所得电极呈现良好的生物催化活性,具有典型的酶催化反应动力学特征。
The electrode obtained exhibits significantly well biology catalytic activity and shows kinetic characteristics of the typical enzyme-catalyzed reaction.
综述了酶催化立体选择性合成及动力学折分制备旋光性氰醇的几种方法。
Several enzymatic methods, including enzyme catalyzed enantioselective synthesis and kinetic resolution, for the preparation of optically active cyanohydrins are reviewed.
总结了有机溶剂中的酶催化研究进展,讨论了影响有机溶剂中酶促不对称转化过程对映体选择性的因素和拆分动力学。
The factors influencing the enantioselectivity of enzyme catalyzed asymmetric transformations in organic phase, and the enzymatic resolution kinetics are discussed.
在一些动态动力学拆分中,消旋酶还可以催化对映异构体之间发生互变。
In some dynamic kinetic resolutions, racemase can be used to interconvert the enantiomers.
电极的峰电流与扫描速度的平方根成正比,电极上的传质过程受扩散控制,对酶催化反应的动力学机制进行了探讨。
The peak current is proportional to square root of scan rate, which indicated that the procedure is controlled by diffusion. The dynamic mechanism of the enzyme catalyzed reaction was discussed.
利用反应动力学方法,探讨了含有多种中间复合物的酶催化反应动力学模型。
Taking advantage of kinetic method, we discussed the kinetic model Of multiple substrat enzymatic reaction.
血清醌还原酶(QR)、ALT、LDH和CK催化活性用酶动力学方法测定,肝丙二醛(MDA)含量按硫代巴比妥酸方法测定。
Serum quinone reductase (QR), ALT, LDH and CK activities were determined with enzyme dynamic methods. Liver malondialdehyde (MDA) content was measured by the method of thiobarbituric acid.
利用外消旋体进行化学-酶催化动态动力学拆分是制备单一手性化合物的有效手段之一。
The chemoenzymatic dynamic kinetic resolution(DKR) of racemates is one of the efficient ways in the preparation of single chiral compounds.
动力学分析表明,反应置于反胶束体系将不仅提高酶的催化速度而且提高转移酶活力对水解酶活力的选择性。
The results on a rational analysis of the reaction mechanisms showed that higher activity and higher ratio of transferase to hydrolase activity are favorable for use in reverse micelles system.
以含酚废水为处理对象研究了固定化酶的催化性能和催化动力学。
The catalytic performance of the immobilized HRP applied in the treatment of phenolic wastewater and enzymatic reaction mechanism were also studied in detail.
化学家们应用动力学研究酶催化反应的速率。
Biochemists use kinetics to study rates of enzyme-catalyzed reactions.
化学家们应用动力学研究酶催化反应的速率。
Biochemists use kinetics to study rates of enzyme-catalyzed reactions.
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