3-Methyl-L-histidine N-Hydrate: Applications and Biochemical Research Insights
Uncover the multifaceted role of 3-Methyl-L-histidine N-Hydrate in scientific discovery and potential therapeutic applications.
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3-Methyl-L-histidine N-Hydrate
As a key compound in biochemical research, 3-Methyl-L-histidine N-Hydrate (CAS: 368-16-1) offers significant insights into muscle metabolism and protein turnover. Its unique chemical structure makes it a valuable tool for scientists exploring cellular pathways and disease mechanisms. This chemical entity is not just a research chemical but a potential component in developing treatments that target metabolic disorders.
- Unlock potential treatments by understanding the role of 3-Methyl-L-histidine in pharmacological PPARα agonists, which stimulate pathways related to protein breakdown.
- Utilize 3-Methyl-L-histidine N-Hydrate in biochemical research to investigate complex biological processes and cellular functions.
- Explore its significance as a biomarker for meat consumption, offering a quantifiable link between diet and physiological markers.
- Investigate methylhistidine metabolism and its association with various diseases, paving the way for diagnostic and therapeutic advancements.
Key Advantages
Research Versatility
The versatility of 3-Methyl-L-histidine N-Hydrate in biochemical research allows for diverse experimental designs, from cellular studies to broader metabolic investigations.
Metabolic Insight
Gain deeper understanding into muscle metabolism and disease through the study of this compound, a critical player in protein breakdown pathways.
Biomarker Utility
Leverage 3-Methyl-L-histidine as a quantifiable biomarker for muscle protein breakdown, aiding in the assessment of physiological conditions.
Key Applications
Biochemical Studies
Essential for in-vitro studies exploring protein modification and metabolic pathways, supporting advancements in understanding methylhistidine metabolism and disease.
Nutritional Science
Serves as a crucial biomarker for meat consumption, particularly chicken, providing valuable data in dietary assessment and research.
Pharmacological Research
Investigating compounds like 3-Methyl-L-histidine in the context of pharmacological PPARα agonists may lead to novel therapeutic strategies for muscle-related conditions.
Clinical Diagnostics
Its role in tracking muscle protein turnover makes it a subject of interest for developing new diagnostic tools for conditions related to muscle health, aiding in muscle metabolism research.