微阵列技术

DNA微阵列技术已广泛应用于基因突变的检测。

DNA microarray has been widely used to test gene mutation .

DNA微阵列技术在细菌感染后宿主反应研究中的应用

Studying the Host Response to Infection of Pathogenic Bacteria by DNA Microarray

DNA微阵列技术是一种近年来发展起来的新型高通量生物检测技术。

DNA microarray technology is a recently developed high-throughput biological experimental technique .

DNA微阵列技术在辐射诱导基因表达研究中的运用

Application of DNA microarray in research of radiation-induced genes

DNA微阵列技术在胃癌研究中的应用

Application of DNA Microarray on Gastric Cancer Research

DNA微阵列技术（DNAmicroarraytechnology）是近几年发展起来的应用DNA微阵列进行基因功能研究的新的生物技术。

DNA microarray technology is a new biological technique that developing in a nearly years .

应用DNA微阵列技术对洛克沙砷处理肉鸡后肝脏和胸肌组织基因表达谱的研究

Expression Profiling of Liver and Breast Muscle Displayed with DNA Microarray in Chicken Treated by Roxarsone

cDNA微阵列技术对肺鳞癌、肺腺癌基因表达谱的研究

Non small cell lung cancer gene expression profiles by cDNA microarrays

应用cDNA微阵列技术检测子宫内膜癌组织中基因表达图谱的变化

Monitoring gene expression profile changes in endometrial cancer using cDNA microarray technology

DNA微阵列技术作为一种新兴的技术成为对肿瘤基因表达谱进行分析研究的有力工具。

As a new technology , DNA microarray technology is becoming an effective way to analyze cancer gene expression data .

DNA微阵列技术是生物信息学中一项很重要的技术，它能够同时监控成千上万个基因的表达值。

The DNA microarray is an important technique in biology , which can monitor the expression levels of thousands of genes .

基因表达数据是通过DNA微阵列技术获得的关于一组基因表达过程及其调控信息的定量描述。

Gene expression data is the quantitative description of a group of gene expression and regulation information by DNA Microarray technology .

DNA微阵列技术检测Duchenne型/Becker型肌营养不良患者的临床应用研究

Detection of Duchenne and Becker muscular dystrophy patients by DNA microarray

方法利用细胞培养、DNA微阵列技术等，检测了神经干细胞分化前后的差异表达基因。

Methods Differential gene expression before and after the differentiation of neural stem cells was investigated by cell culture , DNA microarray , etc.

随着人类基因组计划的发展，DNA微阵列技术作为一项革命性的技术应运而生。

Along with the development of the Human Genome Program , the DNA microarray technology arises as a revolutionary technology at the time .

方法用细胞学、生物化学和DNA微阵列技术分析人食管鳞癌细胞经As2O3处理前后细胞形态、生长状况及基因表达的改变。

Methods DNA microarray , biochemical and cytological analyses were used .

DNA微阵列技术是探索基因组功能的一种强有力工具。蛋白质组表达图谱用于基因组功能提示的可行性研究

The technology of DNA microarray is a efficient way to study genomic functions . The Feasibility of Using Proteome Expression Profile for Genome Annotation

结论：DNA微阵列技术适用于DMD基因缺失检测，具有简便、高通量、灵敏等特点。

Conclusion : DNA microarray is suitable for the identification of DMD gene deletion diagnoses .

目的：用cDNA微阵列技术克隆和筛选成年期与胚胎期睾丸差异表达基因，以进行睾丸发育及精子发生的调控研究。

Objective : To identify gene differential expression in embryo and adult testes by cDNA microarray techniques .

基于cDNA微阵列技术对激活蛋白处理水稻后信号传导及防卫反应相关基因的研究

Studies on signal transduction and defense-related genes in rice treated with activator protein based on cDNA microarray

应用cDNA微阵列技术研究胶质母细胞瘤凋亡相关基因的表达

Screening the Various Expression of Apoptosis Related Genes between Glioblastoma and Normal Brain Tissue with cDNA Microarray

DNA微阵列技术是进行全基因组基因表达研究以识别与疾病相关的以前未知的生物学通路的一个相对较新且新奇的方式。

DNA-microarray technology is a relatively recent and novel approach to conducting genome-wide gene expression studies to identify previously unknown biological pathways associated with disease .

研究病原体与宿主相互作用的一种有效手段是运用DNA微阵列技术分析全基因组表达谱的差异。

To study the interaction between pathogen and host , it is an effective means to analysis differences of genome expression profile by using DNA microarray .

DNA微阵列技术以其高通量、自动化、平行化、快速化的优势，成为后基因组时代在转录组水平进行肿瘤基因表达谱分析的最强有力工具。

With the advantages of high throughput , automation and speed , DNA microarray is becoming the most powerful tool in cancer research in the post-genome age .

近年来，大规模实验技术如DNA微阵列技术，酵母菌双杂交系统等产生了海量的大规模生物数据。

In recent years , Large-scale experimental technologies such as DNA microarray and yeast two-hybrid ( Y2H ) system have produced a large amount of large-scale biological data .

方法运用人cDNA微阵列技术，比较覆盖或不覆盖表皮层的真皮模拟物中成纤维细胞所含的细胞因子mRNA水平的变化。

Methods We used Atlas human cDNA expression arrays to study the level of cytokine mRNA in the fibroblasts of dermal equivalents with or without epidermis .

DNA微阵列技术是基因组信息学研究的主要支撑技术，它为癌症研究提供了最基本和最必要的信息及依据。

At present , DNA microarray technology is the main supporting technologies at Informatics of Genome . It provide the most basic and necessary information for cancer research at the level of genome .

如何把这庞大的核苷酸序列信息与植物的生命活动有机地联系起来？高通量的DNA微阵列技术是连接植物基因组序列信息和植物功能基因组的桥梁；

With huge plant DNA data released by genome sequence project , the high-throughput DNA microarray technology has been proven an effective way to bridge the gap between plant genome sequence information and functional genomics .

近年来，DNA微阵列技术的发展产生了海量的基因表达谱数据，为寻找基因之间表达调控的复杂关系网络，研究功能基因组和癌症检测提供依据。

Recently , with the development of Microarray technology massive of gene expression data is produced , which is help for exploring complicated genetic regulating network , investigating functional genome and studying on cancer detection .

目的：利用DNA微阵列技术和蛋白质谱技术测出的基因或蛋白等高维生物数据对癌症病人进行生存预测已不能再利用传统Cox比例风险模型。

Objective Predicting patients on cancer according the high-dimensional genes or protein data using the DNA microarray technology and protein spectrum technology has not used Cox proportion risk model .