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151.
【目的】以金黄色葡萄球菌(Staphylococcus aureus)的sortase A为"分子订书机",用于(S)-羰基还原酶Ⅱ分子之间的连接,获得催化功能与稳定性增强的氧化还原酶寡聚体,高效催化2-羟基苯乙酮,合成(S)-苯基乙二醇。【方法】从S.aureus基因组中克隆sortase A基因,在大肠杆菌中表达,通过镍柱和凝胶层析纯化重组酶,获得纯酶sortase A。通过基因工程手段在(S)-羰基还原酶Ⅱ的C末端添加GGGGSLPETGG序列,蛋白纯化获得(S)-羰基还原酶Ⅱ-GGGGSLPETGG,摸索了sortase A催化(S)-羰基还原酶Ⅱ-GGGGSLPETGG的分子连接,形成(S)-羰基还原酶Ⅱ寡聚体的最佳条件,并研究了寡聚体酶学性质及生物转化(S)-苯基乙二醇的效率。【结果】(S)-羰基还原酶Ⅱ寡聚体比酶活力为38.5 U/mg,比原始型(S)-羰基还原酶Ⅱ提高了6倍,最适反应温度为50°C,最适pH为6.0,在50°C放置1 h后酶活仍旧保持90%以上;蛋白质变性实验结果显示,(S)-羰基还原酶Ⅱ寡聚体的变性温度为60.1°C,比原始酶提高了10°C;生物转化结果显示(S)-羰基还原酶Ⅱ寡聚体在3 h内完全转化5 g/L 2-羟基苯乙酮,产生光学纯度为100%的(S)-苯基乙二醇,相比于重组大肠杆菌(S)-羰基还原酶Ⅱ全细胞催化时间缩短了16倍。【结论】本研究首次将sortase A应用于氧化还原酶的分子连接,显著提高了酶的催化效率和热稳定性,表明sortase在手性催化中有很大的潜在应用价值。 相似文献
152.
Hironobu Ozawa 《Inorganica chimica acta》2011,366(1):298-134
Electrochemical oxidation of [RuII(terpy)(sq)(NH3)]+ in neutral water (pH 8.0) at +0.8 V (versus SCE) generated [RuII(terpy)(q)(NH2)]2+ and/or [RuIII(terpy)(sq)(NH2)]2+ (terpy = 2,2′:6′,2′′-terpyridine, sq = 3,5-di-tert-butyl-1,2-semiquinonate, q = 3,5-di-tert-butyl-1,2-benzoquinone), which played roles in hydrogen abstraction and one-electron acceptor in the catalytic oxidation of methanol, ethanol, and 2-propanol affording formaldehyde, acetoaldehyde, and acetone, respectively, under the electrolysis conditions. 相似文献
153.
Khersonsky O Röthlisberger D Wollacott AM Murphy P Dym O Albeck S Kiss G Houk KN Baker D Tawfik DS 《Journal of molecular biology》2011,407(3):391-1021
Although de novo computational enzyme design has been shown to be feasible, the field is still in its infancy: the kinetic parameters of designed enzymes are still orders of magnitude lower than those of naturally occurring ones. Nonetheless, designed enzymes can be improved by directed evolution, as recently exemplified for the designed Kemp eliminase KE07. Random mutagenesis and screening resulted in variants with > 200-fold higher catalytic efficiency and provided insights about features missing in the designed enzyme. Here we describe the optimization of KE70, another designed Kemp eliminase. Amino acid substitutions predicted to improve catalysis in design calculations involving extensive backbone sampling were individually tested. Those proven beneficial were combinatorially incorporated into the originally designed KE70 along with random mutations, and the resulting libraries were screened for improved eliminase activity. Nine rounds of mutation and selection resulted in > 400-fold improvement in the catalytic efficiency of the original KE70 design, reflected in both higher kcat values and lower Km values, with the best variants exhibiting kcat/Km values of > 5 × 104 s− 1 M− 1. The optimized KE70 variants were characterized structurally and biochemically, providing insights into the origins of the improvements in catalysis. Three primary contributions were identified: first, the reshaping of the active-site cavity to achieve tighter substrate binding; second, the fine-tuning of electrostatics around the catalytic His-Asp dyad; and, third, the stabilization of the active-site dyad in a conformation optimal for catalysis. 相似文献
154.
