| 1. | Biochemists use kinetics to study rates of enzyme-catalyzed reactions .
生物化学家们应用动力学研究酶催化反应的速率。 |
| 2. | The progress of the methane catalytic synthesis by methane monooxygenase
甲烷单加氧酶催化反应的研究进展 |
| 3. | Synthesis and application of ionic liquids in enzymatic catalysis
离子液体的制备及其在酶催化反应中的应用 |
| 4. | The progress of the catalytic reaction mechanism and chemical simulation of methane monooxygenase
甲烷单加氧酶催化反应机理和化学模拟研究进展 |
| 5. | It underlies the action of hormones , the control of dna transcription , the recognition of antigens - antibody in the immune system , the catalysis of chemical reactions by enzymes and the actions of many drugs
例如dna的转录,激素的作用机制,免疫系统中的抗原?抗体识别,化学中的酶催化反应,以及很多药物发挥药效的机制都与之密切相关。 |
| 6. | Using o - aminophenol as a substrate , hrp as label , a competitive immunoassay is used to determine the concentration of the analyte . we also reported the cyclic voltammetric behavior of 1 - o - allyl - 4 - hdroxy - anthraquinone ( oahaq ) and the preparation and electrochemical characteristics of electrode modified by 2 - pyridinamine
以辣根过氧化酶作为标记物,邻-氨基酚作为酶催化反应的底物,采用一个竞争性免疫分析来确定待测抗原(或抗体)的浓度。 |
| 7. | The development of renewable amperometric is a possible way to circumvent the problem . here , antigen ( antibody ) is immobilized with graphite ( carbon ) and carrier on a transducer , the analyze is measured through on enzyme catalytic reaction after sandwich or competitive immunoreaction
将抗原(抗体)与石墨或者碳固定在载体材料中,在一个竞争性的或者夹心式的免疫反应后,将酶标抗原(抗体)键合在传感器表面,通过一个酶催化反应来确定待测抗原(抗体)的浓度。 |
| 8. | The development of renewable amperometric is a possible way to circumvent the problem . here , antigen ( antibody ) is immobilized with graphite ( carbon ) and carrier on a transducer , the analyze is measured through on enzyme catalytic reaction after sandwitch or competitive immunoreaction . the surface of immuno - sensor can be renewed by used in a new immunoassay
将抗原(抗体)与石墨或者碳固定在载体材料中,在一个竞争性的或者夹心式的免疫反应后,将酶标抗原(抗体)键合在传感器表面,通过一个酶催化反应来确定待测抗原(抗体)的浓度。 |
| 9. | It was found that the composite film containing 28 . 6 % polyisoprene suited well for biosensor construction . the apparent michaelis constanst and activation energy for the immobilized glucose oxidase are 11 . 9 mm and 41 . 1 kj - mol " 1 , respectively . the biosensor response was influenced by ph value of determined solution , applied potential and operational temperature
研究发现,复合膜中聚异戊二烯含量28 . 6为传感器制作的最佳条件;固定化葡萄糖氧化酶的表观米氏常数为11 . 9mm ,酶催化反应的表观活化能为41 . 1kj ? mol ~ ( - 1 ) ;被测溶液的ph值、工作电位、使用温度等对葡萄糖传感器的响应有一定的影响。 |
| 10. | In the third chapter , the experiments of the anaerobic continuous fermentation of glycerol by klebsiella are explained . on the base of the experiments , dynamic models for the reaction of the microorganism are builded . at the same time , a certain dynamic models based on enzyme catalyzing and gene controlling is listed
第三章数学模型的建立,介绍肺炎杆菌将甘油发酵生产1 , 3 ?丙二醇的实验过程和在实验的基础上建立微生物反应动力学模型的过程,并进一步给出了几个酶催化反应和基因调控动力学模型。 |
