GABAA receptors are differentially sensitive to zinc: dependence on subunit composition. - Wikidata - awgldk - TriplyDB

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

http://www.wikidata.org/entity/Q41844887

about

Differential agonist sensitivity of glycine receptor alpha2 subunit splice variants A Recombinant Human Pluripotent Stem Cell Line Stably Expressing Halide-Sensitive YFP-I152L for GABAAR and GlyR-Targeted High-Throughput Drug Screening and Toxicity Testing.Two gamma2L subunit domains confer low Zn2+ sensitivity to ternary GABA(A) receptors Evidence for the formation of functionally distinct alphabetagammaepsilon GABA(A) receptors Interaction of H+ and Zn2+ on recombinant and native rat neuronal GABAA receptors Targeting the restricted α-subunit repertoire of airway smooth muscle GABAA receptors augments airway smooth muscle relaxation Acute cellular alterations in the hippocampus after status epilepticus.A deficit of functional GABA(A) receptors in neurons of beta 3 subunit knockout mice Hippocampal zinc infusion delays the development of afterdischarges and seizures in a kindling model of epilepsy Rapid seizure-induced reduction of benzodiazepine and Zn2+ sensitivity of hippocampal dentate granule cell GABAA receptors Synaptic GABAA receptor clustering without the γ2 subunit.Carbonic anhydrase I, II, and VI, blood plasma, erythrocyte and saliva zinc and copper increase after repetitive transcranial magnetic stimulation.Role of the PLC-related, catalytically inactive protein p130 in GABA(A) receptor function.Zinc-mediated inhibition of GABA(A) receptors: discrete binding sites underlie subtype specificity.Alcohol- and alcohol antagonist-sensitive human GABAA receptors: tracking δ subunit incorporation into functional receptors.Assembly and cell surface expression of heteromeric and homomeric gamma-aminobutyric acid type A receptors.Altered kinetics and benzodiazepine sensitivity of a GABAA receptor subunit mutation [gamma 2(R43Q)] found in human epilepsy.Menthol enhances phasic and tonic GABAA receptor-mediated currents in midbrain periaqueductal grey neurons.Pharmacology of structural changes at the GABA(A) receptor transmitter binding site.Trafficking and potential assembly patterns of epsilon-containing GABAA receptors.Antagonistic action of pitrazepin on human and rat GABA(A) receptors.Modulation of glycine receptors in retinal ganglion cells by zinc.Tyrosine phosphorylation of GABAA receptor γ2-subunit regulates tonic and phasic inhibition in the thalamus.Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor Functional characterization of the 1,5-benzodiazepine clobazam and its major active metabolite N-desmethylclobazam at human GABA(A) receptors expressed in Xenopus laevis oocytes.Potentiation, activation and blockade of GABAA receptors of clonal murine hypothalamic GT1-7 neurones by propofol.Pharmacological modulation of adrenal medullary GABAA receptor: consistent with its subunit composition.Zn2+ ions: modulators of excitatory and inhibitory synaptic activity.Cationic modulation of rho 1-type gamma-aminobutyrate receptors expressed in Xenopus oocytes.Deleterious Rare Variants Reveal Risk for Loss of GABAA Receptor Function in Patients with Genetic Epilepsy and in the General Population.Characteristics of concatemeric GABA(A) receptors containing α4/δ subunits expressed in Xenopus oocytes.Effects of Zn2+ on wild and mutant neuronal alpha7 nicotinic receptors.Zn2+ potentiates excitatory action of ATP on mammalian neurons Common Anesthetic-binding Site for Inhibition of Pentameric Ligand-gated Ion Channels Zolpidem is a potent stoichiometry-selective modulator of α1β3 GABAA receptors: evidence of a novel benzodiazepine site in the α1-α1 interface.Zinc Selectively Blocks Neurosteroid-Sensitive Extrasynaptic δGABAA Receptors in the Hippocampus.Endogenous zinc depresses GABAergic transmission via T-type Ca(2+) channels and broadens the time window for integration of glutamatergic inputs in dentate granule cells.Human α1β3γ2L gamma-aminobutyric acid type A receptors: High-level production and purification in a functional state.Altered Channel Conductance States and Gating of GABAA Receptors by a Pore Mutation Linked to Dravet Syndrome.Potency of GABA at human recombinant GABA(A) receptors expressed in Xenopus oocytes: a mini review.

