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.
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.
本文综述近年来蛋白质组学技术进展及其在微循环研究中的应用。
This paper reviews the recent progress of proteomics technology and its application in studies of microcirculation.
目的利用蛋白质组学技术研究相思豆毒素中毒小鼠肝脏差异表达蛋白。
Objective To identify the hepatic protein targets involved in abrin toxicity in mice.
本文就益生菌酸耐受应答过程中的蛋白质组学技术应用进展进行综述。
In this paper, the research progress of the changes of related proteins in procession of probiotics acid tolerance response using proteomics technique was reviewed.
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.
本综述主要介绍了应用蛋白质组学技术研究ups系统的研究现状以及存在的问题。
The recent advance in the study of UPS by proteomics techniques is briefly reviewed.
近年来,随着蛋白质组学技术的蓬勃发展,蛋白质组学在动物科学领域被广泛应用。
In recent years, with the rapid development of proteomics technology, proteomics has been widely used in the field of animal science.
目的:应用蛋白质组学技术寻找非霍奇金淋巴瘤与健康对照组血清中差异表达的蛋白。
Objective To find differential expression protein by proteomic technology in non-Hodgkin lymphoma (NHL) and healthy controls.
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.
目的:通过应用鸟枪法蛋白质组学技术发现早期诊断和逆转前列腺癌转移的分子标志。
OBJECTIVE: To explore the mechanism of prostate cancer metastasis and search for the potential markers for early diagnosing and reversing prostate cancer metastasis by shotgun-MS.
通过蛋白质组学技术筛选胃癌相关标志物是目前胃癌研究的热点,也是早期诊断的关键。
Screening of tumor markers by proteomic technology is the research focus and key of early diagnosis of stomach cancer study.
现在就蛋白质组学技术在乳腺癌、卵巢癌、宫颈癌等妇科恶性肿瘤研究中的应用进行综述。
The application of proteomic techniques in the research of gynecological malignancy tumors such as breast cancer, ovarian cancer and cervical cancer is reviewed here.
目前蛋白质组学技术在围产医学领域的研究主要侧重于疾病的发生机制、早期诊断及寻找疾病的生物标志物。
At present, the research on proteomics in field of perinatology emphasizes on mechanism, early diagnosis and searching for biomarkers of the perinatal diseases.
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.
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.
已建立的视网膜蛋白质2 -DE技术将为进一步开展视网膜疾病的蛋白质组学研究奠定基础。
Our established 2-de technique of retina proteins analysis can be effectively applied in the study of proteomics of retina diseases.
文章对蛋白质组学的研究策略、范畴、主要研究内容和技术、蛋白质组信息学以及蛋白质组学发展趋势进行了介绍。
The paper introduces the reaching strategies, category, content and technology of the study, along with the introduction of protein cluster information and the history of the study.
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.
蛋白质组学是旨在研究蛋白质表达谱和蛋白质与蛋白质之间相互作用的新领域,其研究必须依赖高通量、高自动化的技术。
Proteomics is a new field to research protein expression profiling and the protein-protein interaction. It must depend on high flux and high roboticized techniques.
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.
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.
本文介绍了病毒感染蛋白质组学研究技术、病毒诱导宿主细胞蛋白质组改变和病毒感染宿主血清差异蛋白质组等方面的研究进展。
In this paper, techniques of viral infection proteomics, the progress of changes of host cell proteome induced by virus, and serum differential proteome of host after viral infection were introduced.
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.
蛋白质组学作为一种全新的技术平台,正日益广泛地应用于药物研究中。
Proteomics as the new technical platform have been applied to the drug research progressively.
相关技术的建立成为蛋白质组学的一个核心技术问题。
The establishment of differential proteomics techniques stands on the central stage in proteomics analysis.
随着蛋白质组学相关研究技术的飞速发展,蛋白质组学已成为后基因时代生命科学领域研究的热点。
Proteomics has become a focus of life science in the era of post-genomics with quickly developing of research techniques in proteomics.
作为分析化学中蛋白质含量测定的一种新的方法,该技术可用于蛋白质的固定与印迹,以及功能蛋白质组学等领域。
As a novel method of protein determination in analytic chemistry, this technique may be used in protein immobilization and imprinting, functional proteomics, etc.
作为分析化学中蛋白质含量测定的一种新的方法,该技术可用于蛋白质的固定与印迹,以及功能蛋白质组学等领域。
As a novel method of protein determination in analytic chemistry, this technique may be used in protein immobilization and imprinting, functional proteomics, etc.
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