NMR-based investigation into protein phosphorylation

Protein phosphorylation is a major switch mechanism for cell signaling process regulation within eukaryotic cells. Abnormal phosphorylation is either a cause or consequence of human diseases. It is imperative to comprehensively delve into the relationship between phosphorylation events and cell sign...

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Veröffentlicht in:	International journal of biological macromolecules 2020-02, Vol.145, p.53-63
Hauptverfasser:	Huang, Biling, Liu, Yan, Yao, Hongwei, Zhao, Yufen
Format:	Artikel
Sprache:	eng
Schlagworte:	Cell signaling process N-phosphorylation NMR spectroscopy O-phosphorylation
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container_title	International journal of biological macromolecules
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creator	Huang, Biling Liu, Yan Yao, Hongwei Zhao, Yufen
description	Protein phosphorylation is a major switch mechanism for cell signaling process regulation within eukaryotic cells. Abnormal phosphorylation is either a cause or consequence of human diseases. It is imperative to comprehensively delve into the relationship between phosphorylation events and cell signaling transduction. NMR spectroscopy, a potent tool for monitoring protein phosphorylation events, is applicable for identifying the phospho-sites, quantifying the kinetic rate, discovering kinase/phosphatase inhibitors and delineating phosphorylation crosstalk with other post-translational modifications. Here, we decipher the recent progress in the investigation of eukaryotic protein O-phosphorylation by NMR spectroscopy. We focus specifically on the dynamic establishment of O-phosphorylation and its role in the cell signaling processes. Simultaneously, we positively propose a strategy for the investigation of acid-labile and “high-energy” N-phosphorylation by NMR spectroscopy. We expect that the strategy could enrich the investigation of protein N-phosphorylation. Overview of NMR-based investigation into protein phosphorylation. [Display omitted]
doi_str_mv	10.1016/j.ijbiomac.2019.12.171
format	Article
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Abnormal phosphorylation is either a cause or consequence of human diseases. It is imperative to comprehensively delve into the relationship between phosphorylation events and cell signaling transduction. NMR spectroscopy, a potent tool for monitoring protein phosphorylation events, is applicable for identifying the phospho-sites, quantifying the kinetic rate, discovering kinase/phosphatase inhibitors and delineating phosphorylation crosstalk with other post-translational modifications. Here, we decipher the recent progress in the investigation of eukaryotic protein O-phosphorylation by NMR spectroscopy. We focus specifically on the dynamic establishment of O-phosphorylation and its role in the cell signaling processes. Simultaneously, we positively propose a strategy for the investigation of acid-labile and “high-energy” N-phosphorylation by NMR spectroscopy. We expect that the strategy could enrich the investigation of protein N-phosphorylation. 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Abnormal phosphorylation is either a cause or consequence of human diseases. It is imperative to comprehensively delve into the relationship between phosphorylation events and cell signaling transduction. NMR spectroscopy, a potent tool for monitoring protein phosphorylation events, is applicable for identifying the phospho-sites, quantifying the kinetic rate, discovering kinase/phosphatase inhibitors and delineating phosphorylation crosstalk with other post-translational modifications. Here, we decipher the recent progress in the investigation of eukaryotic protein O-phosphorylation by NMR spectroscopy. We focus specifically on the dynamic establishment of O-phosphorylation and its role in the cell signaling processes. Simultaneously, we positively propose a strategy for the investigation of acid-labile and “high-energy” N-phosphorylation by NMR spectroscopy. We expect that the strategy could enrich the investigation of protein N-phosphorylation. Overview of NMR-based investigation into protein phosphorylation. 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subjects	Cell signaling process N-phosphorylation NMR spectroscopy O-phosphorylation
title	NMR-based investigation into protein phosphorylation
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