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bioactive molecule
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  生物活性分子
     Recent Advances in the Application of New Host Compound to Determine Bioactive Molecule
     新型主体化合物在生物活性分子分析中的应用新进展
短句来源
     Nerve growth factor, the most typical neurotrophic factors, is one of the most important bioactive molecule which is found earliest. It not only have function of offerting neuron nutriment and promoting nervous process to grow, but also the significance factor of repairing nerve system injury. Clinical experiment research observed that nerve growth factor is closed to some nerve system diseases hard to cure, such as Alzheimer's disease, Huntington's disease, Parkinson's syndrome.
     神经生长因子(nerve growth factor,NGF)是神经系统最重要的生物活性分子之一,也是最早发现和最典型的神经营养因子(neurotrophic factots,NTFs),它具有神经元营养与促进神经突起生长的双重作用,是促进神经系统损伤修复的重要因素之一。
短句来源
     This review deals with the recent progress in the studies of the determination of bioactive molecule by host compound such as crown ether, cyclodextrin, calixarene and porphyrin.
     本文着重评述近年来冠醚、环糊精、杯芳烃及卟啉类超分子主体化合物在生物活性分子分析方面的研究进展。
短句来源
     There are three categories of applications such as defect filling matrixes, bioactive molecule delivery carriers, and cell/tissue delivery systems.
     根据水凝胶支架材料的用途,将其分类为填充缺损物支架、生物活性分子控制释放载体、组织/细胞转载系统等3个方面进行阐述.
短句来源
     Nitric oxide(NO) is a kind of most important bioactive molecule in plant.
     一氧化氮(NO)是植物体内重要的生物活性分子.
短句来源
  “bioactive molecule”译为未确定词的双语例句
     Study of Nano-material Modified Electrode and Its Application to Electrochemical Detection of Bioactive Molecule
     纳米材料修饰电极及其应用于生物分子检测的电化学研究
短句来源
     Interleukin-16(IL-16) is a pleiotropic proinflammatory cytokine originally identified by Center and Cruik Shank in 1982. Human IL-16 is predominantly synthesized by CD8+ T lymphocytes as a 631 amino acid precursor that is enzymatically cleaved between Asp 510 and Ser 511 to yield the c-terminal 121 amino acid bioactive molecule, that is sIL-16 (secreted IL-16).
     IL-16(interleukin-16,IL-16)最初是在1982年由Cruik Shank实验室从抗原刺激的单核细胞中分离提纯的[1],因具有T细胞特异性的趋化作用而被称为淋巴细胞趋化因子(Lymphocyte chromataxis factor, LCF)。
短句来源
     Nitric oxide (NO) is a multifunctional bioactive molecule and suggested to as signal involving in responses to biotic and abiotic stresses in plants.
     NO是近年来新兴的活性小分子,作为信号参与植物对逆境胁迫的应答和防御。
短句来源
     Nitric oxide (NO) , a bioactive molecule, is one of the earliest and most widespread signaling molecules in living organisms.
     NO是一种生物活性小分子,是一种普遍存在于原生动物、细菌、酵母和动、植物中的信号分子。
短句来源
     These results testify that natural silk represents favourable biocompatibility and provides theoretically evidence for bioactive molecule arranging orderly and manufacturing drug delivery systems by using silk as carrier.
     结果表明,蚕丝具有良好的生物相容性,为以蚕丝为导向进行生物活性分子的有序排列和以蚕丝为载体的药物释放系统的研究奠定了一定的理论基础。
短句来源
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  相似匹配句对
     molecule-1?
     molecule-1?
短句来源
     Isospectral Molecule
     同谱分子
短句来源
     Recent Advances in the Application of New Host Compound to Determine Bioactive Molecule
     新型主体化合物在生物活性分子分析中的应用新进展
短句来源
     Secoisolariciresinol diglucoside is a bioactive molecule effective in anticancer,antivirus,and antioxidation.
     亚麻木脂素是一种具有抗肿瘤、抗病毒、抗氧化功效的生物活性物质。
短句来源
     Advance in Bioactive Polysaccharides
     活性多糖的研究进展
短句来源
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  bioactive molecule
Nitric oxide (NO) is a potent short-lived and short range bioactive molecule, which plays a key role in physiological and pathological processes including inflammation and cancer.
      
These findings provide evidence that the synthesis of the bioactive molecule in St.
      
This is the first time where such an important bioactive molecule like dhc has been used as a reagent for the transformation of Au(III) to Au(0).
      
Preparation of Ultrafine Colloidal Gold Particles using a Bioactive Molecule
      
Recent studies suggest that carbon monoxide (CO), which is mainly produced by heme oxygenase (HO EC 1.14.99.3), may function as a physiological messenger or bioactive molecule by interacting with nitric oxide (NO) in animal cells.
      
