In the pursuit of scientific advancement, understanding the fundamental properties of research compounds is paramount. VAL-201, a notable peptide, offers a unique profile that makes it valuable across various research disciplines. Characterized as a white crystalline powder with a high purity assay of 99%, VAL-201 is a testament to the precision required in modern chemical research and pharmaceutical development.

As a chemical reagent, VAL-201 is employed in numerous laboratory applications where purity and consistency are critical. Its physical appearance—a fine white powder—is typical for highly purified peptide compounds. This consistency ensures that researchers can rely on its performance in experiments, whether they are conducting biochemical assays, exploring cellular mechanisms, or developing new diagnostic tools.

The primary applications of VAL-201 often stem from its classification as a pharmaceutical intermediate. This suggests its use in the synthesis of more complex molecules, including potential drug candidates. Specifically, VAL-201 has garnered attention for its function as an androgen receptor antagonist and its potential as an anti-cancer agent, showing promise in preclinical studies for conditions like prostate and breast cancer. These properties make it a focal point for research in oncology and endocrinology.

The sourcing of VAL-201 from reputable manufacturers, such as Beijing Mesochem Technology Co., Ltd., ensures that the product adheres to medicine grade standards. This is crucial for any research that aims to translate findings into clinical applications. The detailed specifications, including its molecular formula and CAS registry number, further solidify its identity and utility within the scientific community.

In essence, VAL-201 serves as a critical tool for scientific exploration. Its well-defined properties as a high-purity chemical reagent and pharmaceutical intermediate, combined with its specific biological activities, make it an essential compound for researchers pushing the boundaries in areas like cancer therapy and hormonal regulation. Understanding these foundational aspects of VAL-201 is key to leveraging its full potential in scientific discovery.