In the realm of chemical research, certain molecules stand out for their versatility and ability to unlock new avenues of scientific inquiry. H-D-Bpa-OH, also known as D-4-Benzoylphenylalanine (CAS 201466-03-7), is one such compound. Its unique structural features and chemical reactivity make it an invaluable asset for researchers across various disciplines, from biochemistry to materials science.

At its core, H-D-Bpa-OH is a derivative of the amino acid phenylalanine, specifically the D-enantiomer, modified with a benzoyl group. This seemingly simple modification confers significant functional advantages. The D-configuration is often preferred in peptide synthesis to impart resistance against enzymatic degradation, thus increasing the stability and bioavailability of therapeutic peptides. This makes it a critical component when you aim to buy D-4-Benzoylphenylalanine for peptide-based drug development.

The benzoyl moiety is perhaps the most defining feature of this molecule. It possesses photoreactive properties, meaning it can be activated by UV light. Upon activation, it can form covalent bonds with nearby molecules, a phenomenon exploited in photoaffinity labeling. This technique is instrumental in studying transient molecular interactions, such as protein-protein or ligand-receptor binding. Researchers utilize this capability to identify binding partners and map interaction interfaces, offering profound insights into biological mechanisms. Sourcing this compound from a reliable D-4-Benzoylphenylalanine supplier ensures that your research is based on a high-quality, consistent product.

The applications of H-D-Bpa-OH extend beyond its photoreactive capabilities. It serves as a chiral building block in the synthesis of complex organic molecules, including pharmaceutical intermediates. The demand for this compound drives the need for efficient production methods and reliable supply chains. As a D-4-Benzoylphenylalanine manufacturer based in China, we are dedicated to meeting these demands by offering high-purity material (often exceeding 98%) at competitive prices. This ensures that researchers can access the materials they need for their investigations without compromising on quality or budget.

Understanding the properties of H-D-Bpa-OH also includes its physical characteristics: it typically appears as a white to off-white solid. Its stability and handling requirements are important considerations for laboratory use. When you engage with a CAS 201466-03-7 manufacturer, inquire about recommended storage conditions and purity levels to ensure optimal performance in your experiments.

In conclusion, H-D-Bpa-OH is a highly versatile chemical compound with significant implications for scientific research. Its D-amino acid configuration provides stability advantages, while its photoreactive benzoyl group opens doors for studying complex molecular interactions. For researchers looking to purchase D-4-Benzoylphenylalanine, partnering with experienced manufacturers and suppliers who prioritize purity and reliability is paramount to achieving successful and reproducible scientific outcomes.