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biosensor chip     
相关语句
  生物传感器芯片
     Investigation on the Microfluidic Chemiluminescence Biosensor Chip and the Chemiluminescence System
     化学发光生物传感器芯片及发光体系的研究
短句来源
     In the present work, the investigation on the biosensor chip with Chemiluminescence detection and novel Chemiluminescence systems is reported in part I and II, respectively.
     本工作的主要内容是基于微流控技术的化学发光生物传感器芯片以及新型化学发光体系的研究,全文由二部分组成。
短句来源
  生物传感器
     Investigation on the Microfluidic Chemiluminescence Biosensor Chip and the Chemiluminescence System
     化学发光生物传感器芯片及发光体系的研究
短句来源
     In the present work, the investigation on the biosensor chip with Chemiluminescence detection and novel Chemiluminescence systems is reported in part I and II, respectively.
     本工作的主要内容是基于微流控技术的化学发光生物传感器芯片以及新型化学发光体系的研究,全文由二部分组成。
短句来源
     A method for the immobilization of polysaccharides to the biosensor chip surface is described.
     建立了一种用于SPR生物传感器分析的糖生物传感芯片制备新方法。
短句来源
     This article is focused on principle and advantages of biosensor chip technology based on SPR,and its new applications in biospecfic interaction research fields such as proteomics? cellular signal transduction? ligand\receptor fishing?
     本文阐述了基于表面等离子共振技术生物传感器的基本原理和技术流程、相比于常规技术的优越性及其在蛋白质组学、细胞信号传导、受体\配体垂钓、抗体\抗原识别、基于分子靶点特异性新药筛选等生命科学研究领域中的全新应用.
短句来源
  生物传感芯片
     The Research of Cells′ Adhesion by Piezoelectric Biosensor Chip
     细胞粘附的压电生物传感芯片研究
短句来源
     Biospecific interaction analysis (BIA) is a n ew technology developed in 1990s,which utilizes the biospecific interaction betw een the biomolecule with ligand in biosensor chip using surface plasmon resonanc e(SPR) as a detecting system.
     生物特异相互作用分析是 2 0世纪 90年代发展起来的一种应用生物传感芯片上配位体与生物分子的特异相互作用以表面等离子共振为检测系统的新的分析方法。
短句来源
     A method for the immobilization of polysaccharides to the biosensor chip surface is described.
     建立了一种用于SPR生物传感器分析的糖生物传感芯片制备新方法。
短句来源
     Some experiments were done to study liver cancer cells adhesion behavior by Piezoelectric biosensor chip,as well as the analysis of the dynamic process and acoustic impedance concept theory. The new method-piezoelectric biosensor chip was build for the research of cells adhesion after tested by scanning electron microscope(SEM) and double trypsin assay(DTA).
     该文就肝癌细胞粘附的压电生物传感芯片研究进行了实验探讨和动力学分析,以及扫描电镜(SEM)和双胰酶消化法(DTA)双向实验验证和声阻抗模型理论分析,建立了压电生物传感芯片研究细胞粘附的新方法。
短句来源
  传感器生物芯片
     The present developing printing protein microarray, molecular scanning technique and biosensor chip mass spectrometry will apply to the aspects to detection medicine targets, diagnosis diseases,identification proteins,and/or interaction between proteins, etc. Because analyses on these chips have many advantages such as quick detection, high efficiency,little sample consumed and low cost,they will become novel study tools in the field of life science and medicine.
     目前发展起来的印迹蛋白微阵列、分子扫描技术和传感器生物芯片质谱 ,将应用于药靶检测、疾病诊断、蛋白质结构鉴定和 /或蛋白质之间的相互作用分析等方面 ,具有分析速度快、效率高、样品消耗少等特点 ,将成为生命科学与医学领域新的研究工具
短句来源
     The present developing printing protein microarray, molecular scanning technique and biosensor chip mass spectrometry ,etc. as well as bioinformatics will apply to the aspects to detection medicine targets, diagnosis diseases,identification proteins,and/or interaction between proteins, etc. They will become novel study tools in the field of life science and medicine, and promote hugely social progress and prosperity.
     目前发展起来的印迹蛋白微阵列、分子扫描技术和传感器生物芯片质谱等技术以及生物信息学技术 ,将应用于药靶检测、疾病诊断、蛋白质结构鉴定和 /或蛋白质之间的相互作用分析等方面 ,成为生命科学与医学领域的新的研究工具 ,极大地促进社会进步与繁荣
短句来源

 

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      biosensor chip
    The interaction between drugs and brush border membrane (BBM) surfaces immobilized on biosensor chip were evaluated by measuring the SPR response signal.
          
    Tetracyclines release the 46.6?kDa Tet repressor protein (TetR) from the tet operator (tetO), a biotinylated short double strand DNA sequence bound to a streptavidin biosensor chip.
          
    This paper describes a new protocol for reversible and site-directed immobilization of proteins with streptavidin affinity tags on the streptavidin-coated SPR biosensor chip (SA chip).
          
    Reversible immobilization of proteins with streptavidin affinity tags on a surface plasmon resonance biosensor chip
          
    This method involved immobilization of peptidoglycan on the surface of a biosensor chip.
          
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    With the development of biochip techniques , several new types of biochip, such as bioelectronic chip, gel element microarray chip, drug controlled release chip, capillary eletrophoretic or electrochromatographic chip, PCR chip and biosensor chip, had sprung up. These biochips, which were different from typical molecular microarrays such as DNA chip, were based on the microarray of various structures, and have successfully applied to analyze DNA mutations, polymorphisms and sequences, to...