P2860

Q24671675-8E216C0F-72AB-4BE1-931F-6FF30CF41888 Q27308741-DDA0D880-8F9B-470F-87A9-A2B0792FEC01 Q28361694-E0D9BA10-E7A2-4641-87BA-A617BFB30D76 Q28364329-09409EED-D8DF-4649-8758-0D716830F2A9 Q28379393-8EBF25C1-30ED-4CC7-82AF-EC9E52AB8BB7 Q30407474-6C0F6CD2-56F7-4BBA-8B63-5DBDAE70E4BD Q33696608-086051DF-8730-4681-8C41-48A3B0DE3C46 Q33759074-D9D4CD0B-D94A-459F-A351-F6C04084E1E1 Q33817889-FC9636CB-7024-46F6-9A0A-FF3364F16852 Q33943268-F985FD4A-BE1A-4665-BD7E-702B77E45131 Q33969791-EAA4328B-6DA6-4280-A7A6-8CD41425B541 Q34083371-63418522-6396-4C4A-99D1-00C68187409B Q34085948-28EA57A4-06AF-4C18-8923-AE6F21A04647 Q34184057-64F409BA-DEFD-4E7C-9E3E-7C5FA598B7DA Q34309904-EAD9996B-3894-4F8F-B14F-8C2631932342 Q34370307-57B64DD4-CB05-4236-8B59-C1A3213C2B11 Q34381755-39553FCF-533B-4E01-99BC-66A181C6F8F0 Q34399901-DCEF4F0E-B2C9-4128-81FC-95EB860C19B6 Q34588664-27EED624-7306-483D-8746-1F78A4D5B1A8 Q34666487-5110C95A-1D48-471F-9A98-8D6193277A97 Q35028778-CCBAE158-A4E7-466E-88DF-0E25EC350791 Q35070222-67685EB8-0428-458D-A2FC-C6903A9E1075 Q35450484-AF6399AC-67CF-4C08-B209-44717D3735A9 Q35583015-EB26D395-12B2-489C-9717-3CF525C811FD Q35583676-A019AF94-1FAC-457B-A8FD-0909B68B271A Q35872910-5D0836B9-7A69-4BD0-A1AE-33F75CEE23B4 Q35873040-02FC76C6-E86D-44EF-A905-A81D08BAB5A6 Q35883459-8A74A5E9-046A-4145-BE95-8F90B93B87AA Q36000329-24439520-E478-43B7-B004-C69FF2C22E47 Q36131243-7258912D-514B-4C1A-ABF3-FC3847DC3619 Q36147323-CF8901DC-CCFE-421C-8DDD-1575ED5E4DD9 Q36290537-183CF126-D937-4BCE-89AD-247AFDD4B36F Q36520493-2929ED3F-9D63-4044-AA97-17F258CD014A Q36586214-F0CCD167-DBB7-4774-9367-BB3161414D4A Q37040099-A068BBF3-C31A-4A01-A91F-ECE4E4C6F575 Q37147577-711AE083-A35A-46CE-B0F4-1685A4D9760A Q37520123-C1E13C8A-0241-4E92-9800-5E9D2C22D88E Q37588964-C4DDFA2F-9B74-4DEF-BCC3-F86683036FF9 Q37634832-1FD9E7F1-6D57-42BB-A1E4-896EBF23F607 Q38079427-747D75DC-6325-4377-A98C-DDB7133D7086

