目的:用生物芯片技术筛选成釉细胞瘤相关基因。
Aim: This study aims to screen the differentially expressed genes related to the pathogenesis of ameloblastoma by cDNA microarray.
生物芯片技术是一种全新微量分析技术,目前已经成为研究的热点之一。
As a new micro-analysis technology, biochip has become one of research hot spots.
如何有效地识别芯片上的斑点样本也成为生物芯片技术中的一个热点问题。
So, it is a hotspot that how to effectively recognize the spot on the biochip .
实验室鉴定方法包括聚合酶链式反应、限制酶片段长度多态性分析以及生物芯片技术等。
In laboratories, the methods mainly include polymerase chain reaction, restriction fragment length polymorphism, and biochip technology. The methods mentioned above all have their merits and defects.
实验室鉴定方法包括聚合酶链式反应、限制酶片段长度多态性分析以及生物芯片技术等。
In laboratories, the methods mainly include polymerase chain reaction, restriction fragment length polymorphism, and biochip technology.
目的:生物芯片技术具有高通量、并行性及自动化的优点,已经成为科学界的研究热点之一。
Objective: Biochip technology is a high throughput, parallel and automatic technique and has been one of the hotspot science studies.
本文在概述了生物芯片技术的基础上,就该技术初步探讨并展望了基因芯片技术在中药鉴定中的应用。
This paper discusses preliminarily the application of gene chip techniques to the identification of traditional Chinese medicinal materials, and points out the prospects for this application.
生物芯片技术作为新一代生物技术,已引起国际国内广泛关注及重视,在许多领域将得到越来越广泛的应用。
As a recently developed biological hi technology with potentially extensive use in more and more areas, bio chip has drawn attention from all the world.
生物芯片技术在疾病诊断、药物筛选、基因测序等方面都有广泛的应用前景,引起世界各国的广泛关注和重视。
Biochip technology is widely used in disease diagnostics, drug discovery, and gene expression applications. It has attracted great attentions all over the world.
模板扩增和杂交以及信号放大相结合的有pcr- ELISA技术、实时荧光pcr技术、生物芯片技术。
PCR-ELISA and real fluorescence PCR associate the template Amplication and hybridization with the signal magnification.
本文对目前已经建立的SARS实验室检测技术(如免疫学、定量pcr和生物芯片技术)和原理以及实际应用结果进行了介绍。
The principles and results of laboratory detecting techniques of SARS such as immunological assay, quantitative PCR and biochip are introduced in the thesis.
本文首先介绍了有关生物芯片的基本概念和几种常用的生物芯片检测技术,其中重点介绍了生物芯片的荧光检测技术。
In this paper, the basic concepts and general application flows of biochip technology are introduced, including the detailed principles of fluorescence detections for biochip.
生物芯片分析技术可从同一病人样本获得多种不同的检测结果,并可迅速得到准确的结果。
Biochip array technology allows multiple results from a single patient sample, minimizing biologic variation and resulting in a more rapid and accurate diagnosis.
本论文还研究了生物芯片荧光图像的基本处理技术。
The basic image processing technique was also included in the dissertation.
生物芯片是现代微加工技术和生物技术的结晶是具有一定生物功能的微晶片结构。
Biochip is a modern technology of micro-fabrication coupled with modern biotechnology. It is a microchip structure with specific biological functions.
生物芯片是基因测序与表达、基因诊断、蛋白功能研究、药物高通量筛选的现代先进技术。
Biochip is an advanced technology for gene sequence determination, gene expression, gene diagnosis, protein function research, high through-put for candidate medicine.
集成化的PCR生物芯片使得该项技术应用更加方便快捷、高效可靠、降低成本。
The usage of integrated PCR biochip makes PCR technology more convenient, high-efficiency, reliable, decreased cost in manufacture.
在目前悬浮生物芯片检测技术的基础上,提出了一种新颖的悬浮式生物芯片并行检测分析方法。
On the basis of current detection technology of suspension biochip, a novel parallel detection method for suspension biochip is brought up.
本文探讨了生物芯片两大理论基础- 分子生物技术和微细加工技术;
The fundamental theory-molecular biotechnology and micro fabrication technology was described in unison.
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.
生物芯片检测技术是一种全新的微量分析技术。
Biochip technology was a kind of novel microanalysis technology.
目前采用悬浮技术的生物芯片与传统的固态基板平面式生物芯片相比有较大优势,正逐渐成为研究的热点。
Suspension biochip has many advantages over traditional flat biochip, and becomes the focus of research gradually at present.
生物芯片的检测技术是生化分析系统中最重要的组成部分。
The detection technology of biochip is one of the most important parts of biology and chemistry analyzes system.
SEL DI蛋白质芯片技术是结合色谱学层析原理和SELDI T OFMS技术制成的新一代生物芯片,是目前肿瘤蛋白质组学研究的重要工具之一。
SELDI proteinchip technique, which combines the chromatography principle and SELDI, TOF, MS technique, is the newest biochip, and one of the important tools in the research of the tumors proteomics.
生物芯片是在微小面积上,利用微加工技术,并结合有关的化学合成技术制造而成的一种具有一定分子生物学检验功能的微型器件。
Biochip is in the small area, using of micro-processing technology, combined with the chemical synthesis technology to create micro-devices, which have the function of molecular biology test.
基于MEMS技术研制了微结构的集成PCR-DNA分子扩增生物芯片,芯片集成了加热子、温度传感器、反应室、进样通道等;
An integrated microstructure PCR-DNA amplification biochip based on MEMS technology was fabricated, which includes heater, temperature sensor, reaction chamber and inlet channels.
基于MEMS技术研制了微结构的集成PCR-DNA分子扩增生物芯片,芯片集成了加热子、温度传感器、反应室、进样通道等;
An integrated microstructure PCR-DNA amplification biochip based on MEMS technology was fabricated, which includes heater, temperature sensor, reaction chamber and inlet channels.
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