L-Valyl-L-tyrosine, identified by its CAS number 3061-91-4, is a dipeptide of considerable importance within the pharmaceutical industry. Composed of the amino acids valine and tyrosine, this compound serves as a crucial pharmaceutical intermediate, underpinning the synthesis of a range of therapeutic agents. This article aims to provide a comprehensive overview of L-Valyl-L-tyrosine, covering its chemical properties, applications, and essential handling guidelines for researchers and manufacturers.

The chemical identity of L-Valyl-L-tyrosine is defined by its molecular formula, C14H20N2O4, and a molecular weight of 280.32. Physically, it typically presents as a white powder, indicating a solid state under standard conditions. Its classification as a peptide makes it a valuable building block in complex organic synthesis. When you buy L-Valyl-L-tyrosine online, ensuring you source from a reliable supplier is key to guaranteeing the quality required for pharmaceutical applications.

The primary role of L-Valyl-L-tyrosine is as a pharmaceutical intermediate. This means it is a key component in the multi-step process of creating active pharmaceutical ingredients (APIs). Its specific structure allows for further chemical modifications, leading to the development of drugs with targeted therapeutic effects. As a leading manufacturer in China, we understand the critical nature of this role and maintain stringent quality control throughout our production processes.

Effective L-Valyl-L-tyrosine storage conditions are vital to maintain its chemical integrity. It is generally recommended to store this compound at -20°C in a tightly sealed container, in a cool and dry place. This prevents degradation and ensures that the material remains suitable for its intended use. Following these L-Valyl-L-tyrosine storage guidelines is a testament to a commitment to quality and research integrity.

In conclusion, L-Valyl-L-tyrosine (CAS: 3061-91-4) is more than just a chemical compound; it is a critical linchpin in pharmaceutical synthesis. By understanding its L-Valyl-L-tyrosine chemical properties, its function as a pharmaceutical intermediate, and the importance of proper storage, researchers and manufacturers can optimize their processes and contribute to the development of life-saving medicines.