Performance Stack

Description

Glutathione + NAD⁺ Research Performance Stack

For Research Use Only. Not for Human or Veterinary Use.

The Glutathione + NAD⁺ Research Stack is designed for laboratory and research applications focused on cellular metabolism, redox balance, and mitochondrial function. This stack combines two extensively studied biomolecules that play central roles in cellular energy pathways and oxidative stress regulation.

Overview

This research stack includes:

Glutathione (GSH)
A naturally occurring tripeptide involved in intracellular redox regulation, detoxification pathways, and antioxidant systems. Glutathione is widely studied for its role in maintaining cellular homeostasis and protecting against oxidative damage.

NAD⁺ (Nicotinamide Adenine Dinucleotide)
A critical coenzyme involved in electron transfer, mitochondrial respiration, and cellular energy metabolism. NAD⁺ is essential for redox reactions and is a key substrate in pathways related to cellular repair and metabolic signaling.

Together, these compounds are commonly studied for their synergistic roles in cellular energy regulation and oxidative stress modulation.

Research Focus Areas

• Cellular redox balance and oxidative stress pathways

• Mitochondrial function and energy metabolism

• Electron transport and metabolic efficiency

• Cellular resilience under stress conditions

• Age-related cellular pathway research

Mechanistic Background

NAD⁺ functions as a central electron carrier in metabolic reactions, supporting glycolysis, the TCA cycle, and oxidative phosphorylation. Declines in NAD⁺ availability are frequently examined in metabolic and aging research models.

Glutathione serves as a primary intracellular antioxidant and cofactor in detoxification systems. It plays a key role in maintaining thiol redox status and supporting enzyme function under oxidative conditions.

When studied together, glutathione and NAD⁺ provide a complementary framework for investigating cellular energy production alongside antioxidant defense mechanisms.

Stack Rationale

• Supports investigation of interconnected metabolic and redox pathways

• Enables research into mitochondrial efficiency and cellular stress response

• Commonly utilized in studies examining cellular aging and metabolic regulation

• Provides a dual-pathway approach: energy metabolism and oxidative balance

Product Characteristics

• Intended strictly for laboratory research use

• Not approved for human consumption

• Not intended to diagnose, treat, cure, or prevent any disease

• Handle and store according to laboratory safety protocols

Disclaimer

For Research Use Only. This product is not intended for human or veterinary use. All information provided is for educational and research purposes only.