    With the development of biochip techniques , several new types of biochip, such as bioelectronic chip, gel element microarray chip, drug controlled release chip, capillary eletrophoretic or electrochromatographic chip, PCR chip and biosensor chip, had sprung up. These biochips, which were different from typical molecular microarrays such as DNA chip, were based on the microarray of various structures, and have successfully applied to analyze DNA mutations, polymorphisms and sequences, to separate mixtures and monitor biomolecular interactions. Because analyses on these chips have many advantages such as quick detection, high efficiency, little sample consumed and low cost, they will become novel tools in the field of life science and medicine.

    随着生物芯片技术的迅速发展 ,一些新型生物芯片 ,如生物电子芯片、凝胶元件微阵列芯片、药物控释芯片、毛细管电泳或层析芯片、PCR芯片及生物传感芯片等应运而生 ,这些芯片不同于常规的分子微阵列芯片 ,而是以各种结构微阵列为基础 ,用于分子杂交与扩增 ,以检测突变、分析多态性及测序 ,通过电泳及层析分离生物样品 ,控制药物释放以治疗疾病 ,作为生物传感器检测分子行为等 ,具有分析速度快、效率高、样品消耗少等特点 ,将成为生命科学与医学领域的新工具

    OBJECTIVE The rapid diagnosis of Mycobacterium tuberculosis is an important problem for its nosocomial infection control. Piezoelectric biosensor chip can detect target DNA sequence by analysis of the signal changes caused by the hybridization of DNA and its probe with quartz crystal microbalance (QCM) techniques. Here, we measured the sensitivity and specificity of piezoelectric biosensor chip and used it to detect M.tuberculosis DNA. METHODS A special probe for M.tuberculosis DNA...

    OBJECTIVE The rapid diagnosis of Mycobacterium tuberculosis is an important problem for its nosocomial infection control. Piezoelectric biosensor chip can detect target DNA sequence by analysis of the signal changes caused by the hybridization of DNA and its probe with quartz crystal microbalance (QCM) techniques. Here, we measured the sensitivity and specificity of piezoelectric biosensor chip and used it to detect M.tuberculosis DNA. METHODS A special probe for M.tuberculosis DNA was immobilized on the quartz crystal surface, then hybridized with samples from human type tubercle bacillus, from 106 tuberculosis patients, from 20 nontuberculosis mycobacteria and from 8 cocci and bacilli in aqueous solution. The biosensor chip could check out the weight variation on the quartz crystal surface if there were target DNA in the samples. The data from the biosensor then be transported into PC and were analyzed by software. Meanwhile, we used the methods of smear and PCR to examine the 106 patient samples. RESULTS Piezoelectric biosensor chip could detect trace human type tubercle bacillus DNA within 10 ng/μl 1 pg/μl. We found none of the samples from 20 nontuberculosis mycobacteria and other cocci and bacilli hybridized with the probe designed for M.tuberculosis detection. In clinical specimen detection, piezoelectric biosensor chip had an obviously high positive rate than that of smear and PCR. CONCLUSIONS Piezoelectric biosensor chip is a new method designed to detect target DNA. In this case, we used it to detect the DNA of M.tuberculosis. It had a high positive rate and more sensitivity than smear and PCR. The specimen preparation of it was similar to PCR. But the course of examination could be finished within 15 minutes. So piezoelectric biosensor chip could be a substitution of PCR in clinical examination in the future.

    目的 由结核分枝杆菌引起的医院感染快速诊断问题已为越来越多的研究者所重视 ,压电基因传感器芯片技术主要依据晶体液相振荡理论 ,运用压电传感器与基因芯片技术结合 ,对标本中靶基因进行检测。方法 使用压电基因传感器芯片技术检测结核分枝杆菌 DNA。先以结核分枝杆菌 DNA探针结合在基因芯片表面 ,然后将 10 6例结核患者标本 DNA分别与之杂交 ,将杂交信号通过数频处理器以频率变化值的形式输入电脑 ,再以专用分析软件进行结果分析。结果 检测阳性率为 42 .5 % ,以 PCR扩增法及涂片法对相同标本进行检测 ,阳性率分别为 36 .8%和 17.0 % ,同时对压电基因传感器芯片技术的特异性及灵敏度进行检测。结论 实验结果表明压电基因传感器芯片技术是一种比 PCR扩增法更简便、快速的结核分枝杆菌检测方法

    Protein array/chip technique is a significantly advancing technology on molecule biology.There is wide latent application perspectives in function proteome study.The present developing printing protein microarray, molecular scanning technique and biosensor chip mass spectrometry will apply to the aspects to detection medicine targets, diagnosis diseases,identification proteins,and/or interaction between proteins, etc.Because analyses on these chips have many advantages such as quick detection, high...

    Protein array/chip technique is a significantly advancing technology on molecule biology.There is wide latent application perspectives in function proteome study.The present developing printing protein microarray, molecular scanning technique and biosensor chip mass spectrometry will apply to the aspects to detection medicine targets, diagnosis diseases,identification proteins,and/or interaction between proteins, etc.Because analyses on these chips have many advantages such as quick detection, high efficiency,little sample consumed and low cost,they will become novel study tools in the field of life science and medicine.

    蛋白质点阵 /芯片技术是分子生物学技术的重要进展 ,在功能蛋白质组研究方面具有广阔的潜在应用价值 .目前发展起来的印迹蛋白微阵列、分子扫描技术和传感器生物芯片质谱 ,将应用于药靶检测、疾病诊断、蛋白质结构鉴定和 /或蛋白质之间的相互作用分析等方面 ,具有分析速度快、效率高、样品消耗少等特点 ,将成为生命科学与医学领域新的研究工具

     
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