Screening for Protein Phosphorylation Using Nanoscale Reactions on Microdroplet Arrays

We present a novel and straightforward screening method to detect protein phosphorylations in complex protein mixtures. A proteolytic digest is separated by a conventional nanoscale liquid chromatography (nano‐LC) separation and the eluate is immediately compartmentalized into microdroplets, which a...

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Veröffentlicht in:	Angewandte Chemie International Edition 2015-01, Vol.54 (5), p.1671-1675
Hauptverfasser:	Küster, Simon K., Pabst, Martin, Zenobi, Renato, Dittrich, Petra S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkaline Phosphatase - metabolism Arrays Chromatography, High Pressure Liquid droplet microfluidics Droplets Enzymes mass spectrometry microarrays Nanostructure Nanotechnology Peptides Phosphopeptides - analysis Phosphorylation Protein Array Analysis protein modifications protein phosphorylation Proteins Proteins - chemistry Proteins - metabolism Screening Software Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
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creator	Küster, Simon K. Pabst, Martin Zenobi, Renato Dittrich, Petra S.
description	We present a novel and straightforward screening method to detect protein phosphorylations in complex protein mixtures. A proteolytic digest is separated by a conventional nanoscale liquid chromatography (nano‐LC) separation and the eluate is immediately compartmentalized into microdroplets, which are spotted on a microarray MALDI plate. Subsequently, the enzyme alkaline phosphatase is applied to every second microarray spot to remove the phosphate groups from phosphorylated peptides, which results in a mass shift of n×−80 Da. The MALDI‐MS scan of the microarray is then evaluated by a software algorithm to automatically identify the phosphorylated peptides by exploiting the characteristic chromatographic peak profile induced by the phosphatase treatment. This screening method does not require extensive MS/MS experiments or peak list evaluation and can be easily extended to other enzymatic or chemical reactions. Phosphopeptide screening: A mass spectrometry‐based screening method detects protein phosphorylation in complex protein mixtures without extensive MS/MS experiments. The method employs droplet microfluidics to integrate nanoliter phosphatase reactions in a nano‐LC‐MALDI‐MS workflow. The selective dephosphorylation of every second LC fraction induces characteristic peak fluctuations that can be used to identify even low‐abundant phosphopeptides.
doi_str_mv	10.1002/anie.201409440
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The method employs droplet microfluidics to integrate nanoliter phosphatase reactions in a nano‐LC‐MALDI‐MS workflow. 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Chem. Int. Ed</addtitle><description>We present a novel and straightforward screening method to detect protein phosphorylations in complex protein mixtures. A proteolytic digest is separated by a conventional nanoscale liquid chromatography (nano‐LC) separation and the eluate is immediately compartmentalized into microdroplets, which are spotted on a microarray MALDI plate. Subsequently, the enzyme alkaline phosphatase is applied to every second microarray spot to remove the phosphate groups from phosphorylated peptides, which results in a mass shift of n×−80 Da. The MALDI‐MS scan of the microarray is then evaluated by a software algorithm to automatically identify the phosphorylated peptides by exploiting the characteristic chromatographic peak profile induced by the phosphatase treatment. This screening method does not require extensive MS/MS experiments or peak list evaluation and can be easily extended to other enzymatic or chemical reactions. Phosphopeptide screening: A mass spectrometry‐based screening method detects protein phosphorylation in complex protein mixtures without extensive MS/MS experiments. The method employs droplet microfluidics to integrate nanoliter phosphatase reactions in a nano‐LC‐MALDI‐MS workflow. 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The MALDI‐MS scan of the microarray is then evaluated by a software algorithm to automatically identify the phosphorylated peptides by exploiting the characteristic chromatographic peak profile induced by the phosphatase treatment. This screening method does not require extensive MS/MS experiments or peak list evaluation and can be easily extended to other enzymatic or chemical reactions. Phosphopeptide screening: A mass spectrometry‐based screening method detects protein phosphorylation in complex protein mixtures without extensive MS/MS experiments. The method employs droplet microfluidics to integrate nanoliter phosphatase reactions in a nano‐LC‐MALDI‐MS workflow. 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subjects	Alkaline Phosphatase - metabolism Arrays Chromatography, High Pressure Liquid droplet microfluidics Droplets Enzymes mass spectrometry microarrays Nanostructure Nanotechnology Peptides Phosphopeptides - analysis Phosphorylation Protein Array Analysis protein modifications protein phosphorylation Proteins Proteins - chemistry Proteins - metabolism Screening Software Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
title	Screening for Protein Phosphorylation Using Nanoscale Reactions on Microdroplet Arrays
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