福尔马林固定石蜡包埋组织尿素蛋白提取方法优化

Stephen A Luebker, S. Koepsell
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引用次数: 13

摘要

尿素基蛋白提取福尔马林固定石蜡包埋(FFPE)组织,由于其与液相色谱-电喷雾电离串联质谱(LC-ESI-MS/MS)兼容,为蛋白质组学提供了最有效的工作流程。本研究优化了尿素在临床FFPE组织蛋白质组学分析中的应用。通过对不同温度和缓冲液组成的蛋白质提取条件进行比较,减少尿素引入的氨甲酰化反应,提高蛋白质的检出率。每次提取均在均匀的FFPE组织的随机连续切片上进行,并使用LC-ESI-MS/MS进行分析。结果比较了产率,遗漏的裂解,和肽氨基甲酰化。降低提取温度至60°C降低氨基甲酰化,以降低蛋白质检测和收率为代价。蛋白质在95°C下提取至少20分钟,然后在60°C下提取2小时,总蛋白产量最大化,同时保持蛋白质检测,并降低氨甲酰化7.9%。当在分析过程中考虑氨甲酰化时,这种改进的提取温度相对于市售的Qproteome®FFPE Tissue Kit提供等效的肽和蛋白质检测。7 M尿素、2 M硫脲和1 M碳酸氢铵的缓冲液组成没有变化,导致控制条件的改善。优化的尿素溶酶为临床相关FFPE组织的蛋白质组学分析提供了高效的工作流程和最大的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of Urea Based Protein Extraction from Formalin-Fixed Paraffin-Embedded Tissue for Shotgun Proteomics
Urea based protein extraction of formalin-fixed paraffin-embedded (FFPE) tissue provides the most efficient workflow for proteomics due to its compatibility with liquid chromatography electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS). This study optimizes the use of urea for proteomic analysis of clinical FFPE tissue. A series of protein extraction conditions manipulating temperature and buffer composition were compared to reduce carbamylation introduced by urea and increase protein detection. Each extraction was performed on a randomized pair of serial sections of homogenous FFPE tissue and analyzed with LC-ESI-MS/MS. Results were compared in terms of yield, missed cleavages, and peptide carbamylation. Lowering extraction temperature to 60°C decreased carbamylation at the cost of decreased protein detection and yield. Protein extraction for at least 20 minutes at 95°C followed by 60°C for 2 hours maximized total protein yield while maintaining protein detection and reducing carbamylation by 7.9%. When accounting for carbamylation during analysis, this modified extraction temperature provides equivalent peptide and protein detection relative to the commercially available Qproteome® FFPE Tissue Kit. No changes to buffer composition containing 7 M urea, 2 M thiourea, and 1 M ammonium bicarbonate resulted in improvements to control conditions. Optimized urea in-solution digestion provides an efficient workflow with maximized yields for proteomic analysis of clinically relevant FFPE tissue.
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