Analysis of the Subcellular Phosphoproteome Using a Novel Phosphoproteomic Reactor

Protein phosphorylation is an important post-translational modification involved in the regulation of many cellular processes. Mass spectrometry has been successfully used to identify protein phosphorylation in specific pathways and for global phosphoproteomic analysis. However, phosphoproteomics ap...

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Veröffentlicht in:	Journal of proteome research 2010-03, Vol.9 (3), p.1279-1288
Hauptverfasser:	Zhou, Houjiang, Elisma, Fred, Denis, Nicholas J, Wright, Theodore G, Tian, Ruijun, Zhou, Hu, Hou, Weimin, Zou, Hanfa, Figeys, Daniel
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Sprache:	eng
Schlagworte:	Amino Acid Sequence Cell Line, Tumor Chromatography, Affinity Cluster Analysis Hepatocytes - chemistry Hepatocytes - metabolism Humans Microfluidic Analytical Techniques - instrumentation Microfluidic Analytical Techniques - methods Models, Molecular Molecular Sequence Data Nanotechnology - instrumentation Organelles - chemistry Phosphoproteins - chemistry Phosphoproteins - metabolism Protein Interaction Mapping Proteome - chemistry Proteome - metabolism Proteomics - instrumentation Proteomics - methods Tandem Mass Spectrometry
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container_end_page	1288
container_issue	3
container_start_page	1279
container_title	Journal of proteome research
container_volume	9
creator	Zhou, Houjiang Elisma, Fred Denis, Nicholas J Wright, Theodore G Tian, Ruijun Zhou, Hu Hou, Weimin Zou, Hanfa Figeys, Daniel
description	Protein phosphorylation is an important post-translational modification involved in the regulation of many cellular processes. Mass spectrometry has been successfully used to identify protein phosphorylation in specific pathways and for global phosphoproteomic analysis. However, phosphoproteomics approaches do not evaluate the subcellular localization of the phosphorylated forms of proteins, which is an important factor for understanding the roles of protein phosphorylation on a global scale. The in-depth mapping of protein phosphorylation at the subcellular level necessitates the development of new methods capable of specifically and efficiently enriching phosphopeptides from highly complex samples. Here, we report a novel microfluidic device called the phosphoproteomic reactor that combines efficient processing of proteins followed by phosphopeptide enrichment by Ti-IMAC. To illustrate the potential of this novel technology, we mapped the phosphoproteins in subcellular organelles of liver cells. Fifteen subcellular fractions from liver cell cultures were processed on the phosphoproteomic reactor in combination with nano-LC-MS/MS analysis. We identified thousands of phosphorylation sites in over 600 phosphoproteins in different organelles using minute amounts of starting material. Overall, this approach provides a new avenue for studying the phosphoproteome of the subcellular organelles.
doi_str_mv	10.1021/pr900767j
format	Article
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Mass spectrometry has been successfully used to identify protein phosphorylation in specific pathways and for global phosphoproteomic analysis. However, phosphoproteomics approaches do not evaluate the subcellular localization of the phosphorylated forms of proteins, which is an important factor for understanding the roles of protein phosphorylation on a global scale. The in-depth mapping of protein phosphorylation at the subcellular level necessitates the development of new methods capable of specifically and efficiently enriching phosphopeptides from highly complex samples. Here, we report a novel microfluidic device called the phosphoproteomic reactor that combines efficient processing of proteins followed by phosphopeptide enrichment by Ti-IMAC. To illustrate the potential of this novel technology, we mapped the phosphoproteins in subcellular organelles of liver cells. Fifteen subcellular fractions from liver cell cultures were processed on the phosphoproteomic reactor in combination with nano-LC-MS/MS analysis. We identified thousands of phosphorylation sites in over 600 phosphoproteins in different organelles using minute amounts of starting material. 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Proteome Res</addtitle><description>Protein phosphorylation is an important post-translational modification involved in the regulation of many cellular processes. Mass spectrometry has been successfully used to identify protein phosphorylation in specific pathways and for global phosphoproteomic analysis. However, phosphoproteomics approaches do not evaluate the subcellular localization of the phosphorylated forms of proteins, which is an important factor for understanding the roles of protein phosphorylation on a global scale. The in-depth mapping of protein phosphorylation at the subcellular level necessitates the development of new methods capable of specifically and efficiently enriching phosphopeptides from highly complex samples. Here, we report a novel microfluidic device called the phosphoproteomic reactor that combines efficient processing of proteins followed by phosphopeptide enrichment by Ti-IMAC. 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subjects	Amino Acid Sequence Cell Line, Tumor Chromatography, Affinity Cluster Analysis Hepatocytes - chemistry Hepatocytes - metabolism Humans Microfluidic Analytical Techniques - instrumentation Microfluidic Analytical Techniques - methods Models, Molecular Molecular Sequence Data Nanotechnology - instrumentation Organelles - chemistry Phosphoproteins - chemistry Phosphoproteins - metabolism Protein Interaction Mapping Proteome - chemistry Proteome - metabolism Proteomics - instrumentation Proteomics - methods Tandem Mass Spectrometry
title	Analysis of the Subcellular Phosphoproteome Using a Novel Phosphoproteomic Reactor
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