posted on 2022-10-24, 14:46authored byYucheng Cui, Xiaoyu Wang, Guishan Lin, Wengui Duan, Xiaocui Wu, Hailang Lan, Baoyu Li
The accumulation of residual active herbicides in the
environment
can cause a series of problems. It is thus meaningful to explore a
photoresponsive herbicide, whose activity can be weakened under the
action of light to reduce the negative effect. To this purpose, a
series of (E)/(Z)-verbenone oxime
ethers were designed, synthesized, and characterized. Oxime ether
groups were adopted as the trigger switches. The preliminary screening
for herbicidal activity showed that some of them exhibited better
or comparable effects than that of the commercial herbicide flumioxazin
against Brassica campestris and Echinochloa crusgalli. Meanwhile, five pairs of the
target compounds with significantly different herbicidal effects between E- and Z-forms were further investigated
for their reversible isomerization reaction and the accompanying variation
of herbicidal activity. As a result, the maximum conversion rates
were around 50%, and the herbicidal effect of the resulting mixture
of E- and Z-isomers decreased outstandingly.
The phototransformation mechanism of a pair of isomers (E)-4a and (Z)-4a was preliminarily
explored. Besides, a reasonable and effective 3D-quantitative structure–activity
relationship model (r2 = 0.984 and q2 = 0.571) was established and the binding mode
was also investigated by molecular docking.