NAD+ Peptide for Sale
Nicotinamide adenine dinucleotide (NAD⁺) is a coenzyme that is found naturally in all living cells. It helps make energy and keep the metabolism in balance. It is also a key component in redox processes. This coenzyme also regulates enzymes involved in DNA repair, the stress response, and healthy aging, like sirtuins and PARP.
Product Details
CAS No. | 53-84-9 |
Chemical Formula | C₂₁H₂₇N₇O₁₄P₂ |
Purity | ≥99% purity (HPLC-verified) |
Form | Sterile lyophilized powder |
Available Strengths | 100 mg, 200 mg, and 500 mg per vial |
Molecular Weight | 663.43 g/mol |
Storage | Store at -20°C for long-term use |
NAD+ Mechanism in Aging: Research Insights
Research reveals that naturally declining levels of NAD⁺ come with aging. This affects several important functions of cells. NAD⁺ helps to run important cellular processes. Energy generation is supported by activated enzymes that repair DNA, metabolism, and inflammation.
Low NAD⁺ levels can lead to genomic instability. This affects cells’ ability to repair DNA. It also impacts how they regulate stress and maintain genetic information. Diabetes, high blood pressure, arthritis, and cognitive deterioration are associated with this reduction. Researchers focus on NAD⁺ as a prominent target in longevity research. This is because of its role in neurodegeneration, inflammaging, and cellular senescence.
Research Applications NAD+ Investigating aging pathways and cellular pathways
Studies of aging have revealed that it is a changeable process under the impact of molecular and cellular components. Numerous studies suggest NAD+ diminishes with age. Researchers have extensively studied the role of NAD⁺ to halt or reverse aging. NAD⁺ enhancement impacts anti-aging pathways in test models. This makes it a valuable chemical for biochemical assays , regenerative medicine, and preclinical research.
Benefits of Exploring Energy Metabolism in Neurodegenerative Models
In neurodegenerative diseases, increasing NAD⁺ has shown promise in terms of energy homeostasis and brain cell protection. It is especially important in brain regions affected by conditions like Parkinson’s disease (PD). Studies in lab settings suggest that low NAD⁺ levels may be linked to the breakdown of dopamine-producing neurons. It has been shown that increasing NAD⁺ improves mitochondrial function.
Additional advantages include the regulation of protein balance inside cells, the prevention of adverse immune responses in the brain, and proteostasis. Due to these effects, the role of NAD⁺ in neuroscience research has been the subject of extensive research.
Benefits of NAD+ in Skeletal Muscle Research
NAD⁺ is a key factor in energy metabolism. It also supports muscle performance in skeletal muscle research. Research suggests that dietary precursors (e.g., NMN, NR) may benefit illnesses. These are linked to NAD⁺ deficiency by increasing NAD⁺ levels.
Researchers examine these compounds for effects on muscle tissue research, cellular function, training adaptation, and muscular energy generation. Though some positive results in clinical models. Studies on healthy test subjects show slight variations in muscle or physical performance. Scientists are investigating this method to better grasp how NAD⁺ influences muscular energy pathways. Particularly in stress or NAD⁺ depletion. Hence guiding its function in muscle health and recovery.
NAD+ in Cardiovascular Functions
NAD⁺ protects the heart from diseases such as metabolic syndrome, hypertension, arrhythmias, and heart failure. This is done by maintaining normal NAD⁺ levels. It is especially important during periods of stress or aging.
The heart is more susceptible to metabolic imbalance and injury. This is a result of decreased NAD⁺ levels. Thus, increasing NAD⁺ via particular chemicals is under investigation. It may support cardiovascular health and normalize energy metabolism. It may also lower the risk of disease progression in in vitro studies
Why Choose NAD+ Peptide from RCDbio?
Since NAD+ is a powerful coenzyme, it is essential to get high-purity peptides from reliable vendors like RCDbio. This is the reason:
- Focusing on lab safety, purity, and quick domestic shipment, RCDbio is a reliable U.S.-based supplier of research peptides and chemicals.
- RCDBio tests our NAD+ peptide’s purity and efficacy. Every batch is checked for quality using outside labs under direction.
- RCDbio ensures your products are securely packaged and stored under optimal conditions to maintain integrity.
FAQs
What foods are high in NAD+?
Foods may not contain NAD⁺ directly. However, they include precursors like tryptophan, nicotinamide, and vitamin B3 (niacin). Chicken, tuna, liver, mushrooms, and green vegetables can help support NAD⁺ levels. These sources, though, may be inconsistent and insufficient across test models. Because of this, researchers are studying direct NAD⁺ peptide. This helps better control and detect its effects in laboratory testing.
What are the known side effects of NAD+?
Although NAD⁺ is generally safe in research settings, some studies have noted minor side effects. These may include nausea. Fatigue, headache, or flushing can also occur after a sudden increase in NAD⁺. Researchers are still exploring these reactions. Ongoing studies aim to understand long-term effects and overall tolerance.
Disclaimer
NAD⁺ (Nicotinamide Adenine Dinucleotide) peptide is strictly for laboratory use only and is not for human consumption or veterinary use. It is intended for laboratory and investigational purposes only.
RCDBio complies with U.S. peptide research regulations, ensuring that all products are sold for legitimate research purposes only.
Johnny Odom –
Consistently high quality, never disappointed.
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Exactly what I expected, no complaints here.
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I’ve been feeling much better. This is fantastic.