Heim D R, Skomp J R, Tschabold E E, Larrinua I M
DowElanco, P. O. Box 708 Greenfield, Indiana 46140.
Plant Physiol. 1990 Jun;93(2):695-700. doi: 10.1104/pp.93.2.695.
The effect of the herbicide isoxaben on the incorporation of radiolabeled glucose, leucine, uracil, and acetate into acid insoluble cell wall material, protein, nucleic acids, and fatty acids, respectively, was measured. Dichlobenil, cycloheximide, actinomycin D, and cerulenin, inhibitors of the incorporation of these precursors into these macromolecular components, functioned as expected, providing positive controls. The incorporation of radiolabeled glucose into an acid insoluble cell wall fraction was severely inhibited by isoxaben at nanomolar concentrations. Amitrole, fluridone, ethalfluralin, and chlorsulfuron, as well as cycloheximide, actinomycin D, and cerulenin did not inhibit incorporation of glucose into this fraction, ruling out a general nonspecific effect of herbicides on glucose incorporation. The evidence thus suggests that isoxaben is an extremely powerful and specific inhibitor of cell wall biosynthesis.
测定了除草剂异恶草酮对放射性标记的葡萄糖、亮氨酸、尿嘧啶和乙酸盐分别掺入酸不溶性细胞壁物质、蛋白质、核酸和脂肪酸中的影响。二氯苯腈、放线菌酮、放线菌素D和浅蓝菌素,这些将这些前体掺入这些大分子成分的抑制剂,发挥了预期的作用,提供了阳性对照。异恶草酮在纳摩尔浓度下能严重抑制放射性标记的葡萄糖掺入酸不溶性细胞壁组分中。杀草强、氟啶酮、乙草胺和氯磺隆,以及放线菌酮、放线菌素D和浅蓝菌素均未抑制葡萄糖掺入该组分,排除了除草剂对葡萄糖掺入的一般非特异性作用。因此,证据表明异恶草酮是一种极其强大且特异性的细胞壁生物合成抑制剂。