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   固定化酶 在 材料科学 分类中 的翻译结果: 查询用时:0.93秒
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固定化酶
相关语句
  immobilized enzyme
    The Latest Research Advance of Immobilized Enzyme' Carriers
    固定化酶载体材料的最新研究进展
短句来源
    both MCM-41 and SBA-15 were the carrier, the stabilities of immobilized enzyme of the pH value, the thermostability were obviously higher than those of free laccase. The Michaelis-Menton constant of reactor have been studied. The values were: Km=0.211mmol/L, 0.301mmol/L, 0.286mmol/L for free laccase, immobilized laccase on MCM-41 and immobilized laccase of SBA-15 respectively.
    研究游离漆酶和固定化漆酶的性质,与游离酶相比,固定化漆酶与底物的亲和力均减小,稳定性均增强:固定化漆酶的Km值较游离酶均大,游离漆酶Km为0.211 mmol/L,而以MCM-41和SBA-15为载体的固定化酶Km分别为0.301 mmol/L和0.286 mmol/L;
短句来源
    As a immobilized enzyme composition part, the structure and the performance of carrier material had the huge effect on the performance of immobilized enzyme .
    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。
短句来源
    As a result of the carrier material's importance, since the immobilized enzyme technology emerged , many scholars continuously devoted themselves to the carrier research, Until now, along with the science and technology development, the immobilized enzyme carrier material also developed from the natural polymer material to the organic polymer material, inorganic material as well as current compound material such as magnetic polymer microsphere and so on.
    由于载体材料的重要性,自固定化酶技术兴起以来,很多学者就一直致力于对载体材料的研究。 随着科学技术的发展,固定化酶载体材料也从开始的天然高分子材料发展到有机高分子材料,无机材料以及目前的复合材料如磁性高分子微球等。
短句来源
    For magnetic polymer microsphere had not only polymer microsphere's multitudinous characteristics but magnetism responsiveness, it was allowed conveniently to separate under the sur-magnetic field and it could be applied to the field of immobilized enzyme, therefore which had gradually aroused people's enormous interest in the immobilization enzyme on magnetic polymer microsphere.
    由于磁性高分子微球同时兼具高分子微球的众多特性和磁响应性,在外加磁场作用下可以方便地分离而在固定化酶方面获得了一定的应用,因此用磁性高分子微球固定化酶已渐渐引起了人们的兴趣。
短句来源
  immobilization enzyme
    For magnetic polymer microsphere had not only polymer microsphere's multitudinous characteristics but magnetism responsiveness, it was allowed conveniently to separate under the sur-magnetic field and it could be applied to the field of immobilized enzyme, therefore which had gradually aroused people's enormous interest in the immobilization enzyme on magnetic polymer microsphere.
    由于磁性高分子微球同时兼具高分子微球的众多特性和磁响应性,在外加磁场作用下可以方便地分离而在固定化酶方面获得了一定的应用,因此用磁性高分子微球固定化酶已渐渐引起了人们的兴趣。
短句来源
  enzyme immobilization
    Methods of preparation, structure and characterization of biopolymer magnetic microsphere in enzyme immobilization, drug targeting, cell separation and immunoassay was also briefly covered.
    本文介绍了生物高分子磁性微球的制备方法、结构、性质及在固定化酶、靶向药物、细胞分离与免疫分析等领域的应用
短句来源
    The applications of magnetic polymer microspheres in magnetic plastics, enzyme immobilization, cell separation and target drug etc. were also summarized, and the prospects of this field were analyzed.
    在此基础上 ,概述了磁性高分子微球在磁性塑料、固定化酶、细胞分离和靶向药物等领域的应用情况 ,并对磁性高分子微球的未来研究方向进行了展望
短句来源
    Applications of nanocomposites in various areas, such as cell separation, enzyme immobilization and catalysis separation are described.
    在此基础上,对其在细胞分离、固定化酶、催化剂分离等领域的应用进行了评述。
短句来源
  “固定化酶”译为未确定词的双语例句
    Study on Preparation of P(St/MAA)/Fe_3O_4 Applied to Immobilize Enzyme by Dispersion Polymerization
    分散聚合法制备固定化酶载体P(St/MAA)/Fe_3O_4的研究
短句来源
    Study on Nano-Materials and Its Application to Enhance the Amperometric Enzyme Electrode
    纳米材料增效固定化酶电极的研究与应用
短句来源
    As a new series of inorganic functional material, magnetic nano-particles are applied on immobilization of enzymes, target medicines, isolation of cells and so on in biomedical area.
    磁性纳米粒子作为新兴的无机功能材料在生物医学领域主要应用于固定化酶、靶向药剂和细胞分离等,而对表面改性是其成功应用的关键。 目前常用的磁性纳米粒子为Fe_3O_4,对其表面改性的方法主要是采用表面包覆高分子化合物,制备过程较为复杂。
短句来源
    The development of magnetic particles with functional unites was described in this paper, and explained it’s application in cell separation, fixation of enzyme, target presenting, protein purification, nucleic acid separation and clinical diagnosis.
    本论文详尽地叙述了磁性功能粒子的研究与发展,并深入阐释了磁性粒子在细胞分离、固定化酶、靶向药物、蛋白质提纯、核酸分离、生物标记以及临床诊断等领域的应用。
短句来源
    The results show that the biosensor has a fast current response of 6 s and linear calibration range of 5.0×10-4 to 4.0 × 10-3 M. It has advantages of sensitivity and quick response.
    结果表明,应用生物素-亲和素系统固定化酶制备的生物传感器有较大的电流响应及较好的灵敏度,本传感器能检测出0.5mM到40mM的葡萄糖浓度,检测范围较广,传感器的响应时间仅为6s。
短句来源
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  immobilized enzyme
The catalytic constant (25 s-1) andKM (0.17 mM) for the immobilized enzyme for the hydrolysis of N-acetyl-L-tyrosine ethyl ester are comparable to the corresponding characteristics for the free enzyme.
      
