基因组之后,蛋白质组来了!
数据分析是蛋白质组研究的核心。
采用蛋白质组学技术筛选差异蛋白。
The proteomics technology was used to screen the different protein.
这是临床蛋白质组学的网页。
蛋白质组学:蛋白质经济。
本文综述了花粉蛋白质组学的研究进展。
This paper gives an overview of recent pollen proteomic investigations.
根据去年出版的一份蛋白质组研究杂志表明,这是有可能的。
Possibly, according to a study published last year in the Journal of Proteome Research.
蛋白质组学研究的核心技术之一是分离分析方法。
The separation and analytical technique is one of the core technologies in proteomic studies.
我们就蛋白质组学在视网膜领域的应用作一综述。
Here we reviewed the applications of proteomics in the field of retina.
本实验室的研究以蛋白质组学和衰老研究为中心。
Research in my lab centers around proteomics and aging studies.
在后基因组时代,蛋白质组学成为新的研究热点。
In post - genomic era, proteomics becomes the focus of research.
本文就肝细胞癌的蛋白质组学研究进展作简要综述。
In this paper we reviewed the recent progress in proteomic study of hepatocellular carcinoma.
胰蛋白酶解仍然是一个蛋白质组学的基本工作流程。
Tryptic digestion of proteins continues to be a fundamental part of any proteomics workflow.
本文对蛋白质组学及其在药物研究中的应用作一综述。
In this review, proteomics and its application in drug research are summarized.
因此,如何充分利用质谱数据对蛋白质组学研究的意义很大。
Therefore, how to make full use of mass spectrometry data has an important significance in proteome.
近年来,蛋白质组学技术已应用于结核分枝杆菌的研究领域。
In recent years, proteomics has been used in researching the field of Mycobacterium tuberculosis.
目的比较马尔尼菲青霉菌酵母相和霉菌相蛋白质组表达差异。
Objective To compare the difference in protome expression between yeast form and mould form of Penicillium marneffei.
简要介绍了蛋白质组学产生的科学背景、研究内容和研究方法。
Here we briefly introduce the scientific background of the origination of proteomics and its content, research method.
其中的DNA长链盘绕紧密围绕一个名为“组蛋白的蛋白质组。”
Where long strands of DNA are tightly coiled around a group of proteins called "histones."
我们首次对日本血吸虫的转录组和蛋白质组进行了整合比较分析。
We performed an integrated analysis upon the transcriptome and proteome of S. japonicum.
对研究蛋白质组的意义、蛋白质组的定义和技术体系作了简要介绍。
The meaning of proteome research, definition and technique system of proteome are summarized in this article.
综述了蛋白质组学主要研究方法及其在动物和植物发育生物学中的应用。
This paper summarizes major research methods and its application in animal and plant developmental biology of proteomics.
在蛋白质组研究中,建立一个稳定的方法十分重要,以保证结果的重现性。
In order to assure the reproducibility of results, establishing a steady method is very crucial in proteomic study.
蛋白质组研究可应用于基础研究和应用研究,尤其在生物医学领域前景美好。
Proteomic research can be used in basic research and applied research and open up a great prospect for biology and medicine.
通过对细菌、酵母等模式生物蛋白质组研究,人类蛋白质组研究取得了一定进展。
More progress has been obtained in human proteome by studying model biology such as bacteria and yeast.
蛋白质组学技术为研究视网膜生理活动规律和疾病病变机制提供了一个新的研究平台。
Proteomics techniques have paved the way for the studies of the physiological regularity of retinal cells and the mechanisms of retinal diseases.
本文主要就蛋白质组学的产生背景、相关概念、相关技术及其在药学研究中的应用作一简述。
In this review, the emergency background of proteomics, relative concepts and technologies, and the application in drug research are reviewed briefly.
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.
目的:应用蛋白质组学方法筛选子痫前期差异蛋白,探讨差异蛋白与子痫前期发生的可能关系。
AIM: to screen the differential proteins in deciduas of preeclampsia and to study their roles in preeclampsia.
目的:应用蛋白质组学方法筛选子痫前期差异蛋白,探讨差异蛋白与子痫前期发生的可能关系。
AIM: to screen the differential proteins in deciduas of preeclampsia and to study their roles in preeclampsia.
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