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Novel cinnamic acid derivatives as a versatile tool for developing agrochemicals for controlling plant virus and bacterial diseases by enhancing plant defense responses

Binxin Yang, Zhenxing Li, Shuai‐Shuai Liu, Jie Yang, Peiyi Wang, Hong‐Wu Liu, Xiang Zhou, Liwei Liu, Zhibing Wu, Song Yang

2023Pest Management Science30 citationsDOIOpen Access PDF

Abstract

Abstract BACKGROUND Plant pathogens have led to large yield and quality losses in crops worldwide. The discovery and study of novel agrochemical alternatives based on the chemical modification of bioactive natural products is a highly efficient approach. Here, two series of novel cinnamic acid derivatives incorporating diverse building blocks with alternative linking patterns were designed and synthesized to identify their antiviral capacity and antibacterial activity. RESULTS The bioassay results demonstrated that most cinnamic acid derivatives had excellent antiviral competence toward tobacco mosaic virus (TMV) in vivo, especially compound A 5 (median effective concentration [EC 50 ] = 287.7 μ g mL −1 ), which had a notable protective effect against TMV when compared with the commercial virucide ribavirin (EC 50 = 622.0 μ g mL −1 ). In addition, compound A 17 had a protective efficiency of 84.3% at 200 μ g mL −1 against Xac in plants. Given these outstanding results, the engineered title compounds could be regarded as promising leads for controlling plant virus and bacterial diseases. Preliminary mechanistic studies suggest that compound A 5 could enhance the host's defense responses by increasing the activity of defense enzymes and upregulating defense genes, thereby suppressing phytopathogen invasion. CONCLUSION This research lays a foundation for the practical application of cinnamic acid derivatives containing diverse building blocks with alternative linking patterns in pesticide exploration. © 2023 Society of Chemical Industry.

Topics & Concepts

AgrochemicalCinnamic acidTobacco mosaic virusBioassayBiotechnologyPlant defense against herbivoryBiologyChemistryVirusToxicologyBiochemistryAgricultureVirologyGeneEcologyGeneticsFungal Plant Pathogen ControlPlant-derived Lignans Synthesis and BioactivitySynthesis and biological activity
Novel cinnamic acid derivatives as a versatile tool for developing agrochemicals for controlling plant virus and bacterial diseases by enhancing plant defense responses | Litcius