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Global analysis of muscle-specific kinase signaling by quantitative phosphoproteomics.


ABSTRACT: The development of the neuromuscular synapse depends on signaling processes that involve protein phosphorylation as a crucial regulatory event. Muscle-specific kinase (MuSK) is the key signaling molecule at the neuromuscular synapse whose activity is required for the formation of a mature and functional synapse. However, the signaling cascade downstream of MuSK and the regulation of the different components are still poorly understood. In this study we used a quantitative phosphoproteomics approach to study the phosphorylation events and their temporal regulation downstream of MuSK. We identified a total of 10,183 phosphopeptides, of which 203 were significantly up- or down-regulated. Regulated phosphopeptides were classified into four different clusters according to their temporal profiles. Within these clusters we found an overrepresentation of specific protein classes associated with different cellular functions. In particular, we found an enrichment of regulated phosphoproteins involved in posttranscriptional mechanisms and in cytoskeletal organization. These findings provide novel insights into the complex signaling network downstream of MuSK and form the basis for future mechanistic studies.

SUBMITTER: Durnberger G 

PROVIDER: S-EPMC4125732 | biostudies-literature | 2014 Aug

REPOSITORIES: biostudies-literature

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Global analysis of muscle-specific kinase signaling by quantitative phosphoproteomics.

Dürnberger Gerhard G   Camurdanoglu Bahar Z BZ   Tomschik Matthias M   Schutzbier Michael M   Roitinger Elisabeth E   Hudecz Otto O   Mechtler Karl K   Herbst Ruth R  

Molecular & cellular proteomics : MCP 20140604 8


The development of the neuromuscular synapse depends on signaling processes that involve protein phosphorylation as a crucial regulatory event. Muscle-specific kinase (MuSK) is the key signaling molecule at the neuromuscular synapse whose activity is required for the formation of a mature and functional synapse. However, the signaling cascade downstream of MuSK and the regulation of the different components are still poorly understood. In this study we used a quantitative phosphoproteomics appro  ...[more]

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