Department of Crop Protection, Waite Agricultural Research Institute, University of Adelaide, P.O. Bag 1, Glen Osmond, 5064, South Australia, Australia.
Plant Physiol. 1991 Apr;95(4):1036-43. doi: 10.1104/pp.95.4.1036.
Lolium rigidum Gaud. biotype SLR31 is resistant to the herbicide diclofop-methyl and cross-resistant to several sulfonylurea herbicides. Wheat and the cross-resistant ryegrass exhibit similar patterns of resistance to sulfonylurea herbicides, suggesting that the mechanism of resistance may be similar. Cross-resistant ryegrass is also resistant to the wheat-selective imidazolinone herbicide imazamethabenz. The cross-resistant biotype SLR31 metabolized [phenyl-U-(14)C]chlorsulfuron at a faster rate than a biotype which is susceptible to both diclofop-methyl and chlorsulfuron. A third biotype which is resistant to diclofop-methyl but not to chlorsulfuron metabolized chlorsulfuron at the same rate as the susceptible biotype. The increased metabolism of chlorsulfuron observed in the cross-resistant biotype is, therefore, correlated with the patterns of resistance observed in these L. rigidum biotypes. During high performance liquid chromatography analysis the major metabolite of chlorsulfuron in both susceptible and cross-resistant ryegrass coeluted with the major metabolite produced in wheat. The major product is clearly different from the major product in the tolerant dicot species, flax (Linium usitatissimum). The elution pattern of metabolites of chlorsulfuron was the same for both the susceptible and cross-resistant ryegrass but the cross-resistant ryegrass metabolized chlorsulfuron more rapidly. The investigation of the dose response to sulfonylurea herbicides at the whole plant level and the study of the metabolism of chlorsulfuron provide two independent sets of data which both suggest that the resistance to chlorsulfuron in cross-resistant ryegrass biotype SLR31 involves a wheat-like detoxification system.
硬雀麦 Gaud. 生物型 SLR31 对除草剂精吡氟禾草灵具有抗性,并且对几种磺酰脲类除草剂具有交叉抗性。小麦和具有交叉抗性的黑麦草对磺酰脲类除草剂表现出相似的抗性模式,表明其抗性机制可能相似。具有交叉抗性的黑麦草也对小麦选择性的咪唑啉酮类除草剂咪草烟胺具有抗性。与对精吡氟禾草灵和氯磺隆都敏感的生物型相比,具有交叉抗性的生物型 SLR31 代谢[苯基-U-(14)C]氯磺隆的速度更快。另一个对精吡氟禾草灵有抗性但对氯磺隆没有抗性的生物型代谢氯磺隆的速度与敏感生物型相同。因此,在具有交叉抗性的生物型中观察到的氯磺隆代谢增加与这些硬雀麦生物型中观察到的抗性模式相关。在高效液相色谱分析中,敏感和具有交叉抗性的黑麦草中氯磺隆的主要代谢物与小麦中产生的主要代谢物共洗脱。主要产物与耐受双子叶物种亚麻(Linium usitatissimum)中的主要产物明显不同。氯磺隆代谢物的洗脱模式在敏感和具有交叉抗性的黑麦草中相同,但具有交叉抗性的黑麦草代谢氯磺隆的速度更快。在整个植物水平上对磺酰脲类除草剂的剂量反应的研究和氯磺隆代谢的研究提供了两组独立的数据,这两组数据都表明,具有交叉抗性的黑麦草生物型 SLR31 对氯磺隆的抗性涉及到类似于小麦的解毒系统。