Structural mechanism of arrestin activation

•Recent crystal structures indicate how arrestin is activated for GPCR binding.•Multiple binding sites for phosphorylated receptor C-terminus exist on arrestin.•Interdomain rotation and finger loop flexibility allow arrestin binding to receptor.•Arrestin and G protein share common binding crevice on...

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Veröffentlicht in:	Current opinion in structural biology 2017-08, Vol.45, p.160-169
Hauptverfasser:	Scheerer, Patrick, Sommer, Martha E
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Arrestin - chemistry Arrestin - metabolism Humans Protein Domains Rotation
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container_title	Current opinion in structural biology
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creator	Scheerer, Patrick Sommer, Martha E
description	•Recent crystal structures indicate how arrestin is activated for GPCR binding.•Multiple binding sites for phosphorylated receptor C-terminus exist on arrestin.•Interdomain rotation and finger loop flexibility allow arrestin binding to receptor.•Arrestin and G protein share common binding crevice on the receptor.•Arrestin C-edge functions as membrane anchor. The large and multifunctional family of G protein-coupled receptors (GPCRs) are regulated by a small family of structurally conserved arrestin proteins. In order to bind an active GPCR, arrestin must first be activated by interaction with the phosphorylated receptor C-terminus. Recent years have witnessed major developments in high-resolution crystal structures of pre-active arrestins and arrestin or arrestin-derived peptides in complex with an active GPCR. Although each structure individually offers only a limited snapshot, taken together and interpreted in light of recent complementary functional data, they offer valuable insight into how arrestin is activated by and couples to a phosphorylated active GPCR.
doi_str_mv	10.1016/j.sbi.2017.05.001
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The large and multifunctional family of G protein-coupled receptors (GPCRs) are regulated by a small family of structurally conserved arrestin proteins. In order to bind an active GPCR, arrestin must first be activated by interaction with the phosphorylated receptor C-terminus. Recent years have witnessed major developments in high-resolution crystal structures of pre-active arrestins and arrestin or arrestin-derived peptides in complex with an active GPCR. 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The large and multifunctional family of G protein-coupled receptors (GPCRs) are regulated by a small family of structurally conserved arrestin proteins. In order to bind an active GPCR, arrestin must first be activated by interaction with the phosphorylated receptor C-terminus. Recent years have witnessed major developments in high-resolution crystal structures of pre-active arrestins and arrestin or arrestin-derived peptides in complex with an active GPCR. 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subjects	Animals Arrestin - chemistry Arrestin - metabolism Humans Protein Domains Rotation
title	Structural mechanism of arrestin activation
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