指出这些质谱新技术已被证明在多肽和蛋白质的鉴定、单核苷酸、核酸、糖蛋白的分析等领域是很有效的工具。
These new techniques have been proven to be the powerful tool for identifying protein, polypeptide, and analyzing single nucleotide polymorphism, nucleic acids, glycoprotein, etc.
采用多维色谱-串联质谱联用技术分析鉴定小鼠肝脏质膜蛋白质。
Multidimensional liquid chromatography coupled with tandem mass spectrometry was used to identify mouse liver plasma membrane(PM) proteins.
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.
所不同的是我们采用了优化的一维凝胶电泳和液相色谱串联质谱联合的复杂蛋白质混合物鉴定技术。
The difference of this chapter is that we use an optimized one-dimensional gel electrophoresis and liquid chromatography tandem mass spectrometry combined protein mixture identification technology.
首先,开展大规模的蛋白质组研究的必备条件是高分辨蛋白质分离技术和高通量、高灵敏度的鉴定技术。
First of all, we carry out a large-scale proteome research as a prerequisite for high-resolution protein separation techniques and high-throughput, high sensitivity identification technology.
开展大规模蛋白质组研究的必备条件是高分辨蛋白质分离技术和高通量、高灵敏度的鉴定技术。
The necessities for large scale of proteome research are separation techniques with high resolution and proteins identification techniques with high throughput and high sensitivity.
生物信息学是蛋白质组研究不可缺少的技术,通过比较质谱分析结果与蛋白质数据库中的氨基酸序列可实现蛋白质的鉴定。
Bioinformatics which is an indispensable technique can evaluate the protein by comparing the results of mass spectrometry and the amino acid rank in protein databank.
传统的亚细胞分离技术结合质谱鉴定技术为亚细胞蛋白质组学的研究提供了技术平台。
The classical subcellular fractionation methods coupled with mass spectrometry identification technique have created opportunities for the study of subcellular fractions.
用蛋白质印迹免疫检测技术和免疫细胞化学技术鉴定细胞表型。
Immunocytochemistry and western blotting technology were used to identify the cell phenotype.
并通过应用最新现代生物信息学、蛋白质组技术体系对此酶的部分信息结构进行了鉴定。
And through applying newest modern biological informatics and proteome technical system the partial informations and the structure of this new tapy DNAase are further appraised.
质谱技术已经成为目前蛋白质鉴定的重要工具。
Mass spectrometry has become a powerful technique for proteomics analysis.
化合物筛选的高效率和基因指纹技术的进步,如微阵列技术和蛋白质组学,将加速有效的选择性受体调节子鉴定。
Advancement in high throughput compound screening and gene fingerprinting technologies, such as microarrays and proteomics, will facilitate and accelerate identification of effective SARMs.
本文主要综述了近年来癌症差异蛋白质组学研究中样品分离和鉴定分析技术。
In this review, we focused on the sample separation and identification progress in cancer comparative proteomics.
目前,蛋白质组学技术主要包括:蛋白质的分离、蛋白质鉴定及信息查询。
At the present time, the major proteomic techniques consist of separation of proteome, identification of proteins and information retrieval.
目前,蛋白质组学技术主要包括:蛋白质的分离、蛋白质鉴定及信息查询。
At the present time, the major proteomic techniques consist of separation of proteome, identification of proteins and information retrieval.
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