ABSTRACT Methicillin‐resistant Staphylococcus aureus (MRSA) is a well‐known cause of serious skin and soft tissue infections, representing a significant global public health threat. The rapid development of MRSA resistance to all known antibiotics is the biggest concern. Therefore generating new anti‐MRSA agents is the need of the present hour. Azoles combined with amides are well‐known structures for developing compounds that exhibit antimicrobial effects against MRSA. Molecular hybridization, which involves combining various heterocyclic pharmacophores into a single molecular hybrid, offers a promising way for creating new antibacterial agents. In view of this, numerous attempts were made to incorporate various heterocyclic systems into azole nucleus bearing amide groups, which were then tested for antibacterial activity. This review outlines the advancements made over the past ten years regarding azole amide derivatives that exhibit extensive antibacterial properties against various MRSA strains. Specifically, we focused on the antibacterial property of structurally diverse azole analogues, such as thiazole, imidazole, oxadiazole, triazole, and pyrazole amides against MRSA and examined structure‐activity relationship (SAR) studies.
Sharma et al. (Mon,) studied this question.