Unlock Metabolic Research with 5-Amino-1MQ
A cutting-edge NNMT inhibitor for groundbreaking biotechnology and metabolic studies.
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5-Amino-1MQ
This high-purity compound is a selective nicotinamide N-methyltransferase (NNMT) inhibitor, offering transformative potential for metabolic and obesity research. By targeting a key enzyme in cellular energy regulation, it promotes fat reduction and enhances energy expenditure through unique biological pathways, making it invaluable for understanding obesity mechanisms.
- Investigate Obesity Mechanisms: Explore how this NNMT inhibitor for metabolic research can reduce white adipose tissue while preserving muscle mass.
- Advance Metabolic Disorder Studies: Utilize this metabolic research compound to improve glucose homeostasis and insulin sensitivity.
- Explore Longevity Applications: Leverage this longevity research compound to modulate NAD+ metabolism for potential age-related decline benefits.
- Ensure Research Integrity: Rely on third-party validated purity (HPLC/MS) for your critical biotechnology research.
Key Advantages
Unrivaled Purity
Achieve reliable results with our NNMT inhibitor for metabolic research, boasting >99% HPLC purity verified by third-party testing.
Stable Supply Chain
Ensure uninterrupted research progress with a stable supply of this biotechnology research compound, supported by temperature-controlled logistics.
Expert Technical Support
Receive dedicated assistance for your experimental design, making the most of this metabolic research compound.
Key Applications
Metabolic Research
Investigate the intricate pathways of metabolism and energy expenditure with our advanced NNMT inhibitor for metabolic research.
Obesity Studies
Gain deeper insights into obesity mechanisms and fat reduction strategies using this potent NNMT inhibitor for obesity studies.
Biotechnology Research
Accelerate discoveries in biotechnology with this high-quality biotechnology research compound, crucial for cellular and molecular studies.
Longevity Science
Explore the potential modulation of NAD+ metabolism for longevity applications with this specialized research chemical.