| scholarly article | Q13442814 |
| P50 | author | Marc Caron | Q64858849 |
| Robert Lefkowitz | Q80910 | ||
| P2093 | author name string | B F O'Dowd | |
| M Bouvier | |||
| M Hnatowich | |||
| P433 | issue | 13 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 7564-9 | |
| P577 | publication date | 1989-05-05 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | Palmitoylation of the human beta 2-adrenergic receptor. Mutation of Cys341 in the carboxyl tail leads to an uncoupled nonpalmitoylated form of the receptor | |
| P478 | volume | 264 |
| Q43892092 | A double cysteine trkA mutant exhibiting reduced NGF binding and delayed Erk signaling |
| Q40516412 | Activation of an alpha2A-adrenoceptor-Galphao1 fusion protein dynamically regulates the palmitoylation status of the G protein but not of the receptor |
| Q35766866 | Adenosine A1 and A2 receptors: structure--function relationships |
| Q36332205 | Adenosine receptors: pharmacology, structure-activity relationships, and therapeutic potential |
| Q35925395 | Agonist-induced conformational changes in the G-protein-coupling domain of the beta 2 adrenergic receptor |
| Q33604101 | Agonist-selective signaling of G protein-coupled receptor: mechanisms and implications |
| Q33887729 | Agonists induce conformational changes in transmembrane domains III and VI of the beta2 adrenoceptor |
| Q34042138 | Altered phosphorylation and desensitization patterns of a human beta 2-adrenergic receptor lacking the palmitoylated Cys341. |
| Q35566505 | Alternative splicing generates two isoforms of the beta3-adrenoceptor which are differentially expressed in mouse tissues. |
| Q37577537 | Biotechnology of beta-adrenergic receptors |
| Q28572382 | Brain and gastrointestinal cholecystokinin receptor family: structure and functional expression |
| Q36218659 | Can Specific Protein-Lipid Interactions Stabilize an Active State of the Beta 2 Adrenergic Receptor? |
| Q39036634 | Characterization of an invertebrate-type dopamine receptor of the American cockroach, Periplaneta americana |
| Q41041863 | Cholecystokinin receptors. |
| Q24563011 | Cloning and characterization of a fourth human somatostatin receptor |
| Q30990033 | Cloning and expression of the thyrotropin-releasing hormone receptor from GH3 rat anterior pituitary cells |
| Q28565789 | Cloning and functional characterization of the rat stomach fundus serotonin receptor |
| Q24314298 | Cloning and functional expression of cDNAs encoding human and rat pancreatic polypeptide receptors |
| Q28645687 | Cloning of the cDNA and gene for a human D2 dopamine receptor |
| Q33214759 | Cloning, expression, and characterization of the unique bovine A1 adenosine receptor. Studies on the ligand binding site by site-directed mutagenesis |
| Q43792462 | Cloning, expression, and regulation of a glucocorticoid-induced receptor in rat brain: effect of repetitive amphetamine. |
| Q24321094 | Cloning, molecular characterization, and chromosomal assignment of a gene encoding a second D1 dopamine receptor subtype: differential expression pattern in rat brain compared with the D1A receptor |
| Q40824183 | Combined modification of intracellular and extracellular loci on human gonadotropin-releasing hormone receptor provides a mechanism for enhanced expression |
| Q36645430 | Current issues with beta2-adrenoceptor agonists: pharmacology and molecular and cellular mechanisms |
| Q89791363 | Cysteine redox state regulates human β2-adrenergic receptor binding and function |
| Q41233270 | Cysteine34 of the cytoplasmic tail of the cation-dependent mannose 6-phosphate receptor is reversibly palmitoylated and required for normal trafficking and lysosomal enzyme sorting |
| Q41175004 | Cytoplasmic tail length influences fatty acid selection for acylation of viral glycoproteins |
| Q35861028 | D1A, D1B, and D1C dopamine receptors from Xenopus laevis |
| Q33325069 | D2 dopamine receptors in the human retina: Cloning of cDNA and localization of mRNA |
| Q47353355 | DHHC5-mediated palmitoylation of S1P receptor subtype 1 determines G-protein coupling |
| Q90437347 | Differential S-palmitoylation of the human and rodent β3-adrenergic receptors |
| Q34998252 | Differential regulation of two palmitoylation sites in the cytoplasmic tail of the beta1-adrenergic receptor |
| Q41911114 | Direct detection of S-palmitoylation by mass spectrometry |
| Q36763220 | Domains involved in the specificity of G protein activation in phospholipase C-coupled metabotropic glutamate receptors. |
| Q33921096 | Dopamine receptor genes: new tools for molecular psychiatry. |
| Q47634622 | Dynamic modelling of the binding of substances to the conserved membrane-adjacent heptapeptide of the 15-residue C-terminal cytoplasmic fragment of mammalian dopamine D2 receptors |
| Q33214388 | Enhanced shutoff of phototransduction in transgenic mice expressing palmitoylation-deficient rhodopsin. |
| Q34727817 | Evidence for the presence of a critical disulfide bond in the mouse EP3γ receptor |
| Q24305498 | Expansion of the alpha 2-adrenergic receptor family: cloning and characterization of a human alpha 2-adrenergic receptor subtype, the gene for which is located on chromosome 2 |
| Q28330787 | Expression cloning of a cDNA encoding the mouse pituitary thyrotropin-releasing hormone receptor |
| Q28571940 | Expression cloning of a rat B2 bradykinin receptor |
| Q28565466 | Expression cloning of a rat brain somatostatin receptor cDNA |
| Q38315214 | Expression of a rat neurotensin receptor in Escherichia coli |
| Q38729752 | Fatty acylation of proteins |
| Q40467458 | Functional domains of the gonadotropin-releasing hormone receptor. |
| Q42060900 | Functional rescue of a constitutively desensitized beta2AR through receptor dimerization. |
| Q34042048 | Functional role of proline and tryptophan residues highly conserved among G protein-coupled receptors studied by mutational analysis of the m3 muscarinic receptor |
| Q34715575 | Helix 8 of the M1 muscarinic acetylcholine receptor: scanning mutagenesis delineates a G protein recognition site. |
| Q24657484 | High-resolution crystal structure of an engineered human beta2-adrenergic G protein-coupled receptor |
| Q41403314 | Human adenosine A2A receptor binds calmodulin with high affinity in a calcium-dependent manner. |
| Q35826043 | In Vitro Mutational Analysis of the β2 Adrenergic Receptor, an In Vivo Surrogate Odorant Receptor |
| Q35227301 | In vitro mutagenesis and the search for structure-function relationships among G protein-coupled receptors |
| Q35028565 | Inverse agonist abolishes desensitization of a constitutively active mutant of thyrotropin-releasing hormone receptor: role of cellular calcium and protein kinase C. |
| Q35602692 | Lipid rafts: heterogeneity on the high seas |
| Q37260917 | Modulation of molecular interactions and function by rhodopsin palmitylation |
| Q24338133 | Molecular characterization of the mouse beta 3-adrenergic receptor: relationship with the atypical receptor of adipocytes |
| Q24564442 | Molecular cloning and characterization of the human A3 adenosine receptor |
| Q28378359 | Molecular cloning of a rat kappa opioid receptor reveals sequence similarities to the mu and delta opioid receptors |
| Q24304962 | Molecular cloning of the human brain and gastric cholecystokinin receptor: Structure, functional expression and chromosomal localization |
| Q36748960 | Molecular cloning, functional expression and pharmacological characterization of a mouse melanocortin receptor gene |
| Q30318205 | Molecular dynamics simulations reveal specific interactions of post-translational palmitoyl modifications with rhodopsin in membranes. |
| Q36934622 | Molecular interactions between the photoreceptor G protein and rhodopsin |
| Q36305301 | Molecular mechanisms of beta2-adrenergic receptor function and regulation |
| Q24534016 | Molecular tinkering of G protein-coupled receptors: an evolutionary success |
| Q37551913 | Multifactorial Regulation of G Protein-Coupled Receptor Endocytosis |
| Q24560472 | Multiple human D5 dopamine receptor genes: a functional receptor and two pseudogenes |
| Q72356789 | Overview: protein palmitoylation in the nervous system: current views and unsolved problems |
