Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
about
Identification and functional consequences of a new mutation (E155G) in the gene for GCAP1 that causes autosomal dominant cone dystrophy.Cloning and characterization of a potassium-dependent sodium/calcium exchanger in DrosophilaThree-dimensional structure of guanylyl cyclase activating protein-2, a calcium-sensitive modulator of photoreceptor guanylyl cyclasesPhotoreceptor signaling: supporting vision across a wide range of light intensities.Simultaneous recording of receptor current and intraciliary Ca2+ concentration in salamander olfactory receptor cellsA light-dependent increase in free Ca2+ concentration in the salamander rod outer segmentStructural diversity of neuronal calcium sensor proteins and insights for activation of retinal guanylyl cyclase by GCAP1.Time course and magnitude of the calcium release induced by bright light in salamander rods.Measurement of cytoplasmic calcium concentration in the rods of wild-type and transducin knock-out mice.Light-dependent changes in outer segment free-Ca2+ concentration in salamander cone photoreceptors.Membrane guanylyl cyclase complexes shape the photoresponses of retinal rods and cones.Photopigment quenching is Ca2+ dependent and controls response duration in salamander L-cone photoreceptors.Ca(2+)-binding proteins in the retina: structure, function, and the etiology of human visual diseases.The Na+/Ca2+, K+ exchanger NCKX4 is required for efficient cone-mediated visionCalcium diffusion coefficient in rod photoreceptor outer segmentsDynamic behavior of rod photoreceptor disks.Role of guanylyl cyclase modulation in mouse cone phototransduction.Multiple steps of phosphorylation of activated rhodopsin can account for the reproducibility of vertebrate rod single-photon responses.Toward a unified model of vertebrate rod phototransductioncGMP in mouse rods: the spatiotemporal dynamics underlying single photon responses.Onset of feedback reactions underlying vertebrate rod photoreceptor light adaptationRecoverin depletion accelerates cone photoresponse recoveryA new mouse model for stationary night blindness with mutant Slc24a1 explains the pathophysiology of the associated human disease.Optical recording of light-evoked calcium signals in the functionally intact retina.Occupancy of the chromophore binding site of opsin activates visual transduction in rod photoreceptorsProlongation of actions of Ca2+ early in phototransduction by 9-demethylretinal.Diffusion of the second messengers in the cytoplasm acts as a variability suppressor of the single photon response in vertebrate phototransduction.Reprogramming progeny cells of embryonic RPE to produce photoreceptors: development of advanced photoreceptor traits under the induction of neuroD.Dynamics of mouse rod phototransduction and its sensitivity to variation of key parametersThe effect of recombinant recoverin on the photoresponse of truncated rod photoreceptors.Light responses in rods of vitamin A-deprived XenopusPreparation of living isolated vertebrate photoreceptor cells for fluorescence imagingStructural and molecular bases of rod photoreceptor morphogenesis and disease.Mapping functional domains of the guanylate cyclase regulator protein, GCAP-2.Olfactory response termination involves Ca2+-ATPase in vertebrate olfactory receptor neuron cilia.Computational analysis of vertebrate phototransduction: combined quantitative and qualitative modeling of dark- and light-adapted responses in amphibian rods.In intact cone photoreceptors, a Ca2+-dependent, diffusible factor modulates the cGMP-gated ion channels differently than in rods.Analysis of Ca++-dependent gain changes in PDE activation in vertebrate rod phototransduction.Origin and control of the dominant time constant of salamander cone photoreceptors.Free magnesium concentration in salamander photoreceptor outer segments.
P2860
Q24535806-825C4FF0-E66C-4288-A3B3-695C15BB1419Q24684797-225E4B7D-9A93-4319-BAB4-18F4804838FCQ27618785-9C0A7ED3-206E-4EAD-A1C2-9B2C1A62E1D8Q27687060-72CA2ECB-98B8-46A4-8A87-3002FBC6C99EQ28354012-3A4E3724-D8AC-4958-824A-C70C087313D9Q28362823-E66C2CD4-1F2C-44F4-9BF0-19AC933799AEQ30786544-844921B6-A84B-404C-8BC3-6A69E771AFCDQ30840506-174DB092-2C96-4CFB-8974-12AF3697144DQ30840512-90F5CD75-95A5-4E1F-AE75-744CF9B73AB6Q31917965-D50FFE8F-DAB5-4C23-84B3-A21D9E82FBCEQ33694090-8A376D14-D334-429D-AF79-61DF3B818111Q33763172-60D2290F-69CC-4EDA-89A7-0D04F59DD76CQ33866720-8892682D-3B43-424C-80B9-5548449D4D7CQ33915576-31995F27-36EC-4FD4-B96E-A458661AD7C1Q34177154-2605B4D5-0C0F-471E-994F-48F66FEE7116Q34178671-63CD84E0-73C7-44DF-B90D-D2E43D385887Q34189068-2AA67650-6BC2-44A5-BABD-C1B39700AE8EQ34686895-44858713-D3B2-4C11-BC05-46091CCA9913Q34693762-1B670624-FD14-4909-8147-515EC9418935Q35145924-3B81DDCD-F46F-4C00-B9EC-903AAD668CCFQ35834737-6CFB012B-EC23-4BB4-B1D1-537CA34961D6Q36011774-A31C6099-C3E8-48E7-9241-3399B08247D2Q36089415-217029DA-2FDF-46A9-A63A-47776853EFF1Q36390176-383571CD-1A54-49FF-B2F7-B334FE4EB672Q36420421-E54082DA-E1B2-41E3-A386-9DDBC26522ECQ36444779-0F864BFD-F11B-44B9-85EE-3E5FBCBE8422Q36538241-E3BB37E6-4C7C-4F41-9B87-209CE0B7553CQ36943367-7B024540-8C0E-4459-A047-4F0339575151Q37323264-D3CE19C8-75BC-48EE-B602-E623151A8FEFQ37429951-A87EC5EA-354D-4159-BE60-F584AF6DF01AQ37473832-4475A9A4-6BE5-4D30-8B16-F422A5B35139Q38758340-EC04AB80-A6E9-4918-A1FD-73D8CE0A14EDQ38879791-5061CD33-B7D1-480F-92D1-069176479A3DQ40962108-F77C7C12-F1EB-4539-A52A-4F341C148107Q41762312-CF7AC9BE-D35F-4665-B6BE-9C020B3B8E45Q41881189-F901AB2F-CC44-4BEB-9833-ECF1C58C19C4Q41938356-51CDC96E-344E-40A8-9B7F-3B36EA72B1A1Q42182613-06308036-15FA-4A8E-A624-2FEFF9521A9CQ42256734-FB1EB630-A9B1-4743-9187-405C8B5C2933Q42450393-FBE9F7C2-00B8-4713-B069-A3DB2AF9DDED
P2860
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
description
1998 nî lūn-bûn
@nan
1998 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@ast
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@en
type
label
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@ast
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@en
prefLabel
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@ast
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@en
P2860
P356
P1476
Bleached pigment produces a maintained decrease in outer segment Ca2+ in salