L-4-Methylphenylalanine: Synthesis, Properties, and Applications in Biochemical Research
Explore the critical role of this phenylalanine derivative in advancing scientific discovery and chemical synthesis.
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L-4-Methylphenylalanine
L-4-Methylphenylalanine, identified by CAS number 1991-87-3, is a crucial derivative of the essential amino acid phenylalanine. It is widely recognized for its utility in specialized biochemical research and as a building block in organic synthesis. Its consistent quality, typically over 97% purity and often analyzed via HPLC to confirm 99.4% purity, makes it a reliable choice for demanding scientific applications.
- Discover the versatility of L-4-Methylphenylalanine as a substrate in enzyme assays, facilitating detailed studies of enzymatic activity and inhibition.
- Leverage the unique properties of this phenylalanine derivative for your protein structure studies, gaining deeper insights into biological mechanisms.
- Investigate its role as a valuable chemical synthesis intermediate, enabling the creation of complex organic molecules with precision.
- Ensure high-quality results in your biochemical research with this high purity amino acid, a cornerstone for accurate experimentation.
Key Advantages
Enhanced Purity for Reliable Results
Achieve consistent and dependable outcomes in your experiments with L-4-Methylphenylalanine, renowned for its exceptional purity levels, making it ideal for sensitive biochemical research applications.
Versatile Application in Research
From detailed enzyme assays to complex protein structure studies, this amino acid derivative offers broad applicability, supporting diverse areas of biochemical investigation.
Critical Role in Organic Synthesis
Utilize L-4-Methylphenylalanine as a key chemical synthesis intermediate, empowering the efficient and stereoselective construction of advanced organic compounds.
Key Applications
Biochemical Research
L-4-Methylphenylalanine is indispensable for researchers exploring fundamental biological processes, acting as a probe into protein function and metabolic pathways.
Enzyme Assays
Serve as a critical substrate in enzyme assays, enabling the in-depth study of enzyme kinetics, inhibition, and mechanism of action.
Protein Studies
Contribute to a deeper understanding of protein structure, function, and dynamics through its incorporation or use in related biochemical experiments.
Organic Synthesis Intermediate
Employ this compound as a vital intermediate in organic synthesis, facilitating the stereoselective preparation of various complex molecules and derivatives.