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Common activation mechanism of class A GPCRs
Common activation mechanism of class A GPCRs
by Liu, Zhi-Jie , Lambert, Nevin A , Guo, Yu , Babu, M Madan , Shakhnovich, Eugene I , Guo, Wanjing , Jang, Wonjo , Zhao, Suwen , Cai, Xiaoqing , Yang, Dehua , Wang, Ming-Wei , Stevens, Raymond C , Dai, Antao , Zhong, Li , Zhou, Qingtong , Wu, Meng
in activation mechanism / Allosteric properties / Allosteric Regulation - genetics / allostery / Amino Acid Motifs - genetics / Binding Sites - genetics / Computational and Systems Biology / Disease / drug discovery / G protein-coupled receptors / genetic diseases / GPCR / Humans / Ligands / Mutagenesis / Mutation / Protein Binding - genetics / Protein Conformation / Proteins / Receptor mechanisms / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Signal transduction / Signal Transduction - genetics / Site-directed mutagenesis / Structural Biology and Molecular Biophysics
2019
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Common activation mechanism of class A GPCRs
by Liu, Zhi-Jie , Lambert, Nevin A , Guo, Yu , Babu, M Madan , Shakhnovich, Eugene I , Guo, Wanjing , Jang, Wonjo , Zhao, Suwen , Cai, Xiaoqing , Yang, Dehua , Wang, Ming-Wei , Stevens, Raymond C , Dai, Antao , Zhong, Li , Zhou, Qingtong , Wu, Meng
in activation mechanism / Allosteric properties / Allosteric Regulation - genetics / allostery / Amino Acid Motifs - genetics / Binding Sites - genetics / Computational and Systems Biology / Disease / drug discovery / G protein-coupled receptors / genetic diseases / GPCR / Humans / Ligands / Mutagenesis / Mutation / Protein Binding - genetics / Protein Conformation / Proteins / Receptor mechanisms / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Signal transduction / Signal Transduction - genetics / Site-directed mutagenesis / Structural Biology and Molecular Biophysics
2019
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Common activation mechanism of class A GPCRs
Common activation mechanism of class A GPCRs
by Liu, Zhi-Jie , Lambert, Nevin A , Guo, Yu , Babu, M Madan , Shakhnovich, Eugene I , Guo, Wanjing , Jang, Wonjo , Zhao, Suwen , Cai, Xiaoqing , Yang, Dehua , Wang, Ming-Wei , Stevens, Raymond C , Dai, Antao , Zhong, Li , Zhou, Qingtong , Wu, Meng
in activation mechanism / Allosteric properties / Allosteric Regulation - genetics / allostery / Amino Acid Motifs - genetics / Binding Sites - genetics / Computational and Systems Biology / Disease / drug discovery / G protein-coupled receptors / genetic diseases / GPCR / Humans / Ligands / Mutagenesis / Mutation / Protein Binding - genetics / Protein Conformation / Proteins / Receptor mechanisms / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Signal transduction / Signal Transduction - genetics / Site-directed mutagenesis / Structural Biology and Molecular Biophysics
2019

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Common activation mechanism of class A GPCRs
Common activation mechanism of class A GPCRs
Journal Article

Common activation mechanism of class A GPCRs

Liu, Zhi-Jie,
Lambert, Nevin A,
Guo, Yu,
Babu, M Madan,
Shakhnovich, Eugene I,
Guo, Wanjing,
Jang, Wonjo,
Zhao, Suwen,
Cai, Xiaoqing,
Yang, Dehua,
Wang, Ming-Wei,
Stevens, Raymond C,
Dai, Antao,
Zhong, Li,
Zhou, Qingtong,
Wu, Meng
2019
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Overview
Class A G-protein-coupled receptors (GPCRs) influence virtually every aspect of human physiology. Understanding receptor activation mechanism is critical for discovering novel therapeutics since about one-third of all marketed drugs target members of this family. GPCR activation is an allosteric process that couples agonist binding to G-protein recruitment, with the hallmark outward movement of transmembrane helix 6 (TM6). However, what leads to TM6 movement and the key residue level changes of this movement remain less well understood. Here, we report a framework to quantify conformational changes. By analyzing the conformational changes in 234 structures from 45 class A GPCRs, we discovered a common GPCR activation pathway comprising of 34 residue pairs and 35 residues. The pathway unifies previous findings into a common activation mechanism and strings together the scattered key motifs such as CWxP, DRY, Na+ pocket, NPxxY and PIF, thereby directly linking the bottom of ligand-binding pocket with G-protein coupling region. Site-directed mutagenesis experiments support this proposition and reveal that rational mutations of residues in this pathway can be used to obtain receptors that are constitutively active or inactive. The common activation pathway provides the mechanistic interpretation of constitutively activating, inactivating and disease mutations. As a module responsible for activation, the common pathway allows for decoupling of the evolution of the ligand binding site and G-protein-binding region. Such an architecture might have facilitated GPCRs to emerge as a highly successful family of proteins for signal transduction in nature.
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Publisher
eLife Sciences Publications Ltd,eLife Sciences Publications, Ltd
Subject

activation mechanism

/ Allosteric properties

/ Allosteric Regulation - genetics

/ allostery

/ Amino Acid Motifs - genetics

/ Binding Sites - genetics

/ Computational and Systems Biology

/ Disease

/ drug discovery

/ G protein-coupled receptors

/ genetic diseases

/ GPCR

/ Humans

/ Ligands

/ Mutagenesis

/ Mutation

/ Protein Binding - genetics

/ Protein Conformation

/ Proteins

/ Receptor mechanisms

/ Receptors, G-Protein-Coupled - chemistry

/ Receptors, G-Protein-Coupled - genetics

/ Signal transduction

/ Signal Transduction - genetics

/ Site-directed mutagenesis

/ Structural Biology and Molecular Biophysics

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