Indole is a biologically active compound formed by the fusion of benzene and pyrrole,and it is widely found in natural products and drugs.Due to the unique structure and properties of indole,its derivatives often exhi...Indole is a biologically active compound formed by the fusion of benzene and pyrrole,and it is widely found in natural products and drugs.Due to the unique structure and properties of indole,its derivatives often exhibit distinctive physiological activities,which has led to widespread attention in the field of pesticide development.Analyzing the design strategies and structure-activity relationships(SARs)of compounds is a crucial step in developing novel pesticides.This review mainly summarizes indole compounds with plant growth regulating,antiviral,fungicidal,herbicidal,and insecticidal activities,with the aim of providing new insights into the discovery and mechanism of action of novel indole-based pesticides.展开更多
Plant growth regulators(PGRs)are a critical regulatory factor that influences plant development and against abiotic or biotic stress.The chemical synthesis of phytohormone analogues represents an effective approach fo...Plant growth regulators(PGRs)are a critical regulatory factor that influences plant development and against abiotic or biotic stress.The chemical synthesis of phytohormone analogues represents an effective approach for developing novel PGRs with enhanced bioactivity,reduced costs,and simplified synthesis.This review provides a comprehensive examination of artificially synthesized PGRs(phytohormone structural analogues and functional analogues)over the past five years,emphasizing the synthesis strategy,bioactivity,structure-activity relationships,and target protein.This review argues that the synthesis of functional analogues of phytohormones represents a crucial in the advancement of novel PGRs,and optimization of synthetic procedures would greatly facilitate the commercialization of these PGRs.展开更多
基金The financial support from the National Natural Science Foundation of China(Nos.32072445 and 21762012)the Program of Introducing Talents to Chinese Universities(No.D20023)+2 种基金the Natural Science research project of Guizhou Education Department(No.KY(2018)009)the Graduate Research Fund in Guizhou Province(No.YJSKYJJ[2021]038)the specific research fund of The Innovation Platform for Academicians of Hainan Province(No.SQ2020PTZ0009)。
文摘Indole is a biologically active compound formed by the fusion of benzene and pyrrole,and it is widely found in natural products and drugs.Due to the unique structure and properties of indole,its derivatives often exhibit distinctive physiological activities,which has led to widespread attention in the field of pesticide development.Analyzing the design strategies and structure-activity relationships(SARs)of compounds is a crucial step in developing novel pesticides.This review mainly summarizes indole compounds with plant growth regulating,antiviral,fungicidal,herbicidal,and insecticidal activities,with the aim of providing new insights into the discovery and mechanism of action of novel indole-based pesticides.
基金the National Natural Science Foundation of China(No.32072445,21762012)the Program of Introducing Talents to Chinese Universities(No.D20023)+1 种基金the Natural Science research project of Guizhou Education Department(No.KY(2018)009)the specific research fund of The Innovation Platform for Academicians of Hainan Province(No.SQ2020PTZ0009)。
文摘Plant growth regulators(PGRs)are a critical regulatory factor that influences plant development and against abiotic or biotic stress.The chemical synthesis of phytohormone analogues represents an effective approach for developing novel PGRs with enhanced bioactivity,reduced costs,and simplified synthesis.This review provides a comprehensive examination of artificially synthesized PGRs(phytohormone structural analogues and functional analogues)over the past five years,emphasizing the synthesis strategy,bioactivity,structure-activity relationships,and target protein.This review argues that the synthesis of functional analogues of phytohormones represents a crucial in the advancement of novel PGRs,and optimization of synthetic procedures would greatly facilitate the commercialization of these PGRs.
