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Design, Synthesis, and Metabolism Studies of <i>N</i>-1,4-Diketophenyltriazinones as Protoporphyrinogen IX Oxidase Inhibitors

Hongyun Liu, Liang-Kun Yu, Sheng-Nan Qin, Huang-Ze Yang, Dawei Wang, Zhen Xi

2023Journal of Agricultural and Food Chemistry31 citationsDOI

Abstract

Protoporphyrinogen IX oxidase (PPO, EC 1.3.3.4) is an established site for green herbicide discovery. In this work, based on structural analysis, we develop an active fragment exchange and link (AFEL) approach to designing a new class of N -1,4-diketophenyltriazinones I – III as potent Nicotiana tabacum PPO (PPO) inhibitors. After systematic structure–activity relationship optimizations, a series of new compounds with K i values in the single-digit nanomolar range toward NtPPO and promising herbicidal activity were discovered. Among them, Ii ( K i = 0.11 nM) displays 284- and 90-fold improvement in NtPPO inhibitory activity over trifludimoxazin ( K i = 31 nM) and saflufenacil ( K i = 10 nM), respectively. In addition, Ip ( K i = 2.14 nM) not only exhibited good herbicidal activity at 9.375–37.5 g ai/ha but also showed high crop safety to rice at 75 g ai/ha by the postemergence application, indicating that Ip could be developed as a potential herbicide for weed control in rice fields. Additionally, our molecular dynamic simulation clarified the molecular basis for the interactions of these molecules with NtPPO. The metabolism studies in planta showed that IIIc could be converted to Ic, which displayed higher herbicidal activity than IIIc . The density functional theory analysis showed that due to the effect of two sulfur atoms at the triazinone moiety, IIIc is more reactive than Ic, making it more easily degraded in planta . Our work indicates that the AFEL strategy could be used to design new molecules with improved bioactivity.

Topics & Concepts

Protoporphyrinogen oxidaseMoietyChemistryEnzymeStereochemistryNicotiana tabacumLead compoundStructure–activity relationshipMetabolismBiochemistryActive siteOxidase testIn vitroGeneWeed Control and Herbicide ApplicationsAllelopathy and phytotoxic interactionsPesticide and Herbicide Environmental Studies