1)Proteinchip array analysis蛋白质微阵列分析
2)protein array analysis蛋白质阵列分析
3)protein microarray蛋白质微阵列
1.Detection of HIV antibodies with protein microarrays based on nanogold probe coupled with silver enhancement;金标记银增强方法检测HIV抗体的蛋白质微阵列
2.These nanoparticles were further used as fluorescent probes in protein microarray assay for the quantity detection of protein.以此纳米荧光小球为标记物,应用于蛋白质微阵列的定量检测,结果发现其效果明显优于相同条件下以异硫氰酸荧光素(FITC)为标记物的定量结果,检出限可以达到3。
3.Part I: Construction of protein microarray platformand TORCH antigen microarrayProtein microarray is an important tool of proteomics research.第一部分:蛋白质微阵列技术平台的建立及TORCH抗原芯片的研制蛋白质微阵列是蛋白质组学研究的重要工具,是利用生物芯片点样仪将大规模的微量蛋白质特异捕获分子以一种可寻址的方式固定在芯片片基表面形成微阵列,应用时与生物样品反应后扫描检测从而实现对样品中蛋白质组分进行微量、快速、高通量地平行分析。
英文短句/例句
1.Experimental Study on the Detection of TORCH Infections Using Protein Microarray Technology;蛋白质微阵列技术在检测TORCH感染中的实验研究
2.Optimizing of the Preparation Condition of Agarose Modified Glass Slide for the Production of Protein Microarrays;蛋白质微阵列生产用琼脂糖修饰玻片制备的条件优化
3.Preliminary Study on Testing Method of Three Mycotoxins by Protein Microarray and Preparation of Anti-TC Polyclonal Antibodies;三种真菌毒素蛋白质微阵列检测方法的初步研究以及抗四环素多克隆抗体的制备
4.Preparation, Optimization and Application of One-Dimensional Microfluidic Microbead Arrays for Protein Analysis;一维微流控蛋白质微珠阵列的制备、优化及应用
5.Applications of One-Dimensional Microfluidic Beads Array Chip in Nucleic Acids and Proteins Analysis;一维微流控微珠阵列芯片在核酸和蛋白质分析中的应用
6.Protein Microarray Analysis of Protein That BMSCs Regulate the Differentiation of NSCs;骨髓基质细胞诱导神经干细胞分化的蛋白质的微阵列分析
7.Figure1 Illustrates the most common protein array, the antibody microarray.图1最常见的蛋白质阵列,抗体芯片.
8.Identification of Ubiquitin Target Proteins Using Cell-based Arrays;基于细胞微阵列筛选泛素—蛋白酶体通路底物的研究
9.Experimental Studies on Detection of Urinary Micro Protein by Piezoelectric Quartz Crystal Immunosensor Array;尿微量蛋白压电石英晶体免疫传感器阵列的实验研究
10.Application of Microarray Technology to Research the Status of Her-2 Gene Amplification and Protein Expression in Breast Cancer应用微阵列技术研究乳腺癌HER-2基因状态和蛋白的表达
11.The protein out of which microtubules are made is called tubulin.构成微管的蛋白质叫做微管蛋白。
12.Using dihedral angle series of protein for protein structure comparison利用蛋白质的二面角序列对蛋白质结构比对
13.Design of four-channel piezoelectric immunosensor array to detect bone sialoprotein四通道骨唾液蛋白压电免疫传感器阵列的研制
14.Effects of protein sources on AA profiles of microbial protein in goats rumen蛋白质源对山羊瘤胃微生物蛋白AA组成的影响
15.Analyzing Similarity of Protein Sequences with Discrete Wavelet Transform;离散小波变换分析蛋白质序列相似性
16.Predicting Protein Molecular Functions Based on Sequence Features;基于序列特征的蛋白质分子功能预测
17.An Optimized Method for Protein Motif Mining一种优化的蛋白质序列模式挖掘方法
18.PREDICTION OF PROTEIN STRUCTURAL CLASSES BY USING WHOLE SEQUENCE AND NEURAL NETWORK蛋白质结构类的全序列神经网络预测
相关短句/例句
protein array analysis蛋白质阵列分析
3)protein microarray蛋白质微阵列
1.Detection of HIV antibodies with protein microarrays based on nanogold probe coupled with silver enhancement;金标记银增强方法检测HIV抗体的蛋白质微阵列
2.These nanoparticles were further used as fluorescent probes in protein microarray assay for the quantity detection of protein.以此纳米荧光小球为标记物,应用于蛋白质微阵列的定量检测,结果发现其效果明显优于相同条件下以异硫氰酸荧光素(FITC)为标记物的定量结果,检出限可以达到3。
3.Part I: Construction of protein microarray platformand TORCH antigen microarrayProtein microarray is an important tool of proteomics research.第一部分:蛋白质微阵列技术平台的建立及TORCH抗原芯片的研制蛋白质微阵列是蛋白质组学研究的重要工具,是利用生物芯片点样仪将大规模的微量蛋白质特异捕获分子以一种可寻址的方式固定在芯片片基表面形成微阵列,应用时与生物样品反应后扫描检测从而实现对样品中蛋白质组分进行微量、快速、高通量地平行分析。
4)protein microarrays蛋白质微阵列
1.So one of the key steps in the development of protein microarrays is design of a solid support material which can efficiently immobilize proteins on its surface and keep their activity.蛋白质微阵列又称蛋白质芯片,是近年来兴起的一项蛋白质组学研究技术,广泛应用于蛋白质组学研究、医学基础与临床诊断等,相比基因芯片上的DNA,蛋白质更为复杂和不稳定,固定在微阵列表面的蛋白质容易变性失活,因此研究和制作蛋白质微阵列的关键步骤之一就是要寻找合适的载体材料及其相应的表面修饰技术,以保证能够固定足够量蛋白质的同时保持蛋白质的活性。
2.The authors review the development and the applications of 2 - dimensional electrophoresis,mass spectrometry,protein microarrays,antibodies, yeast two hybrid system,and others new methods.本文综述双向电泳、质谱、蛋白质微阵列、抗体、酵母双杂交系统以及一些新型高通量方法研究进展及其在植物蛋白质组研究中的应用。
3.The availability of such protein microarrays would facilitate the simultaneous analysis of thousands of interactions.蛋白质微阵列是生物芯片的一种 ,其主要优势在于应用平面上的有序排列的许多管、腔 (孔 )或各自独立的点来进行样本检测 ,使大量样本的平行分析成为可能。
5)Protein array analysis蛋白质陈列分析
6)protein sequence analysis蛋白质序列分析
1.To find the functional similarity of proteins with low identity is a hinge of protein sequence analysis.对于蛋白质序列分析,关键在于有效地发现相似的序列片断、特定的结构—功能域和低相似性的同源序列。
延伸阅读
蛋白蛋白 为食物蛋白和蛋白胨的中间产物,可溶于水,遇热不凝固,可供培养微生物之用。
