%0 Journal Article
%T Recent Advances in Design and Development of Diazole and Diazine Based Fungicides (2014-2023).
%A Saeedian Moghadam E
%A Bonyasi F
%A Bayati B
%A Sadeghi Moghadam M
%A Amini M
%J J Agric Food Chem
%V 72
%N 28
%D 2024 Jul 17
%M 38967261
%F 5.895
%R 10.1021/acs.jafc.4c02187
%X With fungal diseases posing a major threat to agricultural production, the application of fungicides to control related diseases is often considered necessary to ensure the world's food supply. The search for new bioactive agents has long been a priority in crop protection due to the continuous development of resistance against currently used types of active compounds. Heterocyclic compounds are an inseparable part of the core structures of numerous lead compounds, these rings constitute pharmacophores of a significant number of fungicides developed over the past decade by agrochemists. Among heterocycles, nitrogen-based compounds play an essential role. To date, diazole (imidazole and pyrazole) and diazine (pyrimidine, pyridazine, and pyrazine) derivatives make up an important series of synthetic fungicides. In recent years, many reports have been published on the design, synthesis, and study of the fungicidal activity of these scaffolds, but there was a lack of a comprehensive classified review on nitrogen-containing scaffolds. Regarding this issue, here we have reviewed the published articles on the fungicidal activity of the diazole and diazine families. In current review, we have classified the molecules synthesized so far based on the size of the ring.