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表面等离子体子共振技术实时研究蛋白质在修饰表面的静电吸附行为 总被引:4,自引:0,他引:4
研究蛋白质在固相表面的静电吸附特性,进而控制蛋白质在修饰表面的静电吸附尤为重要,表面等离子体子共振可以检测金属表面吸附物质厚度和折射率的变化^[1]。这种技术已在研究生物分子相互作用^[2]和考察自组装单层的形成^[3]及蛋白质在固体表面吸附行为^[9-11]等方面得到广泛的应用。对蛋白质在固体表面吸附行为的研究多为考察不同的蛋白质在不同的修饰表面的吸附行为。然而,对蛋白质在修饰表面静电吸附的本质影响因素的研究却少有报道^[4]。本文使用表面等离子体子共振技术实时研究了蛋白质在甲羧基化葡聚糖修饰表面的静电吸附与溶液pH值及离子强度的依赖关系。 相似文献
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表面等离子体共振(Surface Plasmon Resonance,SPR)技术是利用金属薄膜光学耦合产生的物理光学现象建立的一种非常灵敏的光学分析手段. 近年发展的电化学表面等离子体共振(Electrochemical Surface Plasmon Resonance,EC-SPR)是将时间分辨表面等离子体共振光谱技术与电化学方法联用的一种新技术. 本文介绍了SPR和EC-SPR的基本原理,并重点阐述了时间分辨SPR光谱技术与电化学方法联用及应用,该技术已广泛地应用于反应动态过程研究、生物化学传感器、电极/溶液界面的表征、动力学常数的测定以及生物分子相互作用等领域. 相似文献
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光谱法研究蛋白质与表面活性剂的相互作用 总被引:18,自引:0,他引:18
结合本课题组的工作, 较系统地总结了近年来有关紫外吸收光谱、荧光光谱、圆二色光谱和电子自旋共振光谱技术在蛋白质-表面活性剂混合体系研究中的应用. 大量研究表明, 借助于光谱技术不仅可以研究蛋白质结构与功能的关系, 而且可以探讨蛋白质与表面活性剂的作用机理. 相似文献
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蛋白质-蛋白质相互作用调控着细胞内众多生物过程, 蛋白质间相互作用网络的绘制对解析复杂的生物过程至关重要. 面对生物体中复杂的蛋白质-蛋白质相互作用, 液质联用技术不仅具有灵敏度高的鉴定优势, 还可以对数以千计的蛋白质进行定量分析. 因此, 对目标蛋白质进行富集、标记或共分级的处理后, 结合液质联用技术对蛋白质准确而灵敏的鉴定, 这类技术已被广泛应用于复杂样本中蛋白质-蛋白质相互作用网络的解析. 目前基于液质联用技术的几种常用的方式, 包括亲和纯化质谱方法(AP-MS)、近程标记质谱方法(PDB-MS)、化学交联质谱方法(XL-MS)和共分级偶联质谱方法(CF-MS)等. 本综述讨论了这些方法的基本原理、优点和在细胞内解析蛋白质间相互作用的应用. 相似文献
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蛋白质-蛋白质分子对接中打分函数研究进展 总被引:2,自引:0,他引:2
分子对接是研究分子间相互作用与识别的有效方法.其中,用于近天然构象挑选的打分函数的合理设计对于对接中复合物结构的成功预测至关重要.本文回顾了蛋白质-蛋白质分子对接组合打分函数中一些主要打分项,包括几何互补项、界面接触面积、范德华相互作用能、静电相互作用能以及统计成对偏好势等打分项的计算方法.结合本研究小组的工作,介绍了目前普遍使用的打分方案以及利用与结合位点有关的信息进行结构筛选的几种策略,比较并总结了常用打分函数的特点.最后,分析并指出了当前蛋白质-蛋白质对接打分函数所存在的主要问题,并对未来的工作进行了展望. 相似文献
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表面等离子体共振(surface plasmon resonance, SPR)传感技术是生物化学分析领域常用的分析手段和研究工具,与其相关的研究不计其数,发展日新月异。本研究小组从事SPR传感技术研究近十年,从初期的理论研究、仿真计算、传感器设计以及全自动SPR生物分析仪开发与应用研究,到目前的传感器性能提高、应用拓展,时刻关注着该项技术的最新动态。本文系统综述了SPR传感技术和生物分析仪的原理、结构以及主要功能模块,SPR传感器的调制类型、耦合方式以及SPR成像传感器;介绍了结合局域表面等离子体共振(local surface plasmon resonance, LSPR)技术、改进金属膜系设计、优化数据处理算法等提高SPR生物分析仪性能的方法;阐述了SPR传感技术和生物分析仪的最新进展,包括SPR技术和微流控芯片、电化学技术、表面增强拉曼散射技术(SERS)的联用;列举了SPR生物分析仪在临床诊断、药物筛选、生物分子研究、食品安全和环境监测等领域的应用实例;最后,分析了SPR生物分析仪面临的主要问题以及未来的发展趋势。 相似文献
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蛋白质是生命功能的执行者,其功能的发挥受自身结构动态变化、与其他生物分子的相互作用及修饰等因素的调节。因此,对蛋白质及蛋白复合物结构的研究有助于揭示重要生命过程中的分子机理与机制。氢氘交换质谱(Hydrogen deuterium exchange mass spectrometry,HDX-MS)是研究蛋白质结构、动态变化和相互作用的强有力工具,也是传统生物物理手段的重要补充。该文综述了HDX-MS的基本原理、机制、实验方法和研究最新进展,并从蛋白质自身动态变化、蛋白质-小分子相互作用、蛋白质-蛋白质相互作用3个方面介绍了近年来HDX-MS在蛋白及蛋白复合物研究中的应用进展。 相似文献
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随着人类基因组测序计划的完成,生命科学研究热点逐渐由基因组学向蛋白质组学转移.分析化学工作者利用分子信标探针和生物功能化纳米颗粒的固有优势,发展了一系列新原理、新方法和新技术并在蛋白质组学研究领域得到了广泛应用,极大地促进了蛋白质组学的发展和进步.本文主要综述了基于分子探针和生物功能化纳米颗粒开展的一系列实时、原位、灵敏、特异的蛋白质分析研究,包括:非特异性/特异性蛋白质的检测与分离、蛋白质/DNA相互作用研究、细胞表面蛋白质的识别,以及基于抗原-抗体反应的病原菌检测等,并进一步展望了基于分子信标探针和生物功能化纳米颗粒的蛋白质分析研究的发展前景与关键问题. 相似文献
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Development of surface chemistry for surface plasmon resonance based sensors for the detection of proteins and DNA molecules 总被引:1,自引:0,他引:1
The immobilisation of biological recognition elements onto a sensor chip surface is a crucial step for the construction of biosensors. While some of the optical biosensors utilise silicon dioxide as the sensor surface, most of the biosensor surfaces are coated with metals for transduction of the signal. Biological recognition elements such as proteins can be adsorbed spontaneously on metal or silicon dioxide substrates but this may denature the molecule and can result in either activity reduction or loss. Self assembled monolayers (SAMs) provide an effective method to protect the biological recognition elements from the sensor surface, thereby providing ligand immobilisation that enables the repeated binding and regeneration cycles to be performed without losing the immobilised ligand, as well as additionally helping to minimise non-specific adsorption. Therefore, in this study different surface chemistries were constructed on SPR sensor chips to investigate protein and DNA immobilisation on Au surfaces. A cysteamine surface and 1%, 10% and 100% mercaptoundecanoic acid (MUDA) coatings with or without dendrimer modification were utilised to construct the various sensor surfaces used in this investigation. A higher response was obtained for NeutrAvidin immobilisation on dendrimer modified surfaces compared to MUDA and cysteamine layers, however, protein or DNA capture responses on the immobilised NeutrAvidin did not show a similar higher response when dendrimer modified surfaces were used. 相似文献
