4-羟基苯丙酮酸双加氧酶（HPPD）抑制的二酮和三酮衍生物及同系物的研究进展综述：HPPD/抑制剂复合物的结构分析及构效关系的考虑。

Survey on the Recent Advances in 4-Hydroxyphenylpyruvate Dioxygenase (HPPD) Inhibition by Diketone and Triketone Derivatives and Congeneric Compounds: Structural Analysis of HPPD/Inhibitor Complexes and Structure-Activity Relationship Considerations.

机构信息

Department of Biotechnology, Chemistry and Pharmacy - Department of Excellence 2018-2022, University of Siena, via Aldo Moro 2, I-53100 Siena, Italy.

出版信息

J Agric Food Chem. 2022 Jun 15;70(23):6963-6981. doi: 10.1021/acs.jafc.2c02010. Epub 2022 Jun 2.

DOI:10.1021/acs.jafc.2c02010

PMID:35652597

Abstract

The serendipitous discovery of the HPPD inhibitors from allelopathic plants opened the way for searching new and effective herbicidal agents by application of classical hit-to-lead optimization approaches. A plethora of active and selective compounds were discovered that belong to three major classes of cyclohexane-based triketones, pyrazole-based diketones, and diketonitriles. In addition, to enhance inhibitory constant and herbicidal activity, many efforts were also made to gain broader weed control, crop safety, and eventual agricultural applicability. Moreover, HPPD inhibitors emerged as therapeutic agents for inherited and metabolic human diseases as well as vector-selective insecticides in the control of hematophagous arthropods. Given the large set of experimental data available, structure-activity relationship analysis could be used to derive suggestions for next generation optimized compounds.

摘要

从化感植物中偶然发现的 HPPD 抑制剂为通过应用经典的命中-先导优化方法寻找新型和有效的除草剂开辟了道路。发现了大量的活性和选择性化合物，它们属于基于环己烷的三酮、吡唑二酮和二酮腈三大类。此外，为了提高抑制常数和除草活性，还进行了许多努力以获得更广泛的杂草控制、作物安全和最终的农业适用性。此外，HPPD 抑制剂还作为遗传性和代谢性人类疾病的治疗剂以及作为血吸性节肢动物控制中的媒介选择性杀虫剂出现。鉴于可用的大量实验数据，可以进行结构-活性关系分析，为下一代优化化合物提供建议。

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4-羟基苯丙酮酸双加氧酶（HPPD）抑制的二酮和三酮衍生物及同系物的研究进展综述：HPPD/抑制剂复合物的结构分析及构效关系的考虑。

Survey on the Recent Advances in 4-Hydroxyphenylpyruvate Dioxygenase (HPPD) Inhibition by Diketone and Triketone Derivatives and Congeneric Compounds: Structural Analysis of HPPD/Inhibitor Complexes and Structure-Activity Relationship Considerations.

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