In the ever-evolving landscape of pharmaceutical research and development, the availability of high-quality, specialized chemical intermediates is paramount. One such critical compound is 7-Bromoisoquinolin-1-amine, identified by its CAS number 215453-53-5. As a prominent manufacturer and supplier of fine chemicals, we understand the profound impact such building blocks have on accelerating drug discovery pipelines. This article delves into the significance of 7-Bromoisoquinolin-1-amine, particularly its role in developing targeted therapies.

The molecular structure of 7-Bromoisoquinolin-1-amine, with its isoquinoline core, bromine atom at the 7-position, and an amino group at the 1-position, endows it with unique reactivity. This makes it an indispensable intermediate in the synthesis of a wide array of pharmacologically active compounds. Its primary application lies in the realm of kinase inhibitor research. Kinases are enzymes that play crucial roles in cellular signaling pathways, and their dysregulation is implicated in numerous diseases, including various cancers and inflammatory conditions.

Researchers actively seek novel kinase inhibitors to develop more effective and targeted treatments. 7-Bromoisoquinolin-1-amine serves as a foundational component for synthesizing inhibitors targeting critical kinases such as PI3K, mTOR, and JAK. By incorporating this intermediate, medicinal chemists can construct molecules with enhanced binding affinity and specificity, leading to drug candidates with improved therapeutic profiles and reduced side effects. The demand for this high-purity intermediate is consistently driven by the urgent need for new cancer therapies and anti-inflammatory agents.

Beyond its pharmaceutical applications, the versatility of 7-Bromoisoquinolin-1-amine extends to materials science. Its nitrogen heteroatoms and amino group make it an excellent candidate for use as an organic ligand. These ligands can coordinate with metal ions to form complexes with potential applications in catalysis and the development of functional materials. Furthermore, its reactive sites allow it to function as a building block for synthesizing organic materials with unique optical and electrical properties, such as those used in OLEDs or sensor technologies. This dual utility highlights its broad importance in advanced chemical synthesis.

For procurement professionals and research scientists looking to buy 7-Bromoisoquinolin-1-amine, partnering with a reliable manufacturer is key. As a leading supplier based in China, we are committed to providing high-purity (99% minimum) material with consistent quality. We understand the importance of supply chain stability and offer competitive pricing and worldwide delivery. We encourage you to inquire about our free sample program to evaluate the quality of our 7-Bromoisoquinolin-1-amine for your specific project needs. Our expertise ensures you receive the exact chemical intermediate required to drive your innovation forward.