Differential modulation of rod and cone calcium currents in tiger salamander retina by D2 dopamine receptors and cAMP. - Wikidata - awgldk - TriplyDB

Differential modulation of rod and cone calcium currents in tiger salamander retina by D2 dopamine receptors and cAMP.

Differential modulation of rod and cone calcium currents in tiger salamander retina by D2 dopamine receptors and cAMP.

http://www.wikidata.org/entity/Q50508877

about

Chloride equilibrium potential in salamander cones The dynamic architecture of photoreceptor ribbon synapses: cytoskeletal, extracellular matrix, and intramembrane proteins Retrieval of context-associated memory is dependent on the Ca(v)3.2 T-type calcium channel.Beta-adrenergic-regulated phosphorylation of the skeletal muscle Ca(V)1.1 channel in the fight-or-flight response.Synaptic transmission at retinal ribbon synapses Kinetics of exocytosis is faster in cones than in rods.RhoA inactivation prevents photoreceptor axon retraction in an in vitro model of acute retinal detachment.Calcium regulation in photoreceptors.Transport-mediated synapses in the retina.Inhibition of adult rat retinal ganglion cells by D1-type dopamine receptor activation.Histamine receptors of cones and horizontal cells in Old World monkey retinas.Bioelectrical function and structural assessment of the retina in patients with early stages of Parkinson's disease (PD).Extrasynaptic exocytosis and its mechanisms: a source of molecules mediating volume transmission in the nervous system.cAMP controls rod photoreceptor sensitivity via multiple targets in the phototransduction cascade.Cone photoreceptors in bass retina use two connexins to mediate electrical coupling.Immunocytochemical analysis of photoreceptors in the tiger salamander retina Kinetics of synaptic transmission at ribbon synapses of rods and cones.Olfactory stimulation selectively modulates the OFF pathway in the retina of zebrafish Adenosine inhibits voltage-dependent Ca2+ influx in cone photoreceptor terminals of the tiger salamander retina.Essential roles of dopamine D4 receptors and the type 1 adenylyl cyclase in photic control of cyclic AMP in photoreceptor cells.Inhibitory effect of somatostatin-14 on L-type voltage-gated calcium channels in cultured cone photoreceptors requires intracellular calcium Role of dopamine in distal retina.Dopamine D4 receptors regulate intracellular calcium concentration in cultured chicken cone photoreceptor cells: relationship to dopamine receptor-mediated inhibition of cAMP formation.Synaptic Ribbon Active Zones in Cone Photoreceptors Operate Independently from One Another.Dopamine D1 receptor expression is bipolar cell type-specific in the mouse retina.D2-like dopamine receptors promote interactions between calcium and chloride channels that diminish rod synaptic transfer in the salamander retina.Endogenous adenosine reduces glutamatergic output from rods through activation of A2-like adenosine receptors.Photoreceptor coupling is controlled by connexin 35 phosphorylation in zebrafish retina.Regulation of photoreceptor gap junction phosphorylation by adenosine in zebrafish retina.A Presynaptic Group III mGluR Recruits Gβγ/SNARE Interactions to Inhibit Synaptic Transmission by Cone Photoreceptors in the Vertebrate Retina.Weak endogenous Ca2+ buffering supports sustained synaptic transmission by distinct mechanisms in rod and cone photoreceptors in salamander retina.Cannabinoid receptor activation differentially modulates ion channels in photoreceptors of the tiger salamander.Structure and functional connections of presynaptic terminals in the vertebrate retina revealed by activity-dependent dyes and confocal microscopy.A2 adenosine receptors inhibit calcium influx through L-type calcium channels in rod photoreceptors of the salamander retina.Calcium channels in rat horizontal cells regulate feedback inhibition of photoreceptors through an unconventional GABA- and pH-sensitive mechanism.Dopamine modulation of calcium currents in pyloric neurons of the lobster stomatogastric ganglion.Reciprocal modulation of calcium dynamics at rod and cone photoreceptor synapses by nitric oxide.Inhibitory interaction of cannabinoid CB1 receptor and dopamine D2 receptor agonists on voltage-gated currents of goldfish cones.

