Kinetics of opiate receptor inactivation by sulfhydryl reagents: evidence for conformational change in presence of sodium ions.
about
Multiple opiate receptors: [3H]ethylketocyclazocine receptor binding and ketocyclazocine analgesiaDynorphin--still an extraordinarily potent opioid peptideMutational analysis of the structure and function of opioid receptors.Properties and localization of beta-endorphin receptor in rat brainCoupling of opiate receptors to adenylate cyclase: requirement for Na+ and GTP.Structure and regulation of opioid receptors.Disruption of the Na+ ion binding site as a mechanism for positive allosteric modulation of the mu-opioid receptor.Characterization and partial purification of solubilized active opiate receptors from toad brain.Interconverting mu and delta forms of the opiate receptor in rat striatal patches.Sodium ion modulates D2 receptor characteristics of dopamine agonist and antagonist binding sites in striatum and retinaSelective protection of stereospecific enkephalin and opiate binding against inactivation by N-ethylmaleimide: evidence for two classes of opiate receptorsmu opiate receptor: cDNA cloning and expression.Chemical crosslinking of a solubilized enkephalin macromolecular complexStudies on inhibition of mu and delta opioid receptor binding by dithiothreitol and N-ethylmaleimide. His223 is critical for mu opioid receptor binding and inactivation by N-ethylmaleimide.New Technologies for Elucidating Opioid Receptor Function.The opiate receptors and the discovery of opioid-like peptides.Allostery at opioid receptors: modulation with small molecule ligands.Recent studies on opioid receptors: heterogeneity and purification.Membrane microviscosity modulates mu-opioid receptor conformational transitions and agonist efficacy.Sensitivity of opioid receptor binding to N-substituted maleimides and methanethiosulfonate derivatives.Action of capsaicin and related peptides on the ionic transport across the skin of Rana esculenta.Modulatory role of glutathione on mu-opioid, substance P/neurokinin-1, and kainic acid receptor binding sites.Altered transition between agonist- and antagonist-favoring states of mu-opioid receptor in brain membranes with modified microviscosity.Evidence for disulfide bonds in membrane-bound and solubilized opioid receptors.Identification in the mu-opioid receptor of cysteine residues responsible for inactivation of ligand binding by thiol alkylating and reducing agents.The use of ascorbate as a probe of opioid receptor structure: evidence for two independent mechanisms of receptor destruction by ascorbate.Opiate receptors and opioid peptides: an overview.In Vivo Effects of μ Opioid Receptor Agonist/δ Opioid Receptor Antagonist Peptidomimetics Following Acute and Repeated Administration.pH selectivity of N-ethylmaleimide reactions with opiate receptor complexes in rat brain membranes.Influence of sodium and sulphydryl groups on [3H]sulpiride binding sites in rat striatal membranes.Mechanistic insights into allosteric regulation of the A2A adenosine G protein-coupled receptor by physiological cations.Transfer of functional opiate receptors from membranes to recipient cells by polyethylene glycol-induced fusion.
P2860
Q24613589-1F761125-8CA2-431F-9C58-C9091FB0E6BEQ26860519-FDC485AA-8FC8-479E-971E-09647F14F672Q33910436-0B925355-C812-4349-ACCD-F067B8491062Q33977898-3BF43D44-85B0-410D-A039-46383FDBB545Q33979467-82A7E55A-333D-4ED4-912C-48B55399BE88Q34136307-8CDD13EE-4EE8-4EF4-96B2-7C57264D7FECQ34793269-99D5D42D-89F1-4B70-AFC4-026EE126AE01Q35410692-A23C1175-B8DA-4143-BB1D-33EE8492C2E9Q35456112-A8C68E65-697D-473E-BADD-A4CEB8BCC276Q36303022-76A595E8-8079-4E6A-8F68-BC6D12120C00Q36351588-88117A1E-FECC-4A1F-B0A5-7593FF34C047Q36641338-ACF16A6F-1F91-4C72-8819-5774319F6E00Q37326203-42176D2F-4EE7-435C-8543-B43100627474Q38360605-08ADDA20-1E32-4A18-8A3B-972B3BCE036EQ38718788-6A183C51-C2E8-46D2-A20A-949818400616Q39144106-970A39A2-6B06-4D0C-9701-CA50C8A7761FQ39248479-0D6E25E3-91D9-45FC-BF91-615F04C817B1Q39502652-D2C00BDC-7307-4799-95ED-87A91FF6D14EQ40945061-96ECE80C-2AFA-4568-91CE-D7BBD9ADD29FQ41153523-4E063543-91EE-4C16-9C82-3D3F576CA96BQ41662111-A24A43A3-9EC7-4841-8BEF-68B640688D23Q41877472-3C131E3F-5D13-40B4-9F7D-957C41DC6BCFQ44340383-07E8A358-0361-499F-8199-9DF250D6D5BDQ44342289-7DDCF378-8430-4746-81B8-69045E8F1153Q44346045-78E303FD-B479-40AB-85E2-617A13D56408Q44352952-1CF3D3F7-9DE2-44ED-BFF7-B44ADD0D3C75Q44353302-BBDF2803-0E53-4B1A-B42E-6E335E4AFBC9Q47708906-E2CD859A-1D1C-4FFF-8734-141C2949193BQ48620926-9975DA14-57CE-410D-8104-8C41D5958A59Q48949642-5DF3E7ED-1B70-4637-8806-659E81C3CFE1Q53831234-FE708D5B-7DBA-4FF5-B440-D892A66760E7Q55486726-C3F03B39-5E74-41E7-93F9-1278D2DAAA53
P2860
Kinetics of opiate receptor inactivation by sulfhydryl reagents: evidence for conformational change in presence of sodium ions.
description
1975 nî lūn-bûn
@nan
1975 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1975 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1975年の論文
@ja
1975年論文
@yue
1975年論文
@zh-hant
1975年論文
@zh-hk
1975年論文
@zh-mo
1975年論文
@zh-tw
1975年论文
@wuu
name
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@ast
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@en
type
label
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@ast
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@en
prefLabel
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@ast
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@en
P2860
P356
P1476
Kinetics of opiate receptor in ...... ge in presence of sodium ions.
@en
P2093
P2860
P304
P356
10.1073/PNAS.72.6.2404
P407
P577
1975-06-01T00:00:00Z