Boc-Hyp-OH, bearing the CAS number 331442-12-7, represents a specialized N-protected amino acid derivative that is fundamental to various scientific disciplines, particularly in organic synthesis and biochemical research. This article aims to shed light on its chemical characteristics and the importance of sourcing quality materials, especially when seeking a reliable manufacturer or supplier.

Chemically, Boc-Hyp-OH is the N-tert-butoxycarbonyl derivative of hydroxyproline. The presence of the Boc protecting group is key to its utility in complex synthetic routes. This group is easily introduced and removed under specific conditions, allowing chemists to precisely control reaction pathways. The hydroxyl group present on the pyrrolidine ring of hydroxyproline adds another layer of chemical versatility, enabling further modifications or serving as a crucial structural feature in target molecules. When researchers seek to buy Boc-Hyp-OH, they are typically looking for a compound that will facilitate efficient and accurate synthesis.

The quality of Boc-Hyp-OH is paramount, especially for sensitive applications like peptide synthesis. High-purity Boc-Hyp-OH ensures that subsequent reactions proceed smoothly, leading to desired products with minimal byproducts. This is why many opt to purchase from established suppliers who can provide certificates of analysis detailing purity levels and other relevant chemical properties. Understanding the specifications such as melting point, molecular weight, and solubility is crucial for researchers to effectively integrate Boc-Hyp-OH into their protocols. Reliable suppliers in China and globally play a vital role in making these high-quality materials accessible.

The applications of Boc-Hyp-OH extend beyond basic research. It is frequently employed as a chiral building block in the synthesis of pharmaceutical intermediates, contributing to the creation of new drug candidates. Its incorporation into molecules can influence pharmacokinetic properties, such as absorption, distribution, metabolism, and excretion (ADME), making it a valuable component in medicinal chemistry. The demand for this compound reflects its established utility and the ongoing innovation in drug discovery.

In essence, Boc-Hyp-OH (CAS 331442-12-7) is a critical reagent for researchers engaged in sophisticated chemical synthesis. Whether for peptide synthesis or as a pharmaceutical intermediate, securing a supply of high-quality Boc-Hyp-OH from a trusted manufacturer is an investment in the success and accuracy of your scientific endeavors.