Rapid Screening of the Epidermal Growth Factor Receptor Phosphosignaling Pathway via Microplate-Based Dot Blot Assays.

International journal of proteomics Pub Date : 2012-01-01 Epub Date: 2012-08-15 DOI:10.1155/2012/473843

Amedeo Cappione, Janet Smith, Masaharu Mabuchi, Timothy Nadler

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引用次数: 5

Abstract

Expression profiling on a large scale, as is the case in drug discovery, is often accomplished through use of sophisticated solid-phase protein microarrays or multiplex bead technologies. While offering both high-throughput and high-content analysis, these platforms are often too cost prohibitive or technically challenging for many research settings. Capitalizing on the favorable attributes of the standard ELISA and slot blotting techniques, we developed a modified dot blot assay that provides a simple cost-effective alternative for semiquantitative expression analysis of multiple proteins across multiple samples. Similar in protocol to an ELISA, but based in a membrane bound 96-well microplate, the assay takes advantage of vacuum filtration to expedite the tedious process of washing in between binding steps. We report on the optimization of the assay and demonstrate its use in profiling temporal changes in phosphorylation events in the well-characterized EGF-induced signaling cascade of A431 cells.

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基于微孔板的斑点印迹法快速筛选表皮生长因子受体磷酸化信号通路。

大规模的表达谱分析，如药物发现的情况，通常是通过使用复杂的固相蛋白质微阵列或多重头技术来完成的。虽然这些平台提供高通量和高含量的分析，但对于许多研究环境来说，这些平台通常成本过高或技术上具有挑战性。利用标准ELISA和槽印迹技术的优点，我们开发了一种改进的点印迹试验，为跨多个样品的多种蛋白质的半定量表达分析提供了一种简单经济的替代方法。与ELISA类似，但基于膜结合的96孔微孔板，该分析利用真空过滤来加快结合步骤之间繁琐的洗涤过程。我们报告了该方法的优化，并证明了其在分析表征良好的egf诱导的A431细胞信号级联中磷酸化事件的时间变化中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of proteomics

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