Centre for Plant Sciences, Faculty of Biology, University of Leeds, Leeds LS2 9JT, United Kingdom.
Plant Physiol. 2011 Sep;157(1):256-68. doi: 10.1104/pp.111.181024. Epub 2011 Jul 14.
The herbicide glyphosate inhibits the shikimate pathway of the synthesis of amino acids such as phenylalanine, tyrosine, and tryptophan. However, much uncertainty remains concerning precisely how glyphosate kills plants or affects cellular redox homeostasis and related processes in glyphosate-sensitive and glyphosate-resistant crop plants. To address this issue, we performed an integrated study of photosynthesis, leaf proteomes, amino acid profiles, and redox profiles in the glyphosate-sensitive soybean (Glycine max) genotype PAN809 and glyphosate-resistant Roundup Ready Soybean (RRS). RRS leaves accumulated much more glyphosate than the sensitive line but showed relatively few changes in amino acid metabolism. Photosynthesis was unaffected by glyphosate in RRS leaves, but decreased abundance of photosynthesis/photorespiratory pathway proteins was observed together with oxidation of major redox pools. While treatment of a sensitive genotype with glyphosate rapidly inhibited photosynthesis and triggered the appearance of a nitrogen-rich amino acid profile, there was no evidence of oxidation of the redox pools. There was, however, an increase in starvation-associated and defense proteins. We conclude that glyphosate-dependent inhibition of soybean leaf metabolism leads to the induction of defense proteins without sustained oxidation. Conversely, the accumulation of high levels of glyphosate in RRS enhances cellular oxidation, possibly through mechanisms involving stimulation of the photorespiratory pathway.
除草剂草甘膦抑制芳香族氨基酸如苯丙氨酸、酪氨酸和色氨酸的合成的莽草酸途径。然而,对于草甘膦究竟如何杀死植物,以及如何影响细胞氧化还原稳态和相关过程,在草甘膦敏感和抗草甘膦作物中的具体机制仍存在很大的不确定性。为了解决这个问题,我们对草甘膦敏感的大豆(Glycine max)品系 PAN809 和抗草甘膦的 Roundup Ready 大豆(RRS)的光合作用、叶片蛋白质组、氨基酸谱和氧化还原谱进行了综合研究。RRS 叶片积累的草甘膦比敏感系多得多,但氨基酸代谢变化相对较少。草甘膦处理对 RRS 叶片中的光合作用没有影响,但主要氧化还原库发生氧化,同时观察到光合作用/光呼吸途径蛋白的丰度降低。虽然用草甘膦处理敏感基因型会迅速抑制光合作用并引发富含氮的氨基酸谱出现,但氧化还原库没有发生氧化的证据。然而,饥饿相关和防御蛋白的含量增加。我们得出的结论是,草甘膦依赖的大豆叶片代谢抑制导致防御蛋白的诱导,而没有持续的氧化。相反,RRS 中高水平草甘膦的积累增强了细胞氧化,可能通过涉及刺激光呼吸途径的机制。