Conclusion: cDNA microarray found the tumor specific gene expression spectrum in gliomas.
结论:基因芯片发现了胶质瘤的异常基因表达谱。
Study of the changes of gene expression during the process of liver fibrosis by cDNA microarray;
应用微矩阵表达谱基因芯片筛选食管癌新的相关基因。
Objective To compare the gene expression status of NB4 cells before and after arsenic sulfide treatment by cDNA microarray.
目的利用基因表达谱芯片对NB 4细胞在硫化砷作用前后基因表达的差异性进行比较。
Differences in gene expressions were compared by cDNA microarray in skeletal muscle of type 2 diabetic rats and normal rats.
用基因芯片技术比较2型糖尿病大鼠和正常大鼠骨骼肌基因表达谱的差异。
Aim: This study aims to screen the differentially expressed genes related to the pathogenesis of ameloblastoma by cDNA microarray.
目的:用生物芯片技术筛选成釉细胞瘤相关基因。
Objective to Screen the various expression of apoptosis related genes between glioblastomas and normal brain tissue with cDNA microarray.
目的研究胶质母细胞瘤凋亡相关基因的表达。
Objective: to study the effect of dioscin to breast cancer cytogene expression by cDNA microarray technique, and to explore target genes of drug action initially.
目的:通过基因芯片技术研究薯蓣皂苷对乳腺癌细胞基因表达的影响,初步探索药物作用的靶基因。
Objective To observe the differential gene expression in human nasopharyngeal carcinoma (NPC) cell line with different radiosensitivity by cDNA microarray analysis.
目的筛选同一来源放射敏感性不同鼻咽癌细胞基因差异表达,探讨鼻咽癌放射抗拒机理。
Objective to observe the altered gene expression of ECV304 cell after treated with endostatin (es) using cDNA microarray, and to investigate its molecular mechanism.
目的观察人脐静脉内皮细胞株(ECV304细胞)在内皮抑素(es)作用前后基因表达谱的变化,并探讨其作用的分子机制。
Objective To investigate the gene expression profiles in lung adenocarcinoma (LA), tumor adjacent tissue (TAT) and fetal lung tissue (FLT) by cDNA microarray technique.
目的利用基因芯片技术研究肺腺癌组织、癌旁组织及胚胎肺组织中的基因表达差异。
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.
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: This study was to investigate the differentially expressed genes between primary esophageal squamous cell carcinoma and normal esophageal mucosa using cDNA microarray.
目的应用基因微矩阵技术分析原发性食管癌基因表达谱,筛选与食管癌进展相关基因。
We analyze some genes including cell cycle, apoptosis, stress and inflammation, which are confirmed by the real time RT-PCR, and the results are corresponded to that of cDNA microarray.
我们对部分细胞周期、细胞凋亡、细胞应激与炎症反应相关基因进行了分析并用实时荧光定量pcr进行了验证,证实了基因芯片结果的可靠性。
Conclusion cDNA microarray technology can be successfully applied to identify differentially expressed genes with small amount of specimen, high quality, high speed, and high sensitivity.
结论用基因芯片筛选正常脑组织与人脑胶质瘤差异表达的基因,具有样品用量少,高质量,高速度,高敏感等特性。
CONCLUSION: cDNA microarray can be used to screen diversified gene expression related to injury under ischemia and anoxia, which brings some new clues for studying the mechanism of IECs injury.
结论:应用基因芯片技术筛选了与IEC缺血缺氧损伤密切相关的差异表达基因,为阐明这方面的机制提供了新的线索。
Objectives To study the difference between gene expressions of high (H0-8910PM) and low (HO-8910) metastatic human ovarian carcinoma cell lines and screen novel associated genes by cDNA microarray.
目的用基因芯片技术研究高低转移人卵巢癌细胞系(HO 8910 PM和HO 8910)基因表达谱差异,筛选与转移相关的基因。
Results The cDNA microarray results indicated that 12 out of 64 DNA repair related genes in HGC27 cells were down-regulated (inferior to 0.5 fold) and 6 genes was up-regulated (superior to 2 folds).
结果基因芯片分析显示,HGC27细胞的64对核修复相关基因中,12对基因表达水平下调至0.5以下,6对基因表达水平上调至2倍以上。
Results The cDNA microarray results indicated that 12 out of 64 DNA repair related genes in HGC27 cells were down-regulated (inferior to 0.5 fold) and 6 genes was up-regulated (superior to 2 folds).
结果基因芯片分析显示,HGC27细胞的64对核修复相关基因中,12对基因表达水平下调至0.5以下,6对基因表达水平上调至2倍以上。
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