Unlock Cellular Potential with 5-Amino-1MQ
A potent NNMT inhibitor for metabolic research and muscle regeneration.
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5-Amino-1MQ
5-Amino-1MQ is a highly selective inhibitor of Nicotinamide N-methyltransferase (NNMT), a key enzyme influencing cellular metabolism and NAD+ levels. Its ability to boost NAD+ and SAM levels makes it invaluable for research into cellular energy production and metabolic health.
- This metabolic health research molecule, 5-Amino-1MQ, is crucial for understanding cellular energy production by targeting NNMT.
- Researchers utilize this potent NNMT inhibitor to study muscle regeneration and the enhancement of muscle stem cell function.
- The compound's ability to boost NAD+ levels is central to its investigation for improving cellular energy and overall metabolic health.
- Preclinical studies show promise for this weight management compound in increasing energy expenditure and aiding metabolic processes.
Key Advantages
Metabolic Regulation
By inhibiting NNMT, 5-Amino-1MQ helps regulate metabolic pathways, potentially leading to better energy utilization and metabolic health research outcomes.
Muscle Health Support
The compound shows significant potential in promoting muscle stem cell regeneration and enhancing muscle function, a key area for age-related muscle health solutions.
Energy Enhancement
Its mechanism for boosting NAD+ levels makes 5-Amino-1MQ a prime candidate for research focused on enhancing cellular energy output.
Key Applications
Metabolic Research
Investigating the role of NNMT inhibition in various metabolic conditions, including obesity and diabetes, by utilizing this specific metabolic health research molecule.
Muscle Regeneration Studies
Exploring the compound's capacity to rejuvenate muscle stem cells and improve muscle repair, directly contributing to age-related muscle health solutions.
Weight Management Research
Utilizing 5-Amino-1MQ as a preclinical obesity research agent to understand its effects on fat loss and energy expenditure.
NAD+ Metabolism Research
Leveraging the compound to understand how boosting NAD+ levels impacts cellular energy and overall physiological function.