一种经济的高通量方案,用于蛋白质的多维分馏。

International journal of proteomics Pub Date : 2012-01-01 Epub Date: 2012-09-12 DOI:10.1155/2012/735132
David John Tooth, Varun Gopala Krishna, Robert Layfield
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引用次数: 4

摘要

多维分离的顺序协议被优化,以使从培养的人类细胞的蛋白质组的部分的比较分析。采用差异洗涤剂分离作为第一步,以获得富集细胞质、膜/细胞器、核和细胞骨架蛋白的馏分。在用凝胶渗透色谱法交换缓冲液之后,用阴离子交换的二维色谱法进一步分离细胞质蛋白,然后进行反相步骤。色谱组分被证明很容易与一维和二维凝胶电泳或使用线性maldi - tof - ms的质谱直接分析兼容。通过可重复的SDS-PAGE谱、MALDI-TOF-MS谱和LC-MS/MS (MRM)定量分析胰蛋白酶水解肽,证实了提取的精密度。固相固定在一次性药筒和流动相流动是实现使用离心和真空泵的组合。这些方法产生了平行样品处理,仅受所用设备容量的限制,并且可以实现高通量和实验精确的程序,正如实验重复处理所证明的那样。在提取细胞蛋白的10毫克尺度上采用了协议,但这些方法将直接适用于更小和更大的数量,仅仅通过调整所使用的固相和移动相体积。简要描述了分馏协议的其他潜在应用。
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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An economical high-throughput protocol for multidimensional fractionation of proteins.

A sequential protocol of multidimensional fractionation was optimised to enable the comparative profiling of fractions of proteomes from cultured human cells. Differential detergent fractionation was employed as a first step to obtain fractions enriched for cytosolic, membrane/organelle, nuclear, and cytoskeletal proteins. Following buffer exchange using gel-permeation chromatography, cytosolic proteins were further fractionated by 2-dimensional chromatography employing anion-exchange followed by reversed-phase steps. Chromatographic fractions were shown to be readily compatible with 1- and 2-dimensional gel electrophoresis or with direct analysis by mass spectrometry using linear-MALDI-TOF-MS. Precision of extraction was confirmed by reproducible SDS-PAGE profiles, MALDI-TOF-MS spectra, and quantitation of trypsinolytic peptides using LC-MS/MS (MRM) analyses. Solid phases were immobilised in disposable cartridges and mobile-phase flow was achieved using a combination of centrifugation and vacuum pumping. These approaches yielded parallel sample handling which was limited only by the capacities of the employed devices and which enabled both high-throughput and experimentally precise procedures, as demonstrated by the processing of experimental replicates. Protocols were employed at 10 mg scale of extracted cell protein, but these approaches would be directly applicable to both smaller and larger quantities merely by adjusting the employed solid- and mobile-phase volumes. Additional potential applications of the fractionation protocol are briefly described.

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