横向塞曼激光器是基于SPR原理的生物分子相互作用相位检测的理想光源。
Transverse Zeeman laser is the ideal light source of phase detection in biomolecular interaction based on SPR principle.
表面等离子体谐振(SPR)技术由于独特的优点日渐成为生物分子相互作用分析的领导技术。
Surface Plasmon Resonance (SPR) technology has been becoming a leading one for biomolecular interaction analysis because of its specific advantages.
借助这些成果和发现,对激光与生物单分子相互作用的机理进行讨论,将成为以后研究的一个新方向。
Weaponed with the existing results and discoveries in this area, the study of laser-biomolecular interaction would be the new direction for future researches.
DNA在生物遗传中具有特殊功能,能否行使正常的遗传功能依赖与其他分子的物理,化学相互作用。
Normal heredity function of DNA depends on the physical and chemical interaction of other molecules with DNA.
蛋白质与蛋白质间相互作用的准确预测是计算分子生物学领域的重要研究内容。
The prediction of protein interaction is one of the most important issues in post-genomic era.
小分子化合物与生物大分子相互作用的研究已经成为了化学生物学中重要的研究课题。
The study of interaction of small molecular compound and biologic big molecular has been the important research in the biochemistry.
这项研究为手性药物分子检测和分析提供了新的实验方法,也对深入了解手性药物与生物靶分子之间相互作用提供了启示。
These will not only give a new experimental method to distinguish chiral medicine, but also provide a suggestion for further comprehending the interaction of chiral medicine and target biomolecule.
基于折射率的变化,抗共振反射传感器对物理量、化学量和生物分子间的相互作用有很高的敏感性。
Based on variation of refractive index, ARROW sensors are high sensitive to physical and chemical quantity and interaction of bio-molecule.
与这些指标的分子间相互作用影响的化合物在生物系统的分布和调节生理功能。
Interaction of the molecules with these targets affects the distribution of the compound in biological systems and modulates biological function.
化学家在生物体系自集现象的启示下,用各种类型的相互作用去创造整齐排列的大分子,用于构筑纳米结构的材料。
Under the inspiration of self assembly in biology, chemists are now making use of weak interaction between different moleculars to get well arrayed supramolecular to construct nano-structure.
生物学关键的任务就是探测和监测细胞中大数量的生物分子间的相互作用,因为这些相互作用在很大程度上控制着几乎所有细胞类型的行为。
Detecting and monitoring the vast number of biomolecular interactions in the cell is a central effort in biology, as these interactions largely govern the behavior of nearly all cell types.
评述了生物小分子与DNA的作用方式及其相互作用的光谱及电化学研究方法。引用文献32篇。
The interactive manners and the spectroscopic and electrochemical research of the interaction between small biomolecules and DNA were reviewed, 32 references were quoted.
瑞典BIACORE 公司新近推出了用于生物分子间相互作用日常分析的新型号仪器,BIACOREJ。
The recently released platform from Biacore AB (Uppsala, Sweden), BIACORE J, is designed for the routine analysis of biomolecular interactions.
分子伴侣一词最初是指一类在细胞核内介导蛋白和核酸相互作用的生物分子。
The term "molecular chaperone" was originally used to describe a class of biomolecules, which mediate interactions between nuclear acids and proteins in the nucleus.
荧光共振能量转移(FRET)技术作为一种高效的光学“分子尺”,在生物大分子相互作用、免疫分析、核酸检测等方面有广泛的应用。
Fluorescence resonance energy transfer (FRET) has broad applications in the study of the interactions of biological macromolecules, immunoassay, nucleic acid detection and so on.
研究了激光与生物组织相互作用、光蚀作用及准分子激光消融角膜的机理;
In this chapter, we also discussed excimer laser -corneal tissue interactions and photoablation .
SPR生化分析技术已成为直接实时观测生物分子间相互作用的主导技术。
So, the SPR technology has become a leading technology in the field of direct real time observation of the biomolecular interactions.
血浆生物大分子可以加强血细胞之间约相互作用。
Plasma macromolecular substances might advance the interaction among blood cells.
生物大分子相互作用分析(BIA)技术可以实时观察分子间相互作用。
The technique of biomolecular interaction analysis (BIA) can observe real time biomolecular interactions.
系统生物学通过整合各种“组学”来研究基因,分子和环境层面的各种相互作用对代谢类疾病的影响。
Systems-based approaches tackle the complex interplay of genetic, molecular, and environmental factors contributing to metabolic diseases by integrating a range of "omics" data.
蛋白质的功能往往体现在与其他蛋白质或其它的生物大分子之间的相互作用中。
Usually, the functions of proteins behave themselves as the interactions with other proteins and biomacromolecules.
近年来,对小分子过渡金属多吡啶类配合物与DNA分子的相互作用的研究已经成为生物无机化学领域国际上十分活跃的研究课题。
In recent years, the interaction between small molecular transition metal complexes and DNA has been an active subject at international bioinorganic chemistry field.
杆状病毒的分子生物学,基因功能、复制机制,及病毒与不同宿主细胞的相互作用关系。
The molecular biology, gene function and replication of baculovirus, and its interaction with various hosts cells.
由于菁染料能与很多生物分子,如蛋白、核酸相互作用,并引起光谱的移动、强度的变化,因而这类染料在生物领域应用极为广泛。
Cyanine dyes can also be applied in biological yields since they can associate with many bio-molecules such as protein or nucleic acid with changes of spectra in wavelength and intensity.
随着分子生物学及其相关技术的飞速发展,人们对植物与病原微生物相互作用的分子机制了解得越来越透彻。
As the development of molecular biology and relative techniques, the molecular mechanism of the interaction of plant and its pathogen is becoming more and more clear.
随着分子生物学及其相关技术的飞速发展,人们对植物与病原微生物相互作用的分子机制了解得越来越透彻。
As the development of molecular biology and relative techniques, the molecular mechanism of the interaction of plant and its pathogen is becoming more and more clear.
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