In the demanding field of pharmaceutical manufacturing, securing a consistent supply of high-purity chemical intermediates is non-negotiable. (S)-N-ALPHA-T-BUTYLOXYCARBONYL-PYROGLUTAMIC ACID T-BUTYL ESTER, commonly abbreviated as Boc-Pyr-OtBu and identified by CAS 91229-91-3, is a prime example of such an essential compound. This molecule, with its precise chemical structure (C14H23NO5), serves as a fundamental building block in the creation of complex pharmaceutical agents.

For procurement specialists and R&D scientists, identifying a dependable supplier for Boc-Pyr-OtBu is a strategic priority. The typical specifications, such as its white solid appearance and a melting point between 55.0-59.0 °C, are crucial for material identification and quality assessment. Many global pharmaceutical companies rely on manufacturers from China due to their advanced production capabilities and competitive pricing structures. When you buy Boc-Pyr-OtBu, it's essential to look for suppliers who offer high purity, often in the range of 97% to 99%.

The versatility of Boc-Pyr-OtBu stems from its role as a protected chiral intermediate. It is widely utilized in peptide synthesis and the construction of various heterocyclic compounds that form the backbone of many drugs. Understanding its molecular weight of 285.34 further aids in stoichiometric calculations for complex synthetic routes. Buyers often inquire about the wholesale availability and pricing for CAS 91229-91-3 to ensure cost-effectiveness in their production processes. A well-established manufacturer can provide not only the material but also the technical data and certifications required for pharmaceutical compliance.

To ensure the success of your pharmaceutical projects, whether it's for drug discovery or commercial API production, sourcing high-quality intermediates is key. Exploring options from leading Chinese chemical manufacturers for Boc-Pyr-OtBu can lead to significant advantages in terms of product quality, reliability, and overall cost. Engaging with these suppliers early in the development cycle can help streamline procurement and ensure a steady supply chain for this critical chiral intermediate.