A review on pyrimidine‐based derivatives: Synthesis and their biological application

Pyrimidine‐based derivatives have attracted a lot of interest in heterocyclic chemistry due to its versatile structure and diverse biological activities. This study provides a comprehensive overview of synthetic strategy of different pyrimidine ring and highlights their biological importance. In this article, we start off by going through the fundamental procedures for the synthesis of pyrimidine scaffolds, including both conventional and contemporary synthetic techniques. These works cover a range of therapeutic domains, such as effects that are anticancer, antibacterial, antiviral, anti‐inflammatory, antioxidant, antimalarial, and so on. Moreover, we have summarized with a discussion of future prospects and challenges in the field of pyrimidine heterocyclic chemistry. This thorough review is a significant resource for researchers in medicinal chemistry and related fields since it offers insightful information about the synthetic methods and biological applications of pyrimidine‐based derivatives. This review focuses on various synthetic routes and prominent biological activities of pyrimidine derivatives, which have been reported in the last one decade. The nitrogen‐containing diazine group in pyrimidine molecules is responsible for their various unique biological properties.