Key Laboratory of Pesticides & Chemical Biology of Ministry of Education, College of Chemistry, Central China Normal University, Wuhan, Hubei 430079, People's Republic of China.
J Agric Food Chem. 2020 Mar 11;68(10):3071-3078. doi: 10.1021/acs.jafc.9b08057. Epub 2020 Mar 2.
This work reports halogenated 5-(2-hydroxyphenyl)pyrazoles as pseudilin analogues with the potential to target the enzyme IspD in the methylerythritol phosphate (MEP) pathway. Such analogues were designed using the bioisosteric replacement of the pseudilin core structure and synthesized via an efficient three-step route. With IspD-based screening and pre- and post-emergence herbicidal tests, these compounds were demonstrated to have considerable activities against IspD, with IC up to 3.27 μM, and against model plants rape and barnyard grass, with moderate to excellent activities. At a rate of 150 g/ha in the greenhouse test, three compounds exhibited higher or comparable herbicidal activities than pseudilin. Molecular docking of representative compounds into the allosteric site of IspD revealed a binding mode similar to that of pseudilin. The established bioisosterism and synthesis method in this work may serve as an important tool for the development of new herbicides and antimicrobials targeting IspD in the MEP pathway.
这项工作报道了卤代 5-(2-羟基苯基)吡唑作为假孕烷类似物,具有靶向甲基赤藓醇磷酸 (MEP) 途径中酶 IspD 的潜力。这些类似物是使用假孕烷核心结构的生物等排体替换设计的,并通过高效的三步法合成。通过基于 IspD 的筛选以及芽前和芽后除草测试,这些化合物被证明对 IspD 具有相当大的活性,IC 高达 3.27 μM,对模式植物油菜和稗草也具有中等至优异的活性。在温室试验中以 150 g/ha 的剂量,三种化合物表现出比假孕烷更高或相当的除草活性。代表性化合物在 IspD 的变构部位的分子对接揭示了与假孕烷相似的结合模式。这项工作中建立的生物等排体和合成方法可能成为开发针对 MEP 途径中 IspD 的新型除草剂和抗菌剂的重要工具。