P2860

Q24809784-1F39AAE3-EEEC-40F3-AEE9-2A65CA417215 Q26865168-857F7760-5A6A-4435-B2AA-5D32436B65FF Q34123666-01A87758-E71B-4A12-A53C-8C259EF308F8 Q34276693-5C75D0E8-A0A2-483C-886C-9A1EF88A920D Q34410593-0E5DBC9F-4651-425C-B7C4-5CAA947D4DA2 Q34410597-7440DE45-B858-435A-BAE0-D609CF9A9FBE Q34646834-A0B692B9-4491-412C-BE8E-AC25D3CA0053 Q34772941-D1B40F1A-72E7-4601-AD55-FBCFE0551E27 Q34882598-8C7C2CF9-F480-48E3-9F09-3A42494E88F3 Q35610158-4364535F-CC83-4253-AE87-63BA63A683B2 Q35738830-76AEC293-51A4-485E-81E7-C12D3F2A65C1 Q36053364-9FD504E4-45CA-4D12-B1A1-4EBA3A22D50F Q36205864-B0B3BB37-D67A-4145-98F5-6861AF7FB91E Q36277874-067E6480-31BC-4B6F-961E-F083754B8206 Q36419668-C4E187B1-AB85-4760-803F-54B54F4BC1E0 Q36879162-DC7E48BD-1E8C-4997-A972-C5EE2B3C8D11 Q36978896-4B025BFF-503B-4DDA-AD22-F4403438E531 Q37011172-8330F99B-528A-428B-8F36-82989857A82A Q37080067-5291C87A-9B73-4287-8C1E-56EBFB24C278 Q37307766-242F4AFA-86FA-4BAB-A372-7B7868B6E7A0 Q37353209-56A5FE4D-350F-492A-A408-9E9B2769A0E6 Q38204258-32EF1DDA-7460-40DD-A17E-F47F386DB97D Q40794974-F3575AA5-CD63-4C0F-9C25-7A5A85B9E296 Q40974335-B36C2044-84A8-4D89-846E-51221B7C8415 Q41144525-F52A3955-F542-4595-8F9A-7F23E874F6B2 Q41382711-BFFC14EE-8335-42BE-8CE2-D723EE4954EF Q42170411-FAA2B218-89D5-439B-9FB8-323482A108E6 Q42703314-5AD81B16-5F27-404E-9775-D42F87FAAF98 Q42746931-3F9D5E7C-D9F7-4FF4-92BD-FACA80A8C312 Q43097353-6273D528-4930-4030-8A2A-8BE742E10756 Q43227355-D6F45BD5-E700-4D7F-91AB-FD5A94BC0DFD Q43456804-CA68B9A8-BA45-4A6D-80A2-F2D04DDFD6F6 Q43700586-20B70C4D-4EC4-47E2-9C6D-AE227CE79122 Q43850145-4907FE9A-2887-4526-A66E-5F99A1308F75 Q44018195-D0BE120F-DCC4-4886-B379-F035E7AF23DD Q44540564-DD5EDBB2-D0D8-4AF9-9F97-F5C39145024A Q44777498-24A4AA9E-4D3B-4627-91A1-AA51C1DD6072 Q44891780-2035415A-1767-453F-8B2B-24D0404D0514

P2860

Differential modulation of rod and cone calcium currents in tiger salamander retina by D2 dopamine receptors and cAMP.

http://www.wikidata.org/entity/Q50508877

description

2000 nî lūn-bûn

@nan

2000年の論文

@ja

2000年学术文章

@wuu

2000年学术文章

@zh

2000年学术文章

@zh-cn

2000年学术文章

@zh-hans

2000年学术文章

@zh-my

2000年学术文章

@zh-sg

2000年學術文章

@yue

2000年學術文章

@zh-hant

name

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@en

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@nl

type

label

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@en

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@nl

prefLabel

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@en

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@nl

P1433

Q50508877-8866862A-C8B3-4B52-AADC-8A7B51A5BDFE

P1476

Q50508877-7A87D375-66FC-4A79-9705-EFFC39BCAF27

P2093

Q50508877-20ED1A5C-A6AB-417B-804C-12F0070973EE

P2860

Q50508877-17879B95-357B-4203-AEDD-90E1298A5CE3

Q50508877-1986C0E1-6C0A-416B-B942-EF5ACF89662D

Q50508877-1E141856-8130-4E00-BD0A-D956EBB81867

Q50508877-21D1BBA0-961A-48F1-8A92-6D23A42D53B1

Q50508877-3DDA5E96-473F-4F4D-9B1B-5C6D05916485

Q50508877-3ED7CA53-E25B-4857-8032-D32F3278237E

Q50508877-4948DD1A-6B1F-41AB-9F6E-B3BD75FFC038

Q50508877-49CFA009-A93A-4457-A163-54D446280822

Q50508877-5439C5B1-CAF9-4635-81A1-6F36626629BB

Q50508877-624F85A7-2F48-4E03-A612-D92794CFDE91

P304

Q50508877-7738FD4E-79F5-4166-974F-291514124834

P31

Q50508877-A489FD45-B155-46FF-ADF2-D04C35F72079

P356

Q50508877-7A4B4F27-B1D2-4781-AB5F-6BDF99022381

P407

Q50508877-AE3F5F3E-AC6D-4F3D-959D-0F851D3B52B7

P433

Q50508877-88835730-4D14-4726-94ED-DDCCE9E22074

P478

Q50508877-30B8A4B6-9BAC-4A0D-8B34-56E9DCFA4EF4

P50

Q50508877-25862795-CA1D-437A-A06D-67187322F91C

P577

Q50508877-C48E71A4-55D1-480D-A37C-C82D0C5F48D3

P698

Q50508877-743CDE80-9CDD-488C-9D33-5939EC1364DA

P921

Q50508877-ccd1fd75-fcee-4654-bc73-b8c6a0b5aff7

P356

J.1460-9568.2000.00235.X

P1433

European Journal of Neuroscience

P1476

Differential modulation of rod ...... 2 dopamine receptors and cAMP.

@en

P2093

S L Stella

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

P2860

An L-type calcium-channel gene mutated in incomplete X-linked congenital stationary night blindness

Loss-of-function mutations in a calcium-channel alpha1-subunit gene in Xp11.23 cause incomplete X-linked congenital stationary night blindness

Molecular cloning of multiple subtypes of a novel rat brain isoform of the alpha 1 subunit of the voltage-dependent calcium channel.

Dopamine receptor localization in the mammalian retina.

Glutamate receptors and circuits in the vertebrate retina.

Transmission along and between rods in the tiger salamander retina.

Extracellular dopamine concentration in the retina of the clawed frog, Xenopus laevis

The dihydropyridine-sensitive calcium channel subtype in cone photoreceptors

Interactions of protons with single open L-type calcium channels. Location of protonation site and dependence of proton-induced current fluctuations on concentration and species of permeant ion.

Multiple visual pigments in a photoreceptor of the salamander retina.

P304

3537-3548

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

P31

scholarly article

P356

10.1046/J.1460-9568.2000.00235.X

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

P407

P433

10

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

P478

12

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

P50

Wallace B Thoreson

P577

2000-10-01T00:00:00Z

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

P698

11029623

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

P921