Thermal inactivation of the immobilized enzyme under the reaction conditions was studied.
      
The kinetics of acidic inactivation of the native and immobilized enzyme was studied.
      
The immobilized enzyme was more resistant to temperature and pH.
      
Methods for stabilization of the immobilized enzyme were developed, and some kinetic parameters of the immobilized preparations were determined.
      
更多          
  enzyme immobilization
Emphasis will be placed on recent biological and biomedical developments and trends such as enzyme immobilization, cell isolation, protein purification, target drugs and DNA separation.
      
The advantages and disadvantages of each of the above polymers for enzyme immobilization are discussed.
      
In the other, a certain type of enzyme immobilization on the support is required.
      
Two kinds of disperse carbonaceous materials-activated carbon NORIT and carbon black PM-100, were used as matrices for enzyme immobilization.
      
The pH of the solution affected the adsorption capacities of the selected immobilization matrices; larger amounts of CAT adsorbed were estimated in neutral and alkaline solutions than under acidic conditions for enzyme immobilization.
      
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Chitin is the most aboundant naturally occurring amino polysaccharide. Chitosan is the N -deacetylated product of chitin . They have recently begun to attract much attention in both basic and applied research fields, including not only biology and biochemisty, but also organic and polymer chemistry, pharmacology and medicine. Among some unique properties of chitin and chitosan, their utilization as film / membrane materials seems to be one of the most attractive and promising functions. They have been used as...

Chitin is the most aboundant naturally occurring amino polysaccharide. Chitosan is the N -deacetylated product of chitin . They have recently begun to attract much attention in both basic and applied research fields, including not only biology and biochemisty, but also organic and polymer chemistry, pharmacology and medicine. Among some unique properties of chitin and chitosan, their utilization as film / membrane materials seems to be one of the most attractive and promising functions. They have been used as membrane materials for ul-trafiltration, reverse osmosis, pervaporation, ion exchange, enzyme immobilizing and biomedicine (suture, wound dressing and hemostatic sponge etc. ). Their preparations and applications have been reviewed indetail.

甲壳质资源丰富,易化学修饰和成膜,是一种制备耐酸碱、耐热性能良好和具有极好生物相溶性膜的新型膜材料。本文详述了它在超滤、反渗透、渗透蒸发、透析膜、气体分离膜、离子交换膜、固定化酶膜及医学用膜的制备及应用。

Biopolymer magnetic microsphere is a new type of functional material. Methods of preparation, structure and characterization of biopolymer magnetic microsphere in enzyme immobilization, drug targeting, cell separation and immunoassay was also briefly covered.

生物高分子磁性微球是一种新型功能材料,在化工、生物工程、生物医学等许多方面有良好的应用前景。本文介绍了生物高分子磁性微球的制备方法、结构、性质及在固定化酶、靶向药物、细胞分离与免疫分析等领域的应用

Magneticbiopolymermicrosphereisanewtypeoffunctionalmaterial.Methodsofpreparationandcharacterizationofmagneticbiopolymermicrosphereweredescribed .Theapplicationofmagneticbiopolymermicrosphereonenzymeimmobilization ,drugtargeting ,cellseparationandimmunoassaywasalsobrieflycovered .

磁性生物高分子微球是一种新型功能材料 ,在生物工程、生物医学等方面有广阔的应用前景。本文介绍了磁性生物高分子的制备方法、性质及在固定化酶、靶向药物、细胞分离与免疫分析等领域的应用。

 
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