In this article, we will review and highlight some recent computational work on enantioselective adsorption and catalysis in zeolites and metal–organic frameworks. The design, development and understanding of chiral structures will help expand the utility of nanoporous materials into chiral technology. The highlighted works are examples of how molecular simulations can provide a fundamental understanding of chirality in nanoporous materials. This understanding is essential to help in the design and development of next-generation enantioselective separation devices and catalysts. 相似文献
155.
Synthesis of Novel Chiral Tridentate Schiff‐Base Ligands and Their Applications in Catalytic Asymmetric Henry Reaction
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Gen‐Rong Qiang Tian‐Hua Shen Xiao‐Cong Zhou Xiao‐Xia An Qing‐Bao Song 《Chirality》2014,26(12):780-783
A series of chiral tridentate Schiff‐bases were prepared and used as ligands in the catalytic asymmetric Henry reaction. Under the optimal conditions, a variety of arylaldehydes were smoothly converted into corresponding adducts with high yields (up to 98%) and excellent enantioselectivities (up to 97% ee). Chirality 26: 780–783, 2014. © 2014 Wiley Periodicals, Inc. 相似文献
156.
《Bioorganic & medicinal chemistry letters》2014,24(15):3549-3551
Eudistomin U is a member of a subclass of naturally occurring indole alkaloids known as β-carbolines. These molecules are reported to have diverse biological activity and high binding affinity to DNA, which make them attractive targets for total synthesis. We describe an efficient, five-step synthesis of eudistomin U by employing two key reactions: a Bischler–Napieralski cyclization and a Suzuki cross coupling. We also describe the cytotoxicity of eudistomin U against various cancer cell lines and human pathogens, in which we observed potent antibacterial activity against Gram-positive bacteria. 相似文献
157.
《Bioorganic & medicinal chemistry》2014,22(20):5539-5546
The enantioselective recognition of ‘remote’ stereogenic centers represents a scientific task in organic chemistry being also of current interest in the pharmaceutical industry. This is due to a range of pharmaceutically relevant molecules or intermediates thereof bearing a stereogenic center, which is separated from the functional group by a larger non-chiral moiety such as, for example, a longer sequence of bonds of at least three carbon or hetero-atoms or by a planar aromatic moiety. Notably, biocatalysis turned out to provide an excellent solution for a range of challenging syntheses in this field. For example, efficient enzymatic resolution processes of racemates with such a ‘remote’ stereogenic center were developed for the synthesis of pelitrexol, lasofoxifene and (S)-monastrol. In general, good yields accompanied by high enantioselectivities were obtained, thus underlining the tremendous potential of enzymes to recognize and enantioselectively transform enantiomers of racemates with ‘remote’ stereogenic centers. Such or similar types of stereoselective recognitions of ‘remote’ stereogenic centers by means of enzymes have been also reported in the field of flavor and vitamin synthesis. Thus, biocatalysis represents a promising solution for the efficient approach to enantiomerically pure complex chiral molecules with stereogenic centers being located apart from the functional group, and it can be expected that enzymatic resolution will be increasingly applied when searching for an efficient and also technically feasible process for also novel complex chiral molecules bearing a ‘remote’ stereogenic center. 相似文献
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非水相酶催化反应是酶催化反应中的一个重要方面。非水相溶剂通常可增加底物溶解度,减少水相中的副反应,加快生物催化的速率和效率,在药物及药物中间体和食品等方面具有较大的应用价值。以下探讨了非水相体系对酶活力及酶促反应速率的影响因素,并阐述酶的化学修饰、固定化及定点突变对酶活力的影响,进一步分析无溶剂系统、反胶束、超临界流体及离子液体的不同溶剂体系对酶反应速率及催化效率的影响。此外,还列举一些非水相酶催化反应的应用实例。 相似文献