P2860

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

http://www.wikidata.org/entity/Q41844887

description

1991 nî lūn-bûn

@nan

1991年の論文

@ja

1991年論文

@yue

1991年論文

@zh-hant

1991年論文

@zh-hk

1991年論文

@zh-mo

1991年論文

@zh-tw

1991年论文

@wuu

1991年论文

@zh

1991年论文

@zh-cn

name

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

@en

type

label

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

@en

prefLabel

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

@en

P1433

Q41844887-4AABD24E-4C31-4250-9DF5-8E09AC0FFF17

P1476

Q41844887-8DB8FA6E-7351-44DB-903B-B219953D3FDC

P2093

Q41844887-3727E131-5763-4E3E-857C-5C16C563658A

Q41844887-58757D3A-BA21-4323-8BA2-EB1F7248C30D

Q41844887-7A4B7431-F530-4BEB-B831-B88EB86A923F

Q41844887-ED449B8F-2E70-4198-A016-F141387F1A35

P2860

Q41844887-00BED451-B387-49B1-9B28-B49FFBB7DEFB

Q41844887-75570E9F-C266-49D8-A5AD-F605E2FE0725

Q41844887-7C4D3DDD-FA4B-4864-941F-F9E77A8351D1

Q41844887-7D49A2DB-EAA8-497D-A5C1-02D9D266A541

Q41844887-8540046B-D760-4188-9F22-291858D54622

Q41844887-985A05E8-7EEA-4BC2-BCF2-1BBDB5938D26

Q41844887-C432B4B7-71FE-425A-92F7-DDEEA6CB0B3A

Q41844887-F35C59D4-C979-48EB-A879-C0BB2C7F64C1

Q41844887-F6DB4310-5765-4917-AECF-6A237BBBC058

P304

Q41844887-7785BF2B-AEBB-4F48-A99F-345E6EEA65E5

P31

Q41844887-27315CC0-8912-4090-BD10-49133FA31332

P356

Q41844887-F05DB2E0-2526-4031-83A2-1B6D43E6CACE

P407

Q41844887-3B3D2625-C62B-4757-9E0F-A9F68BAF1AF9

P433

Q41844887-5CB1AF6B-FC17-4D5C-869F-69AF23BB1B56

P478

Q41844887-2EEC8AE8-21C2-4E3C-9758-24877A3D9ECA

P577

Q41844887-D723FE0E-D0A7-4100-BEE7-3937746D1638

P5875

Q41844887-04FBBAF7-BE92-4F0B-AF7C-CCA7BBFAC048

P698

Q41844887-C09D0D8C-CB39-4ABD-AE44-CC52ECCE3291

P932

Q41844887-EEDD2580-0F9C-4184-90B1-597F2FDD3DDF

P356

J.1476-5381.1991.TB12337.X

P1433

British Journal of Pharmacology

P1476

GABAA receptors are differentially sensitive to zinc: dependence on subunit composition.

@en

P2093

R L Huganir

http://www.w3.org/2001/XMLSchema#string

S J Moss

http://www.w3.org/2001/XMLSchema#string

T G Smart

http://www.w3.org/2001/XMLSchema#string

X Xie

http://www.w3.org/2001/XMLSchema#string

P2860

Importance of a novel GABAA receptor subunit for benzodiazepine pharmacology

GABAA-receptor expressed from rat brain alpha- and beta-subunit cDNAs displays potentiation by benzodiazepine receptor ligands

Functional and molecular distinction between recombinant rat GABAA receptor subtypes by Zn2+

Uncultured lobster muscle, cultured neurons and brain slices: the neurophysiology of zinc.

Cloned GABA receptors are maintained in a stable cell line: allosteric and channel properties.

Functional properties of recombinant rat GABAA receptors depend upon subunit composition.

Differential effect of zinc on the vertebrate GABAA-receptor complex

Generation of two forms of the gamma-aminobutyric acidA receptor gamma 2-subunit in mice by alternative splicing.

Micromolar concentrations of Zn2+ antagonize NMDA and GABA responses of hippocampal neurons.

P304

1837-1839

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1111/J.1476-5381.1991.TB12337.X

http://www.w3.org/2001/XMLSchema#string

P407

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

103

http://www.w3.org/2001/XMLSchema#string

P577

1991-08-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

21500878

http://www.w3.org/2001/XMLSchema#string

P698

1655141

http://www.w3.org/2001/XMLSchema#string

P932

1908216

http://www.w3.org/2001/XMLSchema#string