The field of pharmaceutical research constantly seeks novel compounds and intermediates to drive innovation in drug discovery and development. Among these vital materials is N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide, a complex organic molecule identified by its CAS number 57227-09-5. This compound, also known by synonyms like CR 1936 and Tiropramide Impurity C, serves a crucial role as a pharmaceutical intermediate and a subject of study in various chemical applications. Understanding its N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide synthesis is fundamental for chemists working in drug development.

The synthesis of N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide typically involves multi-step organic reactions. A common approach includes the reaction of DL-tyrosine-n-propyl ester with benzoic anhydride to form an N-benzoyl ester intermediate. This is subsequently reacted with an appropriate amine to yield the final product. The purity and yield of this pharmaceutical intermediate CAS 57227-09-5 are critical, often requiring precise control over reaction conditions and purification techniques. For laboratories needing to buy N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide, working with reputable suppliers ensures access to material meeting stringent specifications.

The primary application of N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide is its use as a metabolite and impurity standard for the antispasmodic drug Tiropramide. Tiropramide is prescribed for conditions such as gastric spasms, and its efficacy and safety are closely monitored. As a metabolic byproduct and potential impurity, N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide is essential for quality control processes. Analytical chemists employ it as a reference standard to validate assay methods and ensure that drug products comply with regulatory limits for impurities. This directly contributes to the safety profile of the medication.

Beyond its role in quality control, N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide is also a valuable tool in broader chemical synthesis and research. Its complex structure, featuring amide linkages and functional groups, makes it a useful building block for creating other specialized organic compounds. Researchers may investigate its properties for potential new applications or use it as a starting material in the synthesis of novel drug candidates. The availability of this compound from a reliable N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide supplier facilitates these advanced research endeavors.

The demand for medical research chemicals like N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide necessitates a robust supply chain. Companies like NINGBO INNO PHARMCHEM CO.,LTD. play a vital role in ensuring that researchers and manufacturers have consistent access to this compound. When considering procurement, factors such as the N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide price and the supplier's ability to provide detailed technical specifications and certificates of analysis are paramount.

In conclusion, N-Benzoyl-DL-tyrosyl-N',N'-dipropylamide (CAS 57227-09-5) is a compound of significant importance in the pharmaceutical sector. Its well-defined synthesis pathways and critical applications in quality control and research highlight its value as a key intermediate and a subject of ongoing chemical investigation.