| Q46451559 | Oxidation inhibits PTH receptor signaling and trafficking. |
| Q41525377 | Palmitoylation alters protein activity: blockade of G(o) stimulation by GAP-43. |
| Q34201750 | Palmitoylation and membrane cholesterol stabilize μ-opioid receptor homodimerization and G protein coupling. |
| Q55256658 | Palmitoylation as a Functional Regulator of Neurotransmitter Receptors. |
| Q40613060 | Palmitoylation is not required for trafficking of human anion exchanger 1 to the cell surface |
| Q36025579 | Palmitoylation of bovine opsin and its cysteine mutants in COS cells. |
| Q36556385 | Palmitoylation of either Cys-3 or Cys-5 is required for the biological activity of the Lck tyrosine protein kinase |
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| Q40950169 | Palmitoylation of the three isoforms of human endothelin-converting enzyme-1 |
| Q34388807 | Palmitoylation regulates intracellular trafficking of β2 adrenergic receptor/arrestin/phosphodiesterase 4D complexes in cardiomyocytes |
| Q24563063 | Pelizaeus-Merzbacher disease: a valine to phenylalanine point mutation in a putative extracellular loop of myelin proteolipid |
| Q30428021 | Posttranslational modification of tubulin by palmitoylation: I. In vivo and cell-free studies |
| Q41239074 | Properties of the human arginine vasopressin V2 receptor after site-directed mutagenesis of its putative palmitoylation site |
| Q33849385 | Protein Lipidation As a Regulator of Apoptotic Calcium Release: Relevance to Cancer. |
| Q37789075 | Protein modifications involved in neurotransmitter and gasotransmitter signaling |
| Q41850479 | Pseudo-enzymatic S-acylation of a myristoylated yes protein tyrosine kinase peptide in vitro may reflect non-enzymatic S-acylation in vivo |
| Q41392234 | Regulatory mechanisms that modulate signalling by G-protein-coupled receptors |
| Q42035462 | Role of cysteine 341 and arginine 348 of GLP-1 receptor in G-protein coupling |
| Q35610317 | Role of the intracellular domains of the human FSH receptor in G(alphaS) protein coupling and receptor expression |
| Q41107029 | S-Palmitoylation of a Novel Site in the β2-Adrenergic Receptor Associated with a Novel Intracellular Itinerary |
| Q38903618 | Sarcolemmal dependence of cardiac protection and stress-resistance: roles in aged or diseased hearts. |
| Q28646303 | Site-specific mutagenesis identifies three cysteine residues in the cytoplasmic tail as acylation sites of influenza virus hemagglutinin |
| Q33661228 | Structural features of heterotrimeric G-protein-coupled receptors and their modulatory proteins |
| Q42908052 | Structural requirements for palmitoylation of surfactant protein C precursor |
| Q68079520 | Structure and function of G protein coupled receptors |
| Q36278165 | Structure, function, and regulation of adrenergic receptors |
| Q28368220 | The 5-HT4 receptor: molecular cloning and pharmacological characterization of two splice variants |
| Q37694353 | The dopamine D4 receptor: biochemical and signalling properties |
| Q36631283 | The gamma2 subunit of GABA(A) receptors is a substrate for palmitoylation by GODZ |
| Q33876152 | The human and simian immunodeficiency virus envelope glycoprotein transmembrane subunits are palmitoylated |
| Q34439629 | The intracellular dynamic of protein palmitoylation |
| Q35900263 | The palmitoylated cysteine of the cytoplasmic tail of alpha 2A-adrenergic receptors confers subtype-specific agonist-promoted downregulation |
| Q27014134 | The physiology of protein S-acylation |
| Q78036825 | The pool of fatty acids covalently bound to platelet proteins by thioester linkages can be altered by exogenously supplied fatty acids |
| Q71319628 | Thioesterification of platelet proteins with saturated and polyunsaturated fatty acids |
| Q38521174 | Trafficking of β-Adrenergic Receptors: Implications in Intracellular Receptor Signaling |
| Q34173066 | Yeast synaptobrevin homologs are modified posttranslationally by the addition of palmitate |
| Q36024912 | β(2)-Adrenoceptors increase translocation of GLUT4 via GPCR kinase sites in the receptor C-terminal tail |
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