Surfaceome dynamics reveal proteostasis-independent reorganization of neuronal surface proteins during development and synaptic plasticity

Cell surface proteins contribute to neuronal development and activity-dependent synaptic plasticity. Here, the authors perform a time-resolved surfaceome analysis of developing primary neurons and in response to homeostatic synaptic scaling and chemical long-term potentiation (cLTP), revealing surfa...

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Autores principales: Marc van Oostrum, Benjamin Campbell, Charlotte Seng, Maik Müller, Susanne tom Dieck, Jacqueline Hammer, Patrick G. A. Pedrioli, Csaba Földy, Shiva K. Tyagarajan, Bernd Wollscheid
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/798a0222f1cc45678a4c20efbeb73d27
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Sumario:Cell surface proteins contribute to neuronal development and activity-dependent synaptic plasticity. Here, the authors perform a time-resolved surfaceome analysis of developing primary neurons and in response to homeostatic synaptic scaling and chemical long-term potentiation (cLTP), revealing surface proteome remodeling largely independent of global proteostasis.