5-BrOMO Indole CAS 10075-50-0： The Ultimate Resource for Researchers and Scientists

Abstract

This article provides an in-depth exploration of 5-BrOMO Indole CAS 10075-50-0, a crucial compound for researchers and scientists in various fields. The article delves into the chemical properties, synthesis methods, biological activities, applications in drug discovery, safety considerations, and regulatory aspects of this compound. By offering a comprehensive overview, the article aims to serve as an ultimate resource for those working with 5-BrOMO Indole, ensuring a thorough understanding of its significance and potential uses.

Introduction to 5-BrOMO Indole CAS 10075-50-0

5-BrOMO Indole, also known as 5-Bromo-1H-indole, is a versatile organic compound with a unique structure that includes a benzene ring fused to a pyrrole ring. This compound is of significant interest in the scientific community due to its diverse range of applications, particularly in drug discovery and medicinal chemistry. The CAS number 10075-50-0 is a unique identifier for this compound, making it easier for researchers to track and reference it in their studies.

Chemical Properties of 5-BrOMO Indole

5-BrOMO Indole possesses several distinct chemical properties that make it a valuable tool in the laboratory. Its bromo substituent on the indole ring introduces a halogen atom, which can significantly influence the compound's reactivity and solubility. The bromo group is electron-withdrawing, which can stabilize positive charges and increase the compound's electrophilicity. Additionally, the indole ring itself is known for its aromaticity and planarity, which contribute to the compound's stability and reactivity.

Synthesis Methods of 5-BrOMO Indole

The synthesis of 5-BrOMO Indole can be achieved through various methods, each with its own advantages and limitations. One common approach involves the reaction of 1H-indole with bromine in the presence of a catalyst. This method is relatively straightforward and yields a high purity of the desired compound. Another synthesis route involves the use of a halogenation reaction followed by a cyclization step. These methods require careful control of reaction conditions to ensure the desired product is obtained.

Biological Activities of 5-BrOMO Indole

5-BrOMO Indole has been investigated for its biological activities, and it has shown promise in various research areas. Its indole core is known to be a common pharmacophore in many bioactive compounds, suggesting its potential in drug discovery. Studies have indicated that 5-BrOMO Indole can exhibit antimicrobial, antifungal, and antiviral properties. Additionally, its ability to interact with specific receptors and enzymes makes it a valuable tool in the study of cellular signaling pathways.

Applications in Drug Discovery

The potential of 5-BrOMO Indole in drug discovery is a significant aspect of its research. Its unique structure and biological activities make it a candidate for the development of novel therapeutic agents. Researchers have explored its use in the design of inhibitors for various enzymes involved in disease processes. The compound's ability to modulate receptor activity suggests its potential in the treatment of neurological disorders and cancer. The development of derivatives with improved pharmacokinetic properties is also an active area of research.

Safety Considerations and Regulatory Aspects

As with any chemical compound, safety considerations are paramount when working with 5-BrOMO Indole. Proper handling, storage, and disposal procedures must be followed to minimize the risk of exposure. The compound should be handled in a well-ventilated area, and protective equipment, such as gloves and goggles, should be worn. Regulatory aspects, including the approval for use in research and potential applications in pharmaceuticals, are also important. Compliance with local and international regulations is essential for researchers and pharmaceutical companies.

Conclusion

5-BrOMO Indole CAS 10075-50-0 is a multifaceted compound that holds significant promise for researchers and scientists across various disciplines. Its unique chemical properties, synthesis methods, biological activities, and potential applications in drug discovery make it an invaluable resource. By providing a comprehensive overview of this compound, this article aims to serve as an ultimate resource for those working with 5-BrOMO Indole, ensuring a thorough understanding of its significance and potential uses.

Keywords

5-BrOMO Indole, CAS 10075-50-0, indole, bromo substituent, synthesis, biological activities, drug discovery, safety considerations, regulatory aspects