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生物传感器
    Recent Developments in SPR Biosensor Technology:Application of BIACORE J
    表面等离子体共振(SPR)生物传感器技术的进展——BIACORE J 的应用
    Screening of anti-inflammatory Chinese traditional herbs targeted CpG ODN using biosensor technology
    以CpG ODN为靶点应用生物传感器技术筛选抗炎中药
    SPR biosensor technology continues to evolve.
    SPR 生物传感器技术正在持续发展着。
    It has been applied to isolate, quantify protein and analyse protein-protein, protein-small molecule interaction. Protein chip combinated with mass spectrometry, biosensor technology expended its applicable scale. It also introduced the advance of proteome chip and alive chip in proteomics research.
    本文综述了蛋白质芯片在蛋白质组学研究中的多种作用,包括普通蛋白质芯片在微量蛋白质分离、蛋白质与蛋白质之间以及蛋白质与其他小分子间相互作用和蛋白质定量检测方面的作用,普通蛋白质芯片通过与质谱技术、生物传感器技术的结合而拓展其应用范围,以及蛋白质组芯片、活性的蛋白质芯片在蛋白质组学研究中应用的进展。
    Application of Biosensor Technology to Screening of Anti-endotoxin Materials in Radix Paeoniae Rubra
    生物传感器技术在筛选赤芍中抗内毒素有效成分的应用研究
    Surface Plasmon Resonance Biosensor Technology and its Application in Biomedicine
    SPR生物传感器及其在生物医学中的应用
    Application of biosensor technology to screen anti-PGN plants from traditional Chinese medicine
    应用生物传感器技术筛选拮抗细菌肽聚糖的中药
    The biosensor technology is a crossing technology involving bioengineering, biochemistry, physics and microelectronics.
    生物传感器技术是涉及到生物工程、生物化学、物理学、微电子学的一门交叉学科。
    With the using of new theories and new techniques, the biosensor technology has been greatly developed.
    近年来,由于新原理、新技术的不断运用,生物传感器技术取得了长足的进展。
    Methods:(1) The biosensor technology was applied to screen the medicine-food plants, then isolate the active fractions from one of the medicine-food plants selected by the target of Lipid A.
    方法:(1)应用生物传感器技术,对大蒜、苦瓜、鱼腥草、生姜、芫荽等5种药食两用植物进行与Lipid A结合活性的筛选。
    The antigenicity of seven predicted peptide was analyzed by the competitive inhibition ELBA and optical interferential biosensor technology.
    采用ELISA竞争抑制法和光学干涉生物传感器试验对预测的7个段肽进行抗原性鉴定。
    Compared with traditional methods,biosensor technology is a fast,highly effective,direct and accurate method.
    与传统的鲎试剂法比较 ,生物传感器技术具有快速、高效、直观、无干扰等优点。
    CONCLUSION: The anti-endotoxin effective components isolated and extracted using LPS as target by the biosensor technology are available in searching anti-endotoxin agents from Radix Paeoniae Rubra. It shows that Radix Paeoniae Rubra has high ability on neutralization with LPS.
    结论:以LPS为靶点,应用生物传感器技术,可快速、有效地提取分离赤芍中具有较强的中和LPS活性的有效成分。
    In recent years,the use of AChE as biological recognition element in biosensor technology has gained more and more attention,in particular with respect to pesticides detection.
    近年来,AChE作为生物识别元素的生物传感器在杀虫剂残留量检测领域受到了广泛的关注。
    Using acetylcholinesterase biosensor technology, taking apples and cucumbers as examples, the organophosphorus pesticide residues were determined with standard addition method.
    利用乙酰胆碱酯酶生物传感器技术,以苹果、黄瓜为样品,采用标准加入法进行分析,测定蔬菜水果中有机磷农药残留。
    Objective To apply the biosensor technology to screen anti-PGN plants from traditional Chinese medicine(TCM),and to sort them according to the content of anti-PGN effective materials.
    目的应用生物传感器技术从传统抗炎中药中筛选具有拮抗细菌肽聚糖(peptidoglycan,PGN)活性的中药并对其进行活性物质含量的排序。
    In this paper, principles of biosensors and major methods of agricultural bio-information measuring are introduced, the importance of biosensor technology on agriculture development is also emphasized.
    本文简述了生物传感器的基本原理,农业生物信息测量的主要内容,分析了二者结合的基本方式,以此为基础,阐述了生物传感器技术对于现代农业发展的意义。
    The paper presents an overview of the application of various non-destructive technologies to assess the quality of agricultural products. The technologies are listed as follows: optical reflectance and transmission technology,machine vision system, dielectric properties analytical technology, acoustic and ultrasonic analytical technology, dynamics analytical technology, X-ray instrument, nuclear magnetic resonance (NMR) technology, biosensor technology, electronic nose and tongue system.
    论文分别阐述了分光检测技术(紫外分光法、可见分光法、近红外分光法等)、机器视觉检测技术、介电特性检测技术、声学特性及超声波检测技术、力学检测技术、X射线检测技术、核磁共振检测技术、生物传感器检测技术和电子鼻与电子舌检测技术等在农产品品质无损检测中的应用,全面分析了国内外农产品品质无损检测技术的应用现状、发展及前景。
 

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