通过 Ochrobactrum 5-烯醇式丙酮酰莽草酸-3-磷酸合酶三个氨基酸的同时突变提高草甘膦抗性。
Improvement of glyphosate resistance through concurrent mutations in three amino acids of the Ochrobactrum 5-enopyruvylshikimate-3-phosphate synthase.
机构信息
Shanghai Key Laboratory of Agricultural Genetics and Breeding, Biotechnology Research Institute, Shanghai Academy of Agricultural Sciences, 2901 Beidi Rd., Shanghai, People's Republic of China.
出版信息
Appl Environ Microbiol. 2011 Dec;77(23):8409-14. doi: 10.1128/AEM.05271-11. Epub 2011 Sep 23.
Abstract
A mutant of 5-enopyruvylshikimate-3-phosphate synthase from Ochrobactrum anthropi was identified after four rounds of DNA shuffling and screening. Its ability to restore the growth of the mutant ER2799 cell on an M9 minimal medium containing 300 mM glyphosate led to its identification. The mutant had mutations in seven amino acids: E145G, N163H, N267S, P318R, M377V, M425T, and P438L. Among these mutations, N267S, P318R, and M425T have never been previously reported as important residues for glyphosate resistance. However, in the present study they were found by site-directed mutagenesis to collectively contribute to the improvement of glyphosate tolerance. Kinetic analyses of these three mutants demonstrated that the effectiveness of these three individual amino acid alterations on glyphosate tolerance was in the order P318R > M425T > N267S. The results of the kinetic analyses combined with a three-dimensional structure modeling of the location of P318R and M425T demonstrate that the lower hemisphere's upper surface is possibly another important region for glyphosate resistance. Furthermore, the transgenic Arabidopsis was obtained to confirm the potential of the mutant in developing glyphosate-resistant crops.
摘要
经过四轮 DNA 重排和筛选,从土壤杆菌中鉴定出 5-烯醇丙酮酰莽草酸-3-磷酸合酶的突变体。它能够恢复突变体 ER2799 细胞在含有 300mM 草甘膦的 M9 最小培养基中的生长,从而鉴定出它的功能。该突变体在 7 个氨基酸处发生突变:E145G、N163H、N267S、P318R、M377V、M425T 和 P438L。在这些突变中,N267S、P318R 和 M425T 从未被报道过是草甘膦抗性的重要残基。然而,在本研究中,通过定点突变发现它们共同有助于提高草甘膦耐受性。对这三个突变体的动力学分析表明,这三个氨基酸改变对草甘膦耐受性的有效性依次为 P318R>M425T>N267S。动力学分析的结果与 P318R 和 M425T 位置的三维结构建模相结合,表明下半球的上表面可能是草甘膦抗性的另一个重要区域。此外,还获得了转基因拟南芥以证实突变体在开发草甘膦抗性作物方面的潜力。
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