High-throughput screening of substrate specificity for protein tyrosine phosphatases (PTPs) on phosphopeptide microarrays

Liqian Gao; Su Seong Lee; Jun Chen; Hongyan Sun; Yuliang Zhao; Zhifang Chai; Yi Hu

doi:10.1007/978-1-4939-3136-1_13

High-throughput screening of substrate specificity for protein tyrosine phosphatases (PTPs) on phosphopeptide microarrays

Liqian Gao, Su Seong Lee, Jun Chen, Hongyan Sun, Yuliang Zhao, Zhifang Chai, Yi Hu

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

17 Citations (Scopus)

Abstract

Phosphatases are a family of enzymes responsible for the dephosphorylation of biomolecules. Phosphatases play essential roles in cell cycle regulation, signal transduction, and cellular communication. In recent years, one type of phosphatases, protein tyrosine phosphatases (PTPs), emerges as important therapeutic targets for complex and devastating diseases. Nevertheless, the physiological roles, substrate specificity, and downstream targets for PTPs remain largely unknown. To demonstrate how microarrays can be applied to characterizing PTPs, we describe here a phosphopeptide microarray strategy for activity-based high-throughput screening of PTPs substrate specificity. This is followed by a kinetic microarray assay and microplate assay to determine the rate constants of dephosphorylation by PTPs. This microarray strategy has been successfully applied to identifying several potent and selective substrates against different PTPs. These substrates could be used to design potent and selective PTPs inhibitors in the future.

Original language	English
Title of host publication	Microarray Technology
Publisher	Humana Press Inc.
Pages	181-196
Volume	1368
DOIs	https://doi.org/10.1007/978-1-4939-3136-1_13
Publication status	Published - 1 May 2016

Publication series

Name	Methods in Molecular Biology
Volume	1368
ISSN (Print)	1064-3745

Research Keywords

High-throughput screening
Phosphopeptide microarrays
Protein tyrosine phosphatases
Substrate specificity

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abstract = "Phosphatases are a family of enzymes responsible for the dephosphorylation of biomolecules. Phosphatases play essential roles in cell cycle regulation, signal transduction, and cellular communication. In recent years, one type of phosphatases, protein tyrosine phosphatases (PTPs), emerges as important therapeutic targets for complex and devastating diseases. Nevertheless, the physiological roles, substrate specificity, and downstream targets for PTPs remain largely unknown. To demonstrate how microarrays can be applied to characterizing PTPs, we describe here a phosphopeptide microarray strategy for activity-based high-throughput screening of PTPs substrate specificity. This is followed by a kinetic microarray assay and microplate assay to determine the rate constants of dephosphorylation by PTPs. This microarray strategy has been successfully applied to identifying several potent and selective substrates against different PTPs. These substrates could be used to design potent and selective PTPs inhibitors in the future.",

keywords = "High-throughput screening, Phosphopeptide microarrays, Protein tyrosine phosphatases, Substrate specificity",

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High-throughput screening of substrate specificity for protein tyrosine phosphatases (PTPs) on phosphopeptide microarrays. / Gao, Liqian; Lee, Su Seong; Chen, Jun et al.
Microarray Technology. Vol. 1368 Humana Press Inc., 2016. p. 181-196 (Methods in Molecular Biology; Vol. 1368).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

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T1 - High-throughput screening of substrate specificity for protein tyrosine phosphatases (PTPs) on phosphopeptide microarrays

AU - Gao, Liqian

AU - Lee, Su Seong

AU - Chen, Jun

AU - Sun, Hongyan

AU - Zhao, Yuliang

AU - Chai, Zhifang

AU - Hu, Yi

PY - 2016/5/1

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N2 - Phosphatases are a family of enzymes responsible for the dephosphorylation of biomolecules. Phosphatases play essential roles in cell cycle regulation, signal transduction, and cellular communication. In recent years, one type of phosphatases, protein tyrosine phosphatases (PTPs), emerges as important therapeutic targets for complex and devastating diseases. Nevertheless, the physiological roles, substrate specificity, and downstream targets for PTPs remain largely unknown. To demonstrate how microarrays can be applied to characterizing PTPs, we describe here a phosphopeptide microarray strategy for activity-based high-throughput screening of PTPs substrate specificity. This is followed by a kinetic microarray assay and microplate assay to determine the rate constants of dephosphorylation by PTPs. This microarray strategy has been successfully applied to identifying several potent and selective substrates against different PTPs. These substrates could be used to design potent and selective PTPs inhibitors in the future.

AB - Phosphatases are a family of enzymes responsible for the dephosphorylation of biomolecules. Phosphatases play essential roles in cell cycle regulation, signal transduction, and cellular communication. In recent years, one type of phosphatases, protein tyrosine phosphatases (PTPs), emerges as important therapeutic targets for complex and devastating diseases. Nevertheless, the physiological roles, substrate specificity, and downstream targets for PTPs remain largely unknown. To demonstrate how microarrays can be applied to characterizing PTPs, we describe here a phosphopeptide microarray strategy for activity-based high-throughput screening of PTPs substrate specificity. This is followed by a kinetic microarray assay and microplate assay to determine the rate constants of dephosphorylation by PTPs. This microarray strategy has been successfully applied to identifying several potent and selective substrates against different PTPs. These substrates could be used to design potent and selective PTPs inhibitors in the future.

KW - High-throughput screening

KW - Phosphopeptide microarrays

KW - Protein tyrosine phosphatases

KW - Substrate specificity

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High-throughput screening of substrate specificity for protein tyrosine phosphatases (PTPs) on phosphopeptide microarrays

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