“…Heteroaromatic thiazole, as a member of the current research mainstream azoles, gains wide appreciations and cultivations in drug design and development due to the character of abundant electrons, which empowers it to engage with functional targets for improving biological activity. − Naturally, thiazole provides enormous contributions to successful development of clinical antibiotics such as the third and fourth cephalosporins. , Consequently, to confront drug-resistant infections, recent numerous studies endeavored to incorporate it with the antibacterial nucleus like quinolone, , sulfanilamide, , and berberine , for discovery of novel antimicrobials, among which some availably perturbed essential cellular behavior of microorganisms, holding meaningful exploring potential. Moreover, our previous research revealed that quinazolone thiazoles delivered promising antibacterial effects and low bacterial resistance .…”