蛋白质微阵列提供了研究细胞蛋白质组的一个鲁棒的方式。
Protein microarrays offer a robust way of examining the cellular proteome.
这篇综述将集中在蛋白质微阵列领域的最新进展和它们在癌症研究中的应用。
This review will focus on current developments in the area of protein microarrays and their application in the study of cancer.
首先,以蛋白质微阵列做初步的检验,结果显示LMP1能促进鼻咽癌细胞株分泌八种细胞激素。
First, we utilized a protein array to examine the cytokine expression profiles, and eight cytokines were found to be upregulated by LMP1.
这是由于它们处理高维复杂数据集的能力,例如那些由蛋白质质谱和DNA微阵列实验产生的。
This is due to their ability to cope with highly dimensional complex datasets such as those developed by protein mass spectrometry and DNA microarray experiments.
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.
小分子微阵列:从蛋白质到哺乳动物细胞——离目标还有多远?。
Small molecule microarrays:from proteins to mammalian cells-are we there yet?
化合物筛选的高效率和基因指纹技术的进步,如微阵列技术和蛋白质组学,将加速有效的选择性受体调节子鉴定。
Advancement in high throughput compound screening and gene fingerprinting technologies, such as microarrays and proteomics, will facilitate and accelerate identification of effective SARMs.
化合物筛选的高效率和基因指纹技术的进步,如微阵列技术和蛋白质组学,将加速有效的选择性受体调节子鉴定。
Advancement in high throughput compound screening and gene fingerprinting technologies, such as microarrays and proteomics, will facilitate and accelerate identification of effective SARMs.
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