AIM: to investigate and analysis the expression of P27 protein in brain astrocytoma with various grades of differentiation.
目的:探讨P27蛋白在不同分化程度星形细胞瘤组织中的表达,并进行相关因素分析。
The SDS gel electrophoresis analysis shows that the expression of EPSPS recombined protein is over 55% and the purified EPSPS recombined protein reached as 90%.
SDS电泳分析结果表明EPSPS重组蛋白的表达量在55%以上,纯化的EPSPS重组蛋白纯度可以达到90%。
RESULTS: DDR2/EGFP fusion plasmid was successfully constructed. Further analysis also demonstrated that the fusion protein has similar expression and activation pattern with wild type ones.
结果:成功构建了DDR2/EGFP融合表达载体,进一步的分析也证明此融合表达载体能在细胞中正确表达并可以被配体所激活。
The protein expression of chimeric virus was identified by indirect immunofluorescence analysis.
间接免疫荧光检测到病毒蛋白的表达。
Successful quantification of protein expression levels is largely dependent on the algorithms for spot matching, normalization, and background subtraction provided by the 2de analysis software.
蛋白质表达水平的成功定量很大程度上依赖于由2de分析软件提供的斑点匹配、归一化和背景减除算法。
Conclusion The polyclonal antibody against ARIP1 has been successfully prepared and can be used to do immunohistochemical analysis for ARIP1 protein expression.
结论:成功地制备了抗arip1多克隆抗体,该抗体可用于ARIP1成熟蛋白表达的免疫组织化学染色分析。
The immunocytochemical stain and image analysis were applied to measure the expression of EGFR protein.
免疫细胞化学染色法检测表皮生长因子受体(EGFR)的表达;
Through RT-PCR analysis of the expression about the HDM2 protein in Hela cells, a new HDM2 splice variant was identified.
对克隆到的HDM2基因片段进行测序分析,从中筛选到一种新的HDM2剪接变异体。
Methods: VEGF-C protein expression in benign and malignant oral lesions was investigated with an immunohistochemical staining assay, followed by light microscopic examination and image analysis.
方法:采用免疫组化染色,光镜及图像分析观察并确定VEGF - C在正常口腔粘膜、白斑及鳞癌等组织中的表达。
The stable expression of the protein and the analysis of its antigenic specificity provide the foundation for developing the ELISA early stage diagnosis kit.
表达产物的稳定高效表达及其抗原特异性分析为今后ELISA早期诊断试剂盒的研制提供了依据。
The cell microarrays could be widely used the in situ analysis of the gene expression at the DNA, RNA, and protein level.
细胞微阵列可广泛用于DNA、RNA和蛋白质水平上的基因原位表达研究。
The cell microarrays could be widely used the in situ analysis of the gene expression at the DNA, RNA, and protein level.
细胞微阵列可广泛用于DNA、RNA和蛋白质水平上的基因原位表达研究。
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