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he recent development of antithrombogenic polyurethanes has been reviewed. Segmented polyetherurethanes (SPEU) demonstrate a unique combination of blood compatibility and biostabgity which have resulted in their commercial applications in many biomedical fields. The biocompatibility of SPEU comes from its unique surface characteristics. A new type of polyurethane with better blood competibility and almost the same bulk properties as compared with SPEU can be obtained by surface grafting method. The blood compatibility...

he recent development of antithrombogenic polyurethanes has been reviewed. Segmented polyetherurethanes (SPEU) demonstrate a unique combination of blood compatibility and biostabgity which have resulted in their commercial applications in many biomedical fields. The biocompatibility of SPEU comes from its unique surface characteristics. A new type of polyurethane with better blood competibility and almost the same bulk properties as compared with SPEU can be obtained by surface grafting method. The blood compatibility of SPEU can be further improved by immobilizing bioactive molecules on the surface of SPEU.

聚氨酯由于其优良的抗凝血性能和良好的物理机械性能而成为目前研究和应用最广的一种生物医用高分子材料。本文就嵌段型聚氨酯、接枝型聚氨酯、离子型聚氨酯及其它具有良好发展前景的聚氨酯抗凝血材料的研究进展作扼要综述.

High Performance Capillary Electrophoresis(HPCE) is rapidly gaining acceptance as a modem powerful analytic tool for the study of bioactive molecules, because of its capability of rapid, tremendous efficiency, simply, reproducible, automated and extremely high- resolution separation of complex mixtures of diverse size and nature in very small sample volumes. In this review we in troduced the wide application of HPCE on carbohydrates, one of the most basic life substances, and discussed the approaches recently...

High Performance Capillary Electrophoresis(HPCE) is rapidly gaining acceptance as a modem powerful analytic tool for the study of bioactive molecules, because of its capability of rapid, tremendous efficiency, simply, reproducible, automated and extremely high- resolution separation of complex mixtures of diverse size and nature in very small sample volumes. In this review we in troduced the wide application of HPCE on carbohydrates, one of the most basic life substances, and discussed the approaches recently developed for overcoming the separating and detecting difficulties in electrophoresis, including four separating modes- CZE, CGE, MECC, and CITP, and five detection methods, such as direct UV/Fluorescence detection, indirect UV/Fluorescence detection, refractive index detection, amperometric detection and mass spectroscopy method. In the end, we also predict the future application of this promising technique in ultramicro - analysis of carbohydrates in a single cell.

高效毛细管电泳以其快速、高效、简便、高分辨率、样品和溶剂消耗少及易于仪器化等优点正成为生物活性分子分离和分析工作中的一个重要工具。介绍了作为四大基本生命物质之一的糖类化合物的高效毛细管电泳研究进展,包括CZE、CGE、MECC和CITP等四种分离模式以及直接紫外/荧光法、间接紫外/荧光法、示差法、电化学法和质谱法等五种检测方式。并简要介绍HPCE在单糖、寡糖和多糖分离与分析中的应用,展望了HPCE用于单个细胞中糖类组分的研究前景。

Determination of lipid signaling pathways and the production of some intracellular signaling molecules has been an focus of some research work in the field of signal transduction research. For example, the determination of the regulation of different phospholipase activity and the formation of intracellular second messengers and other lipid bioactive molecules from different sources is an important component in the studies on the biological effects and their mechanisms of growth factors and other...

Determination of lipid signaling pathways and the production of some intracellular signaling molecules has been an focus of some research work in the field of signal transduction research. For example, the determination of the regulation of different phospholipase activity and the formation of intracellular second messengers and other lipid bioactive molecules from different sources is an important component in the studies on the biological effects and their mechanisms of growth factors and other molecules. Here, a method was introduced for selectively labeling different phospholipids, which has been widely used in the study of lipid signaling pathways. Experimental evidence was presented to demonstrate how to determine the different signaling pathway and the generation as well as the alteration of relevant signaling molecules. The application of this method is flexible and has a high reproducibility. It can be used to pinpoint some signaling pathways and the formation of different signaling molecules. A brief introduction about lipid signaling and its significance in the area of signal transduction was also given.

确定由脂类分子介导的信号转导途径和细胞内某些信使分子的生成及改变是信号转导研究领域中的一个重要组成部分 .如确定不同磷脂酶活性的调控及细胞内不同来源的第二信使分子及其他脂类生物活性分子的生成与调节 ,成为探讨生长因子或其他许多分子的生物效应及其作用机理的重要研究内容 .为了增加人们对有关研究工作的了解及在方法上的选择 ,介绍了研究脂类代谢信号转导中广泛运用的一个基本而重要的方法———选择性标记法 ,并且以实际研究结果为例 ,说明如何运用该方法检测不同的信号传递途径和有关信号分子的生成与变化 .该法针对性强而灵活 ,重复性高 ,能有效地检测某些不同来源的信号传递分子的生成及其变化 .此外 ,对脂类代谢信号转导途径及对该途径的研究在信号转导领域的地位和意义也作了简要的介绍

 
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