7-Azaindole-3-carboxaldehyde, identified by CAS number 4649-09-6, is a compound that offers significant chemical versatility, making it a valuable asset in modern organic and pharmaceutical synthesis. Its structure, featuring an azaindole core with an aldehyde functional group at the 3-position, provides multiple avenues for chemical modification and incorporation into larger molecular frameworks.

The azaindole moiety itself is a bioisostere of indole, a common scaffold found in many biologically active molecules and pharmaceuticals. The presence of the nitrogen atom at the 7-position introduces unique electronic and structural properties that can influence receptor binding and metabolic stability. This makes azaindole derivatives particularly attractive for drug discovery efforts.

The aldehyde group (-CHO) on the 7-Azaindole-3-carboxaldehyde is a highly reactive electrophilic center. This functional group readily participates in a wide array of organic reactions, enabling chemists to extend the molecular structure or introduce diverse substituents. Key reactions include:

  • Condensation Reactions: Aldehydes readily react with amines, hydrazines, and other nucleophiles to form imines, hydrazones, and related derivatives. These reactions are fundamental for creating new carbon-nitrogen bonds and are often steps in building more complex ring systems.
  • Nucleophilic Addition: Grignard reagents, organolithium compounds, and other carbon nucleophiles can attack the carbonyl carbon, leading to the formation of secondary alcohols. This is a crucial method for carbon-carbon bond formation.
  • Oxidation and Reduction: The aldehyde group can be oxidized to a carboxylic acid or reduced to a primary alcohol, offering pathways to different functional groups within the azaindole system.
  • Wittig and Related Olefination Reactions: These reactions allow for the conversion of the aldehyde into an alkene, providing a facile route to introduce unsaturated side chains.

The synthetic utility of 7-Azaindole-3-carboxaldehyde as a building block is evident in its application for creating compounds with potential pharmacological activities. Whether used by a small research lab or procured by large pharmaceutical companies, understanding these chemical transformations is key. When you are looking to buy this intermediate, partnering with a supplier that guarantees consistent quality and availability from China ensures your synthetic projects proceed smoothly. The ability to source this versatile compound efficiently is a significant advantage for any chemist engaged in advanced synthesis.