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Surface plasmon resonance 总被引:1,自引:0,他引:1
Pattnaik P 《Applied biochemistry and biotechnology》2005,126(2):79-92
During last decade there has been significant progress in the development of analytical techniques for evaluation of receptor-ligand
iteraction. Surface plasmon resonance (SPR)-based optical biosensors are now being used extensively to defined the kinetics
of wide variety of macromolecular interactions and high- and low-affinity small molecule interactions. The experimental design
data analysis methods are evolving along with widespread applications in ligand fishing, microbiology, virology, host-pathogen
interaction, epitope mapping and protein-, cell-, membrane-, nucleic acid-protein interactions. SPR based biosensors have
strong impact on basic and applied research significantly. This brief review describes the SPR technology and few of its applications
in relation to receptor-ligand interaction that has brought significant change in the methodology, analysis, interpretation,
and application of the SPR technology. 相似文献
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J. Bowen J. Meecham M. Hamlin B. Henderson M. Kim N. Mirjankar B.K. Lavine 《Microchemical Journal》2011,99(2):415-420
Development of field-deployable methodology utilizing antigen–antibody reactions and the surface plasmon resonance (SPR) effect to provide a rapid diagnostic test for recognition of the blue tongue virus (BTV) and epizootic hemorrhage disease virus (EHDV) in wild and domestic ruminants is reported. A Spreeta chip, which utilizes microelectronic technology to implement the SPR effect, is shown to possess sufficient sensitivity and operating speed to detect either BTV and EHVD antigens or antibodies in real time. The biosensor consists of an outer active surface layer comprised of either an antibody or antigen immobilized by covalent bonds through several other organic layers including a self assembled monolayer to a gold surface. Parallel experiments were run on the biosensor surface using either a home-built high resolution SPR instrument or a low resolution solid state Spreeta SPR chip. Both instruments were capable of monitoring the antigen–antibody reaction used to selectively detect the presence of BTV and EHDV viral pathogens. Results for the antibody and antigen reactive layers with antigen or antibody solutions as well as the modeling of these layers are discussed. The characteristics of these biosensors – specificity and time of reaction – were assessed. The antibody surface biosensors exhibited a high degree of specificity, even when using low resolution instrumentation. The time of analysis was under 20 min, which was the arbitrary exposure time. 相似文献
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Proteomics is one of the most important issues in the post-genomic area, because it can greatly contribute to identifying protein biomarkers for disease diagnosis and drug screening. Protein array is a key technology for proteome researches and has been analyzed by various methods including fluorescence, mass spectrometry, atomic force microscopy and surface plasmon resonance (SPR). SPR biosensor is a promising technology in proteomics, since it has various advantages including real-time measurement of biomolecular interactions without labeling and the simple optical system for the device. SPR biosensors have a strong potential for analyzing proteomes by SPR imaging and SPR spectroscopic imaging, even though the challenge is to produce proteins on a proteomic scale. 相似文献
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利用生物传感芯片质谱法(BIA/MS)对微球蛋白及其抗体的相互作用进行分析和鉴定.将微球蛋白抗体偶联到芯片上,让微球蛋白溶液流过芯片表面,然后使用“三明治”结构的微再生方法把结合的微球蛋白从芯片上洗脱下来,再对其进行酶解及质谱鉴定,在10-15mol水平得到了明确的结果. 相似文献
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Jian Quan Lu Ming Bo Xu Xing Wang Zhou Jin Guang Xu Qing Tao 《中国化学快报》2007,18(4):441-444
An ss-DNA gold chip was prepared based on self-assembly of the thiol-derivatized oligonucleotide,and used for thedetermination of single-stranded binding protein(SSB)by surface plasmon resonance microscopy(SPR).The experiment resultsshowed that SSB binds ss-DNA with high specificity,and relative signal of SPR response is proportional to the concentration of SSBin the range of 0.1-100 ng/mL with a detection limit(S/N=3)of 0.07 ng/mL. 相似文献
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Wavelength modulation surface plasmon resonance biosensors (SPR) using colloidal Au nanoparticles and double-linker sensing membrane enhancement are reported for determination of transferrin. The 2-mercaptoethylamine (MEA) was immobilized on the biosensor surface with traditional amine coupling method. The interaction between colloidal Au nanoparticles and MEA was investigated. The anti-transferrin was immobilized on the biosensor surface prepared with staphylococcal protein A (SPA). The interaction of the antibody and antigen was monitored in real time. The good response was obtained in the concentration range 1-20, 0.1-20 and 0.05-20 μg/mL for directly immune assay, double-linker assay and colloidal Au-amplified assay. The result clearly demonstrates that these methods may obtain significantly enhancement of sensitivity for the wavelength modulation SPR biosensor. 相似文献
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Here we report an effective method for protein immobilization on a surface plasmon resonance (SPR) gold chip, describing the combination of cysteine- and oligomerization domain-mediated immobilization of enhanced green fluorescent protein (EGFP) as a model protein for the purpose of orientation-controlled surface density packing. In order to facilitate the oligomerization of EGFP, the dimeric and trimeric constructs derived from GCN4- leucine zipper domain were chosen for multimeric EGFP assembly. For orientation-controlled immobilization of the protein, EGFP modified with cysteine residues showing excellent orientation on a gold chip was used as a starting protein, as previously reported in our earlier study (Anal. Chem., 2007, 79, 2680-2687). Constructs of EGFP with oligomerization domains were genetically engineered, and corresponding fusion proteins were purified, applied to a gold chip, and then analyzed under SPR. The immobilized EGFP density on a gold chip increased according to the states of protein oligomerization, as dimeric and trimeric EGFPs displayed better adsorption capability than monomeric and dimeric forms, respectively. Fluorescence measurement corroborated the SPR results. Taken together, our findings indicated that the combination of cysteine- and oligomerization domain-mediated immobilization of protein could be used in SPR biosensor applications, allowing for an excellent orientation and high surface density simultaneously. 相似文献
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Carbohydrates (glycans) and their conjugates with proteins and lipids contribute significantly to many biological processes. That makes these compounds important targets to be detected, monitored and identified. The identification of the carbohydrate content in their conjugates with proteins and lipids (glycoforms) is often a challenging task. Most of the conventional instrumental analytical techniques are time-consuming and require tedious sample pretreatment and utilising various labeling agents. Surface plasmon resonance (SPR) has been intensively developed during last two decades and has received the increasing attention for different applications, from the real-time monitoring of affinity bindings to biosensors. SPR does not require any labels and is capable of direct measurement of biospecific interaction occurring on the sensing surface. This review provides a critical comparison of modern analytical instrumental techniques with SPR in terms of their analytical capabilities to detect carbohydrates, their conjugates with proteins and lipids and to study the carbohydrate-specific bindings. A few selected examples of the SPR approaches developed during 2004–2011 for the biosensing of glycoforms and for glycan–protein affinity studies are comprehensively discussed. 相似文献