Design, synthesis and biological activity of novel triketone-containing quinoxaline as HPPD inhibitor 期刊名称: Pest Management Science
关键词: 4-hydroxyphenylpyruvate dioxygena;active fragment
splicing;herbicidal activity;molecular docking
摘要:BACKGROUND 4‐Hydroxyphenyl pyruvate dioxygena (EC 1.13.11.27, HPPD) is one of the important target e红姑
nzymes ud to address the issue o高压锅菜谱
f weed control. HPPD‐in书目
hibiting herbicides can reduce the carotenoid conte法国巴黎铁塔
nt in plants a老师我想对你说作文400字
nd hinder photosynt有趣的诗
hesis, eventually causing albinism and death. Exploring novel
HPPD‐inhibiting herbicides is a significant direction in pesticide rearch. In the pr豆腐面
ocess of exploring new high‐efficien离子反应教案
cy HPPD inhibitors, a ries of novel quinoxaline derivatives were designedemed
and synthesized using an active fragment splicing strategy. RESULTS The title compounds were unambiguously characterized by infrared, 1 H NMR, 13 C NMR, a纳兰成德
nd high‐resolution mass spectroscopy. The
results of the in vitro tests indicated that the majority of the title compounds showed potent inhibition of Arabidopsis thaliana HPPD ( At...
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