该文介绍了近年自组装蛋白质芯片技术的进展和应用研究。
This review focused on the recent advancement and application research on self-assembling protein microarrays.
评价最常用的二种玻璃表面修饰方法对蛋白质芯片质量的影响。
To evaluate and choose the optimal surface modification methods for the preparation of protein microarray.
蛋白质芯片是一种快速、高效、高通量的蛋白质组研究新技术。
Protein chip is a rapid, high-performance, high-throughput solution for proteomics research. At present, it has been one of research focuses.
利用蛋白质芯片技术,研制同步诊断多种动物病毒性疾病的方法。
Development of synchronous diagnostic method for animal viral diseases by protein microarray technique.
蛋白质芯片为高通量并行分析和检测蛋白质提供了强有力的工具。
Protein arrays provide a powerful tool for the high throughput parallel analysis of thousands of proteins within a single experiment.
目的研究蛋白质芯片与ELISA法对肿瘤标志物检测结果的差异。
Objective To evaluate the detected difference of tumor markers between protein biochip and ELISA method.
目的:抗体蛋白质芯片初步筛选常见细胞因子在卵巢癌耐药细胞株中的表达。
AIM: to identify the key factors responsible for drug resistance in different ovarian cancer cell lines using protein microarray system.
本发明涉及一种适用于高通量药物筛选的蛋白质芯片,及其制备技术及其检测方法。
The present invention relates to a protein chip applicable to high-flux medicine screening process, its preparation technique and detection method.
结论:蛋白质芯片技术应用于食品致病菌检测有独特优势,定会在此领域获得广泛应用。
Conclusion: Protein biochip technology has unique advantages in using of testing food pathogenic microbe and it can be widely used in this area.
结论蛋白质芯片技术是发现与筛选VSD血清标志蛋白的快速、有效的蛋白质组学工具。
Conclusion ProteinChip technology is a quick and effective tool of proteomics, and it is capable of discovering and screening serum protein markers of VSD.
本发明还提供采用上述量子点-生物复合探针作为信号探针(检测探针)的微流控蛋白质芯片。
The invention also provides a micro-fluidic protein chip which USES the quantum dot-biological composite probe as a signal probe (detection probe).
结果:能够制作出满足食品致病菌检测的速度快、准确性高、通量大等发展趋势的蛋白质芯片。
Results: We can make out the protein biochip that can fulfil the developing directions of testing food pathogenic microbe: less time, higher veracity and more capacity.
就近年来国际上蛋白质芯片的高通量蛋白质生产及固定技术的研究进展进行了系统的总结和分析。
In this article, we describe various methods in protein high throughput expression and attachment for protein chips.
方法:讨论了应用于食品致病菌检测的蛋白质芯片技术,比较了检测致病微生物的常用方法及其优缺点。
Methods:Discuss the protein biochip technology used in testing of food pathogenic microbe; compare the common methods of testing food pathogenic microbe and their advantages and disadvantages.
目前自组装蛋白质芯片已初步用于大规模蛋白-蛋白质相互作用的筛选,以及鉴定免疫优势抗原等研究。
Currently, self-assembling protein microarrays are primarily used for screening protein-protein interactions, identifying immunodominant antigens and so on.
SELDI蛋白质芯片技术能直接筛选出肺腺癌患者血清中相对特异的潜在标志物,具有较好的临床应用价值。
SELDI-TOF-MS proteinchip technology can screen out relatively specific, potential markers from serum of lung adenocarcinoma patients, so it has better clinical value.
芯片大规模遥感实验的目的是最大限度地利用大众的样品可以用蛋白质芯片大光斑直径或多个景点每个受体每个基板。
Microarray mass-sensing assays aim to exploit maximally the analyte mass available by using a protein microarray with a large spot diameter or multiple spots of each receptor per substrate.
目的:用SELDI蛋白质芯片技术检测HBV感染携带者与肝细胞癌(HCC)患者血清蛋白质谱的差异性表达,以发现HCC的早期诊断标志物。
Object Using SELDI protein chip technology to detect the different serum protein spectrum of HBV infected carriers and HCC patient , and to explore serum markers for diagnosis of HCC.
SEL DI蛋白质芯片技术是结合色谱学层析原理和SELDI T OFMS技术制成的新一代生物芯片,是目前肿瘤蛋白质组学研究的重要工具之一。
SELDI proteinchip technique, which combines the chromatography principle and SELDI, TOF, MS technique, is the newest biochip, and one of the important tools in the research of the tumors proteomics.
所谓的microNMR芯片,是用磁纳米粒测量癌变肿瘤中的蛋白质和其他化合物,只需要很少数量的组织就可以完成一次诊断,研究人员称。
The so-called microNMR chip, which uses magnetic nanoparticles to measure proteins and other chemical compounds in tumors, requires only tiny amounts of tissue to make a diagnosis, researchers said.
在第二章中,采用激光诱导荧光检测芯片毛细管电泳系统进行蛋白质和多肽分离的研究。
In the second section, a chip based ce system with laser induced fluorescence detector was developed to achieve the separation of protein and polypeptide.
目的方法利用液体芯片-飞行质谱技术进行血清中胶质瘤疾病相关蛋白质的筛选。
Objective To screen glioma's disease-related proteins in serum by liquid chip-MALDI TOF Mass Spectrometry.
图1最常见的蛋白质阵列,抗体芯片。
Figure 1 Illustrates the most common protein array, the antibody microarray.
生物芯片的应用是将探针固定于芯片上,利用核酸链间的分子杂交,鉴定dna和蛋白质的一种新技术。
The application of biochips is a new technique which fixes the probes on the biochips to appraise DNA and protein by the way of the molecule crosses between the chains of nucleic acids.
本文就基因芯片技术和比较蛋白质组学在微波、电磁场等电磁辐射领域中的应用及其研究进展进行综述。
The present paper reviews the research progress in application of gene chips and comparative proteomics in electromagnetic radiation such as microwave and electromagnetic fields.
为此,文章对蛋白芯片的主要原理和类型以及近几年蛋白芯片在蛋白质组学中的应用,尤其是在蛋白表达谱图和蛋白质相互作用谱图中的应用进行了综述。
This review briefly introduces the main theory and types of the protein microarray, and then sum up their applications in the expression profiling and the interaction profiling of proteins.
本发明涉及利用微孔芯片筛选具有有用功能的微生物、蛋白质的方法及装置。
A method and apparatus for screening a microorganism or protein having a useful function by using a micro-chamber array.
生物芯片平台适用于蛋白质组合基因组的分析,提供更加出色和准确的检测标准。
The Biochip platform is suitable for both proteomic and genomic analysis, providing test standardization for better performance and accuracy.
芯片实验室技术作为基因组学和蛋白质组学研究的一种新的技术平台,受到广泛重视。
Lab on a chip has been widely used in bioscience research as a new technical flat.
芯片实验室技术作为基因组学和蛋白质组学研究的一种新的技术平台,受到广泛重视。
Lab on a chip has been widely used in bioscience research as a new technical flat.
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