Conservation of the Phosphate-sensitive Elements in the Arrestin Family of Proteins (original) (raw)

Journal of Biological Chemistry, 2011

Structural Basis of Arrestin Selectivity for Active Phosphorylated G Protein-Coupled Receptors

International Journal of Molecular Sciences

Manipulation of Very Few Receptor Discriminator Residues Greatly Enhances Receptor Specificity of Non-visual Arrestins

Journal of Biological Chemistry, 2012

An Additional Phosphate-binding Element in Arrestin Molecule. IMPLICATIONS FOR THE MECHANISM OF ARRESTIN ACTIVATION

Journal of Biological Chemistry, 2000

Differential Affinities of Visual Arrestin, ␤Arrestin1, and ␤Arrestin2 for G Protein-coupled Receptors Delineate Two Major Classes of Receptors

enrico ronchetti

Molecular mechanism of phosphorylation-dependent arrestin activation

Gebhard F X Schertler

Current opinion in structural biology, 2014

How Does Arrestin Respond to the Phosphorylated State of Rhodopsin?

Journal of Biological Chemistry, 1999

Functional map of arrestin binding to phosphorylated opsin, with and without agonist

Martin K Ostermaier

Scientific Reports, 2016

Mechanism of phosphorylation-recognition by visual arrestin and the transition of arrestin into a high affinity binding state

Molecular pharmacology, 1997

Mapping the Arrestin-Receptor Interface: STRUCTURAL ELEMENTS RESPONSIBLE FOR RECEPTOR SPECIFICITY OF ARRESTIN PROTEINS

Journal of Biological Chemistry, 2003

Transition of Arrestin into the Active Receptor-binding State Requires an Extended Interdomain Hinge

Journal of Biological Chemistry, 2002

Phosphate Sensor and Construction of Phosphorylation-Independent Arrestins

The Structural Basis of Arrestin Functions, 2017

The Role of Arrestin α-Helix I in Receptor Binding

Journal of Molecular Biology, 2010

Crystal Structure of Arrestin-3 Reveals the Basis of the Difference in Receptor Binding Between Two Non-visual Subtypes

Journal of Molecular Biology, 2011

Conformation of receptor-bound visual arrestin

Proceedings of the National Academy of Sciences, 2012

Crystal Structure of B-arrestin at 1.9 Angstroms: Possible Mechanism of receptor binding and membrane translocation

Structure

A Model for Arrestin’s Regulation: The 2.8 Å Crystal Structure of Visual Arrestin

Cell, 1999

Identification of Phosphorylation Codes for Arrestin Recruitment by G Protein-Coupled Receptors

Cell, 2017

Conformational dynamics of helix 8 in the GPCR rhodopsin controls arrestin activation in the desensitization process

Dr Gayathri

Structure of active β-arrestin-1 bound to a G-protein-coupled receptor phosphopeptide

Akiko Koide

Nature, 2013

The Selectivity of Visual Arrestin for Light-activated Phosphorhodopsin Is Controlled by Multiple Nonredundant Mechanisms

Journal of Biological Chemistry, 1998

Distinct G protein-coupled receptor phosphorylation motifs modulate arrestin affinity and activation and global conformation

Daniel Mayer

Nature Communications

Agonist-Receptor-Arrestin, an Alternative Ternary Complex with High Agonist Affinity

Journal of Biological Chemistry, 1997

Regulation of Arrestin Binding by Rhodopsin Phosphorylation Level

James Hurley

Journal of Biological Chemistry, 2007

The structural basis of the arrestin binding to GPCRs

Molecular and Cellular Endocrinology, 2019

Differential manipulation of arrestin-3 binding to basal and agonist-activated G protein-coupled receptors

Cellular signalling, 2017

The Role of Arrestin-1 Middle Loop in Rhodopsin Binding

International Journal of Molecular Sciences

Crystal Structure of Cone Arrestin at 2.3 Å: Evolution of Receptor Specificity

javier navarro

Journal of Molecular Biology, 2005

Mechanism of Quenching of Phototransduction. BINDING COMPETITION BETWEEN ARRESTIN AND TRANSDUCIN FOR PHOSPHORHODOPSIN

Journal of Biological Chemistry, 1997

Functional Role of Arrestin-1 Residues Interacting With Unphosphorylated Rhodopsin Elements