Program in Genomics and Proteomics, University of Lille , France.
Anal Chem. 2013 Sep 17;85(18):8566-76. doi: 10.1021/ac401691g. Epub 2013 Aug 29.
Phosphorylation is an important post-translational modification that rapidly mediates many cellular events. A key to understanding the dynamics of the phosphoproteome is localization of the modification site(s), primarily determined using LC-MS/MS. A major technical challenge to analysis is the formation of phosphopeptide-metal ion complexes during LC which hampers phosphopeptide detection. We have devised a strategy that enhances analysis of phosphopeptides, especially multiply phosphorylated peptides. It involves treatment of the LC system with EDTA and 2D-RP/RP-nanoUPLC-MS/MS (high pH/low pH) analysis. A standard triphosphorylated peptide that could not be detected with 1D-RP-nanoUPLC-MS/MS, even if the column was treated with EDTA-Na2 or if 25 mM EDTA-Na2 was added to the sample, was detectable at less than 100 fmol using EDTA-2D-RP/RP-nanoUPLC-MS/MS. Digests of α-casein and ß-casein were analyzed by EDTA-1D-RP-nanoUPLC, 2D-RP/RP-nanoUPLC, and EDTA-2D-RP/RP-nanoUPLC to compare their performance in phosphopeptide analysis. With the first two approaches, no tri- and tetraphosphopeptides were identified in either α- or ß-casein sample. With the EDTA-2D-RP/RP approach, 13 mono-, 6 di-, and 3 triphosphopeptides were identified in the α-casein sample, while 19 mono-, 8 di-, 4 tri-, and 3 tetraphosphopeptides were identified in the ß-casein sample. Using EDTA-2D-RP/RP-nanoUPLC-MS/MS to examine 500 μg of a human foreskin fibroblast cell lysate a total of 1,944 unique phosphopeptides from 1,087 unique phosphoproteins were identified, and 2,164 unique phosphorylation sites were confidently localized (Ascore ≥20). Of these sites 79% were mono-, 20% di-, and ∼1% were tri- and tetraphosphopeptides, and 78 novel phosphorylation sites in human proteins were identified.
磷酸化是一种重要的翻译后修饰,可快速调节许多细胞事件。理解磷酸化组动态的关键是修饰部位的定位,主要通过 LC-MS/MS 确定。分析的一个主要技术挑战是在 LC 过程中形成磷酸肽-金属离子复合物,这会阻碍磷酸肽的检测。我们设计了一种策略,可以增强对磷酸肽,特别是多磷酸肽的分析。它涉及用 EDTA 处理 LC 系统,并进行 2D-RP/RP-nanoUPLC-MS/MS(高 pH/低 pH)分析。使用 1D-RP-nanoUPLC-MS/MS 甚至在柱上用 EDTA-Na2 处理或在样品中加入 25 mM EDTA-Na2 时,都无法检测到的标准三磷酸化肽,使用 EDTA-2D-RP/RP-nanoUPLC-MS/MS 可以在低于 100 fmol 的水平检测到。通过 EDTA-1D-RP-nanoUPLC、2D-RP/RP-nanoUPLC 和 EDTA-2D-RP/RP-nanoUPLC 分析 α-酪蛋白和 β-酪蛋白的消化物,比较它们在磷酸肽分析中的性能。在前两种方法中,在 α-或 β-酪蛋白样品中均未鉴定出三磷酸化肽和四磷酸化肽。使用 EDTA-2D-RP/RP 方法,在 α-酪蛋白样品中鉴定出 13 个单磷酸肽、6 个二磷酸肽和 3 个三磷酸肽,而在 β-酪蛋白样品中鉴定出 19 个单磷酸肽、8 个二磷酸肽、4 个三磷酸肽和 3 个四磷酸肽。使用 EDTA-2D-RP/RP-nanoUPLC-MS/MS 检测 500 μg 人包皮成纤维细胞裂解物,从 1087 种独特的磷酸化蛋白中鉴定出 1944 种独特的磷酸肽,有 2164 个独特的磷酸化位点被准确定位(Ascore≥20)。其中 79%是单磷酸肽,20%是二磷酸肽,约 1%是三磷酸肽和四磷酸肽,鉴定出 78 个人类蛋白质中的新磷酸化位点。
