Chimeric alpha 2-,beta 2-adrenergic receptors: delineation of domains involved in effector coupling and ligand binding specificity.
about
Chromosomal organization of adrenergic receptor genesThe dopamine D2 receptor: two molecular forms generated by alternative splicingMolecular characterization of the mouse beta 3-adrenergic receptor: relationship with the atypical receptor of adipocytesMolecular structure of frizzled, a Drosophila tissue polarity gene.Coexpression studies with mutant muscarinic/adrenergic receptors provide evidence for intermolecular "cross-talk" between G-protein-linked receptorsX-linked nephrogenic diabetes insipidus mutations in North America and the Hopewell hypothesisActivation of the beta 2-adrenergic receptor promotes growth and differentiation in thyroid cellsIdentification of two distinct inactive conformations of the beta2-adrenergic receptor reconciles structural and biochemical observationsMelanopsin: An opsin in melanophores, brain, and eyeNew insights into sodium transport regulation in the distal nephron: Role of G-protein coupled receptorsOutside-in signaling--a brief review of GPCR signaling with a focus on the Drosophila GPCR familyThe Camerino symposium series (1978-2013): a privileged observatory of receptorology developmentBeta and gamma subunits of a yeast guanine nucleotide-binding protein are not essential for membrane association of the alpha subunit but are required for receptor coupling.An amino-terminal variant of the central cannabinoid receptor resulting from alternative splicingStable expression of high affinity NK1 (substance P) and NK2 (neurokinin A) receptors but low affinity NK3 (neurokinin B) receptors in transfected CHO cellsCloning and functional comparison of kappa and delta opioid receptors from mouse brainActivation of a frizzled-2/beta-adrenergic receptor chimera promotes Wnt signaling and differentiation of mouse F9 teratocarcinoma cells via Galphao and GalphatDominance of G(s) in doubly G(s)/G(i)-coupled chimaeric A(1)/A(2A) adenosine receptors in HEK-293 cells.Molecular dissection of functional domains of the E1E2-ATPase using sodium and calcium pump chimeric molecules.Ouabain- and Ca2(+)-sensitive ATPase activity of chimeric Na- and Ca-pump molecules.Optically triggering spatiotemporally confined GPCR activity in a cell and programming neurite initiation and extensionCloning and expression of the thyrotropin-releasing hormone receptor from GH3 rat anterior pituitary cells.Cloning and expression of a rat brain alpha 2B-adrenergic receptorIn vivo expression of the lacY gene in two segments leads to functional lac permease.The structural basis of G-protein-coupled receptor signaling (Nobel Lecture)Muscarinic receptor functioning and distribution in the eye: molecular basis and implications for clinical diagnosis and therapy.Identification of functionally important residues of the silkmoth pheromone biosynthesis-activating neuropeptide receptor, an insect ortholog of the vertebrate neuromedin U receptor.Chimeric phage-bacterial enzymes: a clue to the modular evolution of genes.Genesis of prolactinomas: studies using estrogen-treated animalsMutational analysis of ligand binding activity of beta 2 adrenergic receptor expressed in Escherichia coliDistinct sequence elements control the specificity of G protein activation by muscarinic acetylcholine receptor subtypes.Comparative NMR analysis of an 80-residue G protein-coupled receptor fragment in two membrane mimetic environments.Charged amino acids required for signal transduction by the m3 muscarinic acetylcholine receptor.Diffusional dynamics of an active rhodamine-labeled 1,4-dihydropyridine in sarcolemmal lipid multibilayers.Partitioning and location of Bay K 8644, 1,4-dihydropyridine calcium channel agonist, in model and biological membranesCharacterization and functional expression in mammalian cells of genomic and cDNA clones encoding a Drosophila muscarinic acetylcholine receptor.Characterization of a genetically reconstituted high-affinity system for serotonin transportBeta-adrenergic signaling in the heart: dual coupling of the beta2-adrenergic receptor to G(s) and G(i) proteins.The sixth transmembrane domains of the human B1 and B2 bradykinin receptors are structurally compatible and involved in discriminating between subtype-selective agonists.In vivo assembly of rhodopsin from expressed polypeptide fragments
P2860
Q24301541-037CA9B0-239D-4FC8-A527-EB66A64423F8Q24305916-2E741C23-EEC2-4F13-9E4B-FF422728A5A6Q24338133-20703094-BDC7-4429-B972-4CA3DB48643FQ24532526-DE83D97C-7FA5-4283-9875-C72FE810B412Q24563191-754C7556-AB3D-434A-BCAE-1DE893AA899EQ24597306-C175429C-2808-415C-94B4-8EA549B9590FQ24610440-317691B5-5728-4C97-AA50-1CCFEEC8B28DQ24645752-93526B3E-162D-4E6B-9773-C3351F370323Q24679805-96ED6EBA-852E-4228-8829-02F15E2F9723Q26765204-6AB75F66-916A-4044-B000-91DFDC585706Q26783368-28CF2514-2066-4202-A6EC-D88128D6831BQ26830483-E48E35BE-4E83-4BB3-92D2-0C2B24C7F667Q27929497-F1A8C68A-E0C9-4B60-8345-E926D5CDAF15Q28235579-CDBB004D-B38C-4A4C-9C94-AD1DA8290510Q28343055-3E41800D-E5BC-466A-8521-531592B18E88Q28378630-D8E02142-6DFC-4719-B3B2-3615D762A47FQ28613404-71D673C9-BF0F-40DF-B9F0-E973B9BAD609Q30306324-EAC21A86-8E70-460D-8F99-DBE8103E85D8Q30311272-98308AE0-4C66-4920-9A2F-CF57AE7D3DF2Q30446237-7DF8C516-CDC2-405B-A0CD-355178D75001Q30539245-A46A54EE-DE0E-4F9B-B076-F7F22B05E88BQ30990033-B6F89152-F31F-4635-90B3-321BA9306F7FQ33260412-4C3ABAC8-5E54-4F3D-90F2-16AB9B309F68Q33618213-08335942-3747-4473-8D04-FDDA82B1DCE3Q33651185-7C9D13AE-044B-4919-A4DD-91CF43944621Q33810562-07728CE3-4B84-4778-B751-09C5AE39EBD4Q33846547-DC122F8D-4751-4706-9CAC-227E3FC2A834Q33851733-2C1EC605-54E0-4B0A-98C1-623070E2EB4EQ33899741-05BB0AA5-1E71-4D60-A1B5-CFFF69972DDEQ33921259-4F758968-F2A6-4C40-B7CD-CFB22C9C5755Q33923611-5F996AF7-6863-47A4-8F4D-3F47A6B4D98AQ33972236-636ABFD2-ECD3-4060-8439-998FE7B4A670Q34060969-DDC484B9-F001-431F-92AD-3F53E181F34CQ34125323-6B08FD65-3744-45A9-BDD3-94A0B5530653Q34261513-68903EE5-9613-47C3-BA98-893A306394D0Q34320984-653496A8-16A9-465F-BC16-4D0C7C355841Q34324334-3CC2A89F-C091-43FC-BC22-7F7C4E05BD93Q34403963-C406F2A0-BD87-4215-8D46-B44AF722CC61Q34413283-30F2682A-A812-47D8-870F-4EF3FFBAE94AQ34422662-B8E8964D-7CA6-4055-AA4E-6C5712CEED44
P2860
Chimeric alpha 2-,beta 2-adrenergic receptors: delineation of domains involved in effector coupling and ligand binding specificity.
description
1988 nî lūn-bûn
@nan
1988 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1988 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
name
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@ast
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@en
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@nl
type
label
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@ast
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@en
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@nl
prefLabel
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@ast
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@en
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@nl
P2093
P356
P1433
P1476
Chimeric alpha 2-,beta 2-adren ...... nd ligand binding specificity.
@en
P2093
R J Lefkowitz
T S Kobilka
P304
P356
10.1126/SCIENCE.2836950
P407
P577
1988-06-01T00:00:00Z