酶催化反应的速度随温度而增加。
The rate of an enzyme catalyzed reaction increases with temperature.
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.
提出了酶催化反应机理及其产物的电极还原过程。
The processes of the enzyme - catalyzed reaction and the electroreduction of the product of the enzyme - catalyzed reaction are described.
有机溶剂中的酶催化反应具有许多水中酶所没有的优势。
Enzymes in organic solvents display many advantages over the enzymes in water solutions.
方法:测定酶催化反应后底物浓度的变化,计算GST活力单位。
Methods:By detecting the concentration of the substrate after enzyme added the activity of the enzyme in the fluid was calculated.
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.
酶催化反应的机理和活性中心区域的几何特征和静电势分布特征有密切关系。
It has been found that the mechanism of enzymatic reaction and the geometric characteristics of active sites are closely related to the characteristics of static potential distribution.
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.
本文针对有机介质酶催化反应中水的作用,结合最新研究进展作了综合评述。
This paper reviewed the role of water in enzymatic reactions in organic solvent according to the latest research advance.
辅酶再生是实现氧化还原酶催化反应的必需步骤,是关系到氧化还原酶工业应用的关键。
Cofactor regeneration system is the key step for the biocatalysis and biotransformation of chemicals by oxidoreductases.
酶催化反应和酶模拟的研究是“超分子化学”、“仿生化学”等热门课题的重要研究内容。
Enzymatic reaction and mimetic enzyme are the most important issues in the pop field such as supramolecular chemistry and biomimetic chemistry.
酶催化反应是当今催化研究领域的热点,由于酶有着高效,经济,环保等优点而备受亲睐。
Because the enzyme-catalyzed reaction is efficient, economical and environmental friendly, it aroused general interest in the research of catalysis today.
具有反应条件温和,立体专一性或对映体选择性好的酶催化反应已在有机合成中得到广泛的应用。
Enzyme-catalyzed reactions which operate under mild reaction conditions with stereospecificity or enantioselectivity have been Widely used in organic synthesis.
中空纤维离子交换膜广泛应用于蛋白质的分离纯化、重金属离子的去除以及酶催化反应等众多领域。
Hollow fiber ion-exchange membrane is widely used in many areas such as protein separation and purification, removal of heavy metal ion and enzyme immobilization.
在第三章中,论述了渐进因子分析(EFA)和多元曲线分辨(MCR)用于酶催化反应机理的研究。
In the third chapter, the application of evolving factor analysis (EFA) and multivariate curve resolution (MCR) in the enzyme reaction mechanism is discussed.
脂氧合酶催化反应生成的氢过氧化物促使信号分子形成的能力与该氢过氧化物的位置特异性及立体旋光性有关。
The ability of LOX products to initiate the synthesis of different signaling molecules is determined by the positional and stereospecific nature of the hydroperoxides produced.
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.
在分子蒸馏预处理和单因素试验的基础上,采用响应曲面法建立脂肪酶催化反应生成的脂肪酸甲酯含量的数学模型。
The fatty acid methyl ester content model produced by an enzymatic reaction was presented by a response surface methodology (RSM) on the basis of molecular distillation and single factor experiments.
是一种催化反应物分子的整体结构或基础部分转移到另一个分子的酶。
Transferase an enzyme that catalyzes reactions in which entire groups or radicals are transferred from one molecule to another.
本文对酶催化剂的固定化方法以及在有机催化反应中的应用作了部分简述。
The immobilization methods of enzyme catalyst and the applications in catalysis reaction were introduced in this paper.
酶分子中直接负责催化反应的位点。
Site on an enzyme that is directly responsible for catalyzing reactions.
通过观察碱性磷酸酶对NBT和BCIP的催化反应产生蓝紫色斑点来判定阳性信号。
Positive signals were identified by observing the blue and purple spots produced by the catalytic reaction of Alkaline phosphatase to NBT and BCIP.
一种在催化反应中酶活性位点形状不发生改变的机理。
A mechanism in which the active site of the enzyme does not change shape during catalysis.
生物催化剂——金属酶是在特定的生物环境中,进行其它催化剂无可比拟的高效性、选择性和极度温和反应条件的催化反应。
Biocatalysts -enzymes are well known for their ability to carry out chemical reactions with high selectivity and high efficiency under ambient conditions.
的生物化学与分子生物学研究进展作了简要评述,包括酶分子的结构、酶的催化反应机制、酶基因表达与调控等。
Advances in biochemical and molecular biological studies, including enzyme structure, catalytic mechanism and gene expression and regulation of peroxidases are reviewed.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
纯化后的4个鲨烯合酶分别以FPP为底物进行体外催化反应,产物经GC-MS分析在保留时间(RT)为18.44可检测到鲨烯。
The four purified squalene synthase used to catalyzed the substrate FPP. Then the catalysate squalene were detected by GC-MS analysis method with the 18.44 retention time (RT).
漆酶的催化反应发生在铜离子形成的活性中心,但其氧化能力与氨基酸配体有密切的关系。
Main catalytic reactions of laccase occur in cu 2 + formed active center, however the level of REDOX potential is related to amino acid ligands.
漆酶中的铜离子在催化反应中起着重要作用,反应介质对漆酶的催化效率亦有较大的影响。
The Cu2 + in laccase plays a key role in the catalytic reactions of laccase. Solvents of the reaction system also affect the catalysis of laccase.
漆酶中的铜离子在催化反应中起着重要作用,反应介质对漆酶的催化效率亦有较大的影响。
The Cu2 + in laccase plays a key role in the catalytic reactions of laccase. Solvents of the reaction system also affect the catalysis of laccase.
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