Acetyl-4-bromo-DL-phenylalanine: Your Key to Advanced Research
Unlock breakthroughs in pharmaceuticals and biochemistry with this vital amino acid derivative.
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Acetyl-4-bromo-DL-phenylalanine
A strategically synthesized derivative of phenylalanine, this compound is essential for researchers seeking to innovate in drug discovery and biochemical analysis. Its unique structure, featuring a bromine atom and an acetyl group, enhances reactivity for precise molecular modifications, leading to more effective compounds.
- Explore the potential of brominated amino acids in drug discovery and understand how this compound aids in creating novel therapeutic agents.
- Leverage this compound as a crucial building block for advanced peptide synthesis, facilitating the development of complex biomolecules.
- Utilize its properties in biochemical research reagents for studying protein interactions and enzyme activities, gaining insights into metabolic processes.
- Discover its role as a key component in medicinal chemistry, enabling the design of potent inhibitors and modulators for biological pathways.
Key Advantages
Enhanced Reactivity
The presence of a bromine atom and an acetyl group on the phenylalanine backbone provides unique chemical handles, making it ideal for targeted modifications and synthesis, crucial for pharmaceutical development.
Broad Applicability
From developing drugs for neurological disorders to intricate peptide synthesis, this compound serves as a versatile tool across various scientific disciplines.
High Purity and Reliability
With a typical purity of u2265 98% (HPLC), researchers can rely on the consistency and quality of this compound for accurate and reproducible experimental results, supporting meticulous biochemical research.
Key Applications
Pharmaceutical Development
A critical intermediate in the synthesis of novel pharmaceuticals, particularly those targeting complex diseases, aiding in drug discovery.
Biochemical Research
An indispensable tool for investigating protein-ligand interactions and enzyme kinetics, enhancing understanding of cellular mechanisms and supporting biochemical analysis.
Peptide Synthesis
Serves as a foundational building block in constructing custom peptides, essential for creating therapeutic peptides and diagnostic tools, furthering peptide synthesis innovation.
Material Science
Its unique properties are explored in the creation of advanced materials, contributing to innovations in fields requiring specific thermal or mechanical characteristics, leveraging advanced material properties.