目的:建立用于伏马毒素B1检测的免疫芯片技术方法。
Objective: Immunochips technique has been developed for the detection of the fumonision B1 in the paper.
方法构建激光加工装置,设置激光微加工程序,并时激光加工过程中一些影响因素进行分析,最后将加工后的芯片用于免疫分析。
Methods To construct direct-write laser micromachining system, set micromachining program, analyse the factor of micromachining, and use the microfluidic chip to detect alpha-fetoprotein.
根据模糊免疫PID控制理论,设计了基于单片微机控制芯片的高性能模糊免疫PID控制器。
According to the fuzzy immune PID control theory, a high performance fuzzy immune PID controller based on the single microcomputer control chip has been designed.
目的:构建与免疫基因相关的基因芯片,并利用其筛选出与急性排异反应相关的差异表达基因。
Object: to construct the gene array related with immunology gene and bolting the deference related with acute rejection by gene array to express gene.
用免疫组织化学双重染色法标记组织芯片中的VEGF及CD34的表达。
The expression of VEGF and CD34 was detected by double-labeling immunohistochemistry on tissue microarray.
目的利用基因表达谱芯片研究T淋巴细胞株(HUT78)在褪黑素作用后免疫相关基因表达的差异性。
Objective To in ve stigate the difference of immuno-related gene expressions in T lymphocyte line (HUT78) incubated with melatonin by cDNA microarray of gene expression profile.
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.
基因芯片、蛋白质组学和免疫组学等研究方法已成为目前卵巢癌早期诊断研究的热点,但尚无确切定论。
Gene chips, proteomics and immunohistochemical tecnology and other research methods have become research hotspot in early diagnosis of ovarian cancer, but there is no definite conclusion.
目的选择理想的非特异性抗原封闭方法以适应基于免疫渗滤法的蛋白芯片制备。
ChinaABSTRACT: Objective to select an optimal non-specific antigen blocking method by using immuno-infiltration assay so as to suit protein chip preparation.
标本制成组织芯片,采用免疫组化SABC法,对芯片标本进行染色。
The tissue chips were analyzed by the SABC immunohistochemical method.
免疫组化结果与芯片扫描结果一致。
The results of RT-PCR and immunohistochemistry were consistent with that of the gene chips.
我们对微流控免疫分析芯片的设计、制作以及应用进行了综述。
In this review, we introduce the design, fabrication and application of microfluidic immunoassay chip.
表达谱芯片筛选出368个免疫炎症相关基因。
The expression profiles of 368 immune and inflammatory genes were selected.
目的:探讨组织芯片免疫组化方法在乳腺癌相关指标检测中的应用。
Objective: to investigate the application of Microarray immunohistochemical technique in the detection of the index correlated with breast cancer.
目前自组装蛋白质芯片已初步用于大规模蛋白-蛋白质相互作用的筛选,以及鉴定免疫优势抗原等研究。
Currently, self-assembling protein microarrays are primarily used for screening protein-protein interactions, identifying immunodominant antigens and so on.
目前自组装蛋白质芯片已初步用于大规模蛋白-蛋白质相互作用的筛选,以及鉴定免疫优势抗原等研究。
Currently, self-assembling protein microarrays are primarily used for screening protein-protein interactions, identifying immunodominant antigens and so on.
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