring consistency in replicable trials, an essential feature for ongoing research in metabolic signaling, aging studies, and cellular bioenergetics.

HPLC/MS-Validated Purity and Reproducibility Across Assays

Each batch of NAD+ Boosting Compounds is validated through HPLC and Mass Spectrometry testing to confirm purity and structural integrity. The formulation ensures reliable and reproducible outcomes across multiple assays, supporting applications in molecular biology, biochemistry, and pharmacological peptide research. Researchers can explore how NAD+ restoration impacts ATP synthesis, enzyme kinetics, or metabolic flux within a well-controlled, high-purity environment.

Research-Only Formulation for Metabolism, Sirtuin, and Resilience Studies

In conclusion, NAD+ Boosting Compounds (NMN / NR + Peptide Modulation) provide researchers with a high-precision, high-purity formulation for studying energy metabolism, sirtuin regulation, and cellular resilience. Their integrated design bridges the fields of peptide biochemistry and NAD+ metabolism, creating a new standard for laboratory-based exploration of molecular energy systems and redox biology. This compound is exclusively intended for experimental and academic use, offering scientists a consistent and advanced model to deepen their understanding of energy regulation at the cellular level. For Research Use Only. Not for human or veterinary use. Information presented here is based on published studies and provided solely for scientific reference.

Features / Highlights

Supports NAD+ metabolism and redox research. Enhances mitochondrial and cellular energy studies. Integrates NMN, NR, and peptide modulators for advanced modeling. Verified purity (≥99%, HPLC-tested). Ensures reproducibility across multiple experimental setups. Designed strictly for Research Use Only (RUO) standards

Selected Research References

1.Mills KF et al. Cell Metabolism (2016) – Long-term administration of NMN mitigates age-associated physiological decline in mice. 2.Trammell SA et al. Nature Communications (2016) – NR is uniquely bioavailable in mice and humans. 3.Yoshino J et al. Cell Metabolism (2018) – NAD plus intermediates: The biology and potential of NMN and NR.

Storage Instructions

Store at −20°C in a tightly sealed container. Protect from light and moisture. Avoid repeated freeze–thaw cycles to maintain purity and stability.

“These Statements Have Not Been Evaluated By The Food And Drug Administration.
This Product Is Not Intended To Diagnose, Treat, Cure Or Prevent Any Disease.”

FAQ

What are NAD+ Boosting Compounds used for?

They are designed for laboratory research exploring NAD+ metabolism, cellular energy, and mitochondrial efficiency.


Are these compounds safe for human use?

No. They are strictly for research purposes, not for human or veterinary application.


How do NMN and NR differ?

NMN and NR enter the NAD plus synthesis cycle through different enzymes, offering complementary insights for comparative metabolic studies.


What is the role of peptides in this blend?

Peptide modulators stabilize the compound and help improve delivery and uptake in experimental systems.


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PLEASE READ!

The products on this website are for legitimate research use only. They are not intended to prevent, treat, or cure any illness or disease and are not intended for human consumption. By accessing this site, you acknowledge that you are at least 21 years of age, understand these terms, and have a legitimate research basis for buying these products

NOTE: All of our compounds are sold individually, and DO NOT include research supplies such as syringes. Most are sold in powder form and require reconstitution with a suitable diluent solution prior to research.