固定化酶FIA法能实现自动分析。
同时,固定化酶的稳定性也有所提高。
In addition, the stability of the fixed enzyme was improved.
文章还介绍了有机相中固定化酶的新方法。
At last, the immobilization of enzyme in organic phase was discussed.
固定化酶与游离酶的酸碱稳定性有较大差异。
There was great difference between the pH stability of soluble and that of immobilized lactase.
在此条件下,固定化酶的回收率为45.9%。
The yield of immobilized PrA was 45.9% in the optimal conditions.
过去我们工作主要都集中在固定化酶的活性成像。
In the past we have worked intensively on the activity imaging of immobilized enzymes.
通过吸附法、固定化酶法等方法可以将其去除。
These bitters can be removed by the ways of absorption, immobilized enzyme and the other methods.
本文就漆酶的固定化及固定化酶的性质作了初步研究。
The immobilization of laccase and the properties of the immobilization laccase were studied.
考察了树脂功能基含量、比表面和孔径对固定化酶活的影响。
Effects of amount of DEAE, surface area and pore diameter on the activity of immobilized aminoacylase were investigated.
选择了制备固定化酶最佳的戊二醛浓度、交联温度和交联pH值。
Using chitosan as the suportant, conditions for the immobilization, such as, glutaraldehyde concentration, PH and reaction temperature, ete.
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.
综述了青霉素乙酰化固定化酶和头孢氨苄酶法缩合工艺的研究进展;
The advances in immobilized acetylase of penicillin and process of enzymatic condensation in cephalexin synthesis were reviewed.
另外,固定化酶与游离酶相比,稳定性和可操作性都有较大的提高。
In addition, stability and maneuverability immobilization enzyme are prior to free enzyme.
结果表明:理想条件下,固定化酶的活性相当于游离酶活性的75%。
The results showed that with optimal conditions, immobilized enzyme had 75% vigor of crude enzyme.
以等离子体处理的载体材料固定化酶,开拓了固定化酶技术的新领域。
Using carrier materials treated by plasma technology exploits a new land of immobilized enzymes.
研究了基于酶抑制原理的农药残留生物传感器中固定化酶的制备方法。
The preparation method of immobilized enzyme used in the biosensors to detect pesticide residue based on the principle of enzyme inhibition has been investigated.
固定化酶的热稳定性、重复使用稳定性和储存稳定性都有很大的提高。
The thermal stability, the operational stabilities and the stability for reservation of immobilized cellulase were improved considerably.
本论文主要研究仿生钛化和自组装及其用于固定化酶载体设计与制备。
This study discusses biomimetic and self-assembly approach for the formation of titania-based materials and their potential application in the preparation of enzyme carriers.
固定化酶是酶工程的核心,它有利于实现酶的重复使用及产物与酶的分离。
Immobilized enzyme is the central part of the en-zyme engineering. It benefits the reuse of enzyme and separation the production and enzyme.
比较不同方法固定化酶的偶联率或包被率以及固定化对PAL活性的影响。
The percentages of the PAL entrapped and enzyme activity retained were compared.
因此,在富马酸铵体系中用固定化酶生产L-苹果酸采用填充床反应器更佳。
Thus, the PFR was optimal for immobilized cells to produce L-malic acid in ammonium fumarate system.
同时评价了固定化酶膜的稳定性,并对接枝膜和固定化酶膜的结构进行了表征。
The stability of immobilized urease membrane was evaluated and the structure and composition of the grafted film and immobilized urease membrane characterized.
制备的固定化酶可在用于农药残留快速检测的酶传感器中作为生物识别元件使用。
The prepared immobilized enzyme can be used as bio-recognition element for rapid detection of pesticide residues.
并测定了固定化脂肪酶的催化性能,确定了该固定化酶催化橄榄油水解的最适条件。
The catalytic activity of the entrapped lipase in hydrolysis process of olive oil was investigated and optimal, hydrolysis conditions were determined.
作为固定化酶组成的一部分,载体材料的结构和性质对固定化酶的性能有着巨大的影响。
As a immobilized enzyme composition part, the structure and the performance of carrier material had the huge effect on the performance of immobilized enzyme.
然后测定固定化酶的固载率,游离酶和固定化酶的活性,从而确定固定化酶的部分性质。
And then try to exam the immobilization yield of the immobilized enzyme, and the enzyme activities of immobilized enzyme and free enzyme to demonstrate some characters of immobilized enzyme.
对固定化前后漆酶的性质进行了比较,并分析了造成固定化酶与游离酶性质差异的原因。
The properties ef the free laccase and the immobilized laccase are compared and the possible reasons for the differences of them are discussed.
探讨纳米颗粒效应在固定化酶中所起的作用,并分析不同条件对酶电极响应灵敏度的影响。
The catalysis of enzyme improved by nanoparticles is discussed. The influence of different conditions is analyzed.
固定化酶在生物、医药、农业、食品、化工、能源开发、环境保护等方面得到了广泛应用。
Immobilized enzyme has been used in biology, medicine, agriculture, food industry, chemical industry, developing of energy source, environment protection and so on.
固定化酶在生物、医药、农业、食品、化工、能源开发、环境保护等方面得到了广泛应用。
Immobilized enzyme has been used in biology, medicine, agriculture, food industry, chemical industry, developing of energy source, environment protection and so on.
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