The utilization of novel organic synthesis methods is increasingly critical in the development of innovative agrochemicals. In this study, we designed and synthesized a series of chiral oxazoline derivatives using a one-pot method. This method involved first catalyzing the asymmetric aldol addition reaction of oxazolinyl esters with paraformaldehyde, followed by esterification with various pharmacophore-containing carboxylic acids. Unexpectedly, many of the target compounds exhibited promising antifungal and antioomycete activities, with their absolute configurations showing pronounced enantioselective activities. Notably, compound ()- demonstrated significant biological activities against and (EC = 1.023 mg/L and EC = 0.149 mg/L, respectively), which were markedly superior to its enantiomer ()- (EC = 9.565 mg/L and EC = 0.924 mg/L, respectively). experiments confirmed that this compound exhibited both curative and protective effects against and . CLSM and SEM analyses further indicated that compounds had distinct physiological effects on hyphae. Moreover, acute toxicity tests in zebrafish () revealed that compound ()- had significantly lower toxicity compared to the control drugs and . Consequently, this study provides valuable insights for the development of novel chiral oxazoline analogues as potential antifungal and antioomycete agrochemicals.
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