microarray
英
美
网络 微阵列技术; 生物芯片; 芯片; 晶片; 生物晶片
COCA.32539
双语例句
- Microarray and proteomic profiles were predictive of DFS.
微数列和蛋白质组都可对DFS进行预测。 - Objective To search an effective method on screening significant genes based on microarray data.
目的基于微阵列表达数据,探索筛选差异表达基因的有效方法。 - The researchers developed a "functional protein" microarray to detect autoantibodies in prostate cancer serum samples.
研究者开发了一种“功能蛋白”的微阵列去检测在前列腺癌症血清样品中的自身抗体。 - This article describes issues, techniques and algorithms for analyzing data from microarray experiments.
这篇文章描述了分析来自微阵列实验的问题,技术和算法。 - The genes which are associated with CQ increased radiosensitivity were studied by microarray analysis.
用人类基因芯片筛选与CQ增加辐射抗拒细胞辐射敏感性相关的基因。 - Functional Analysis of Microarray Data Using Bioinformatics Methods
生物信息学方法在基因芯片数据功能分析中的应用 - Through microarray analysis, a salt-responsive zinc finger protein gene ZFP179 was identified and subsequently cloned from rice seedlings.
通过基因芯片分析,我们在水稻发现了一个对盐胁迫有应答的锌指蛋白基因ZFP179,随后在水稻苗期克隆该基因。 - However, the expansion of microarray applications has exposed the limitation of existing tools.
但是,微阵列应用的扩展已经暴露了现有工具的局限性。 - Microarray technology is an important tool for current research of functional genomics.
基因芯片技术是当前功能基因组研究的重要工具。 - The strengths and limitations of HTS relative to microarray profiling are discussed.
讨论了和微阵列谱相比,HTS的优点和局限。 - Numerous methods are available to compare results of multiple microarray studies.
许多方法可用于比较多个微阵列研究的结果。 - One important application of microarray gene expression data is classification of tissue samples.
基因表达数据的一个重要应用是给组织样本进行分类。 - Gene expression characteristics analysis is the research hotspot of microarray.
基因表达特征分析是基因芯片的研究热点。 - The research direction of this dissertation is about the microarray based gene mining in the bioinformatics subject.
本论文的研究方向是生物信息领域的基于基因表达谱的基因挖掘。 - DNA microarray has been applied to DNA sequencing, pharmaceuticals analysis, gene expression and so on.
DNA微集阵列已广泛用于DNA测序、药物分析、基因表达等研究领域。 - Several classification methods based on DNA gene expression microarray data are introduced in this paper.
最后对基于基因表达微阵列数据的分类技术进行了展望。 - The result of microarray detection was compared to that of PCR and sequencing.
基因芯片检测结果与PCR及测序结果进行对比分析。 - Study on technical optimization of DNA microarray construction and application for Dystrophin gene analysis
Dystrophin基因缺失检测微阵列构建及应用中技术优化的研究 - To overcome these limitations, tissue microarray ( TMA) technology has been developed.
为了克服这些限制,组织微阵列(TMA)技术被开发。 - The design and precision in execution of a tissue microarray is essential to obtain the desired results.
组织微阵列执行中的设计和精度对于获得需要的结果是至关重要的。 - Here, we outline the currently used methylation detection reagents and their application to microarray and sequencing platforms.
这里,我们概述了当前用于甲基化检测的试剂,及它们在微阵列和测序平台上的应用。 - Missing values contained in microarray data will affect subsequent analysis.
微阵列数据中的缺失值会对随后的数据分析造成影响。 - 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 - Tissue microarray methodology was used to simulate small image-guided biopsies.
我们常常用组织微阵列技术模仿图像引导的小的活检标本。 - Development of synchronous diagnostic method for animal viral diseases by protein microarray technique.
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。 - The process to identify such biosignatures is called gene expression profiling, and it's done using microarray analysis.
确定这个生物特征的过程就是所谓的基因表达,通过微阵列分析实现。 - This paper review the basic principle, research and application of protein microarray.
就蛋白质芯片的基本原理、研究进展及应用状况做一介绍。 - Applications Progress of Tissue Microarray Technology in Biomedical Research
组织芯片技术在生物医学研究应用中的新进展 - The importance of microarray data analysis lies in presenting functional annotations and classifications.
微阵列数据分析的重要性在于呈现功能注释和分类。