Beta-arrestin binding to the beta2-adrenergic receptor requires both receptor phosphorylation and receptor activation.
about
The structural basis of arrestin-mediated regulation of G-protein-coupled receptorsEvidence for the role of corticotropin-releasing factor in major depressive disorderMolecular and cell signaling targets for PTSD pathophysiology and pharmacotherapySingle-cell analysis of G-protein signal transductionAcoustofluidic chemical waveform generator and switch.β2 adrenergic receptor fluorescent protein fusions traffic to the plasma membrane and retain functionalityQuantitative modeling of GRK-mediated beta2AR regulationInvolvement of sphingosine-1-phosphate in glutamate secretion in hippocampal neuronsβ2-Adrenergics in hypoxia desensitize receptors but blunt inhibition of reabsorption in rat lungsRole of CRF receptor signaling in stress vulnerability, anxiety, and depression.Agonist-selective, receptor-specific interaction of human P2Y receptors with beta-arrestin-1 and -2Teaching old receptors new tricks: biasing seven-transmembrane receptors.Formation of a ternary complex among NHERF1, beta-arrestin, and parathyroid hormone receptor.μ-opioid receptors: correlation of agonist efficacy for signalling with ability to activate internalization.Agonist-selective mechanisms of GPCR desensitizationG-protein-coupled receptor phosphorylation: where, when and by whom.Change in functional selectivity of morphine with the development of antinociceptive tolerance.Ligand-dependent mechanisms of sst2A receptor trafficking: role of site-specific phosphorylation and receptor activation in the actions of biased somatostatin agonists.Insulin protects apoptotic cardiomyocytes from hypoxia/reoxygenation injury through the sphingosine kinase/sphingosine 1-phosphate axis.Co-expression of GRK2 reveals a novel conformational state of the µ-opioid receptorThe GIP receptor displays higher basal activity than the GLP-1 receptor but does not recruit GRK2 or arrestin3 effectively.Differential phosphorylation and dephosphorylation of beta2-adrenoceptor sites Ser262 and Ser355,356.IL-13 desensitizes β2-adrenergic receptors in human airway epithelial cells through a 15-lipoxygenase/G protein receptor kinase 2 mechanismRole of receptor-attached phosphates in binding of visual and non-visual arrestins to G protein-coupled receptors.Two serines in the distal C-terminus of the human ß1-adrenoceptor determine ß-arrestin2 recruitment.Roles of GRK and PDE4 activities in the regulation of beta2 adrenergic signalingVoltage regulates adrenergic receptor functionContributions of protein kinases and β-arrestin to termination of protease-activated receptor 2 signaling.The β-Arrestins: Multifunctional Regulators of G Protein-coupled ReceptorsKinetics of G-protein-coupled receptor signals in intact cellsHematopoietic protein tyrosine phosphatase mediates beta2-adrenergic receptor-induced regulation of p38 mitogen-activated protein kinase in B lymphocytes.Role of beta-adrenoceptor signaling in skeletal muscle: implications for muscle wasting and disease.Functional and structural characterization of axonal opioid receptors as targets for analgesia.Distinct cortical and striatal actions of a β-arrestin-biased dopamine D2 receptor ligand reveal unique antipsychotic-like properties.Custom-designed proteins as novel therapeutic tools? The case of arrestins.Structural determinants of arrestin functionsDynamics of Gαq-protein-p63RhoGEF interaction and its regulation by RGS2.The ins and outs of adrenergic signaling.Ubiquitin-Related Roles of β-Arrestins in Endocytic Trafficking and Signal Transduction.β-Arrestin biosensors reveal a rapid, receptor-dependent activation/deactivation cycle
P2860
Q24657537-0BC25AA8-7E92-48A8-A1E1-018F8B5E147BQ26798878-500883F3-D41E-44CE-8EBF-F2216A41D08AQ26860173-9FDE3ECF-C297-4300-B778-F5BCC45CA8EFQ27023468-966119A7-8881-4288-906B-6EF8C0CF0E4BQ27301914-01EDE855-F5B1-4087-9F41-E09AD6C36A7BQ27306187-03C68F90-5032-4B78-A47D-54B09885212EQ28472427-FC18501C-D350-459E-AC07-70AD16EC2017Q28567324-17683A81-EA2C-4F7F-BC77-065431EA8666Q28568840-5C7090D9-0E0A-40B2-BB6F-C963643178A6Q30475129-62015B6E-6E58-447B-BA55-74A197247378Q30486708-853674F0-FC61-4413-8D11-0F33CF6E5B44Q33985759-7B063D45-D8CF-44A9-9B03-A819B4775855Q34144790-D9AFC57F-1594-4809-8D4C-928A9B3340CBQ34310081-1ADD0A5C-A94A-4899-9B44-AC9123F1CA1BQ34722029-F5B106AD-6560-4B23-9404-C62BD52CAE62Q34735704-3F55EF0A-34CF-4112-ACED-051BE2AA8B67Q34939824-44E1BD03-87BE-4A52-A8A9-4883E01A9B34Q35001258-0E748602-55F0-4A1B-BDDB-8212C5CBD516Q35069407-923A9835-1074-4BA8-9DE4-24EB65A2D089Q35078148-4C420FAC-588E-4D5D-ACA3-7700791EC76CQ35239483-59055E41-8BA8-4F03-B8E5-54C9D694D727Q35545227-F7707233-B35D-4DFC-8ABC-E3A0D6D0F8E5Q35589613-C8D45A8E-7B54-4CF9-BAE0-FC01E7A90B1BQ35841895-01B4FEBC-B3B6-4801-96A4-D7556239159FQ36363295-D25A879C-7965-4E11-B50C-B2F054A0D610Q36517746-04A7B79A-73B4-42BE-9B5C-1A45EDFC9677Q36567891-ABA64D63-E7BB-43E8-A7B8-94616018CE39Q36634318-8A1698A5-7EC0-4B0B-866E-DC5F4FD9F0A0Q36884777-5A97A610-F6E6-4CB7-838B-A7ADBAB4CBB5Q37056211-3672EA86-A312-423F-B21D-17A1664526AFQ37072161-DAC60491-933D-4033-A688-7B253E68E343Q37129351-BC16E748-BFC6-4BED-81A2-906055D8C5DFQ37197442-1D7FCCF7-20F7-4A84-9471-1F770E0557A5Q37515058-0F14BC7C-BB5F-46B3-8551-84100D7C50CEQ37735949-189EE67A-01E0-4B0B-9C73-B2CD6CDAAF5BQ38114211-F1EE720F-F402-4A5F-A306-96507A511C55Q38310704-6452CAB8-28A6-43AC-AACA-88F291AD585EQ38551824-D01EDCB4-3D55-410A-BB05-C98A501BD2C6Q38704567-BAB0C8FC-0CD2-44C8-8172-BC3F9163F7F3Q38783889-5D9A9399-E3CF-4AC0-957D-6736F846F7C5
P2860
Beta-arrestin binding to the beta2-adrenergic receptor requires both receptor phosphorylation and receptor activation.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Beta-arrestin binding to the b ...... ation and receptor activation.
@en
type
label
Beta-arrestin binding to the b ...... ation and receptor activation.
@en
prefLabel
Beta-arrestin binding to the b ...... ation and receptor activation.
@en
P50
P356
P1476
Beta-arrestin binding to the b ...... lation and receptor activation
@en
P2093
Moritz Bünemann
P304
P356
10.1074/JBC.M413078200
P407
P577
2005-01-05T00:00:00Z