Carboxyltransferase domain(CT) of acetyl-coenzyme A carboxylase(ACCase, EC 6.4.1.2) from a family of Poaceae is an important target of commercial herbicide APPs for controlling grass weed growth. As the abuse of APPs herbicides, the resistant ACCase due to the mutation of a single residue(Ile→Leu), which is located in CT active site, is emergent in many populations and species of Poaceae. So it is urgent to understand the resistant mechanism so as to design new effect herbicides. Herein lies the complex of CT dimmer from Lolium rigidum and herbicide haloxyfop successfully constructed for wild type enzyme and Ile/Leu mutant, respectively, providing a basis for explaining the resistance from microscopic structure. Moreover, the binding free energy difference between wild type and mutant enzymes was predicted in good agreement with the known observation, and the various contributions to it were analyzed, by Molecular mechanics-Poisson-Boltzmann surface area(MM-PBSA) method. The results indicate the van der Waals interaction difference between the protein and inhibitor, -22.94 kJ/mol of CT wild type lower than that of mutant, is the major reason for resistance. Structure analysis further suggests that van der Waals interaction difference is originated from the steric hindrance between the side chain of mutated residue Leu and the chiral methyl group of haloxyfop. All these findings enhance the understanding of resistant mechanism of ACCase to herbicide by Ile/Leu mutation and provide an important clue for the rational design of high effective herbicides.
TAO Jin ZHAO Bo TIAN Xue-mei ZHENG Liang-yu CAO Shu-gui
Enantioselective transesterification of glycidol with vinyl butyrate as an acyl donor was investigated in the presence of Bacillus subtilis lipase(BSL2) as catalyst. Comparison studies demonstrate the advantage of ultrasound over the conventional shaking for the enzymatic reaction in non-aqueous media. The effects of reaction conditions(ultrasound power, temperature, water activity and pH) on the activity and enantioselectivity were also investigated. Under the optimum conditions, the synthetic activity of BSL2 was 2.95 μmol?min?1?mg?1 and the enantioselectivity(E value) was 52.2. Compared with conventional shaking, ultrasound made the synthetic activity and the enantioselectivity increase 9.5-fold and 1.4-fold, respectively. Furthermore, the repeated use of BSL2 for five cycles resulted in no obvious loss of enzyme activity, suggesting that the enzyme is stable under low power ultrasound conditions.
AN Bai-yiXIE Xiao-naXUN Er-naWANG Jia-xinWANG RenSUN Ruo-xiWANG LeiWANG Zhi
Acetyl-CoA carboxylase(ACCase) is a crucial enzyme in fatty acid synthesis, by regulating the first committed step in the process. Therefore, it is a potential target for the development of new compounds against obesity or as herbicides. The cDNA encoding yeast ACCase CT domains(YCTs) from Saccharvmyces cerevisiae was amplified by RT-PCR and inserted into the vector PET28a(+) for bacterial expression of YCT fused to N-terminal His-tag(YCT-his6). YCTs-his6 was expressed in Escherichia coli BL21(DE3) PLys as inclusion bodies, which was solubilized in 8 mol/L urea. Ni-agarose chromatography was used to purify the inclusion bodies under denaturing condition. Correct refolding was achieved via systematic dialysis to remove the denaturant gently in the presence of 0.5 mmol/L Triton X-100. The low concentration Triton X-100 was included in the refolding buffer to increase the solubilization and enhance dimeric formation of refolding proteins. The activity of the refolded YCT-his6 was 1.2 U/rag as measured in a spectrophotometric assay using malonyl-CoA as the substrate. To our knowledge, it is the first time that the bioactive YCT-his6 has been expressed successfully in E. coli and isolated from their inclusion bodies.
YANG Xue-ying TAO Jin ZHENG Liang-yu WANG Rui-jian ZHAO Ke CAO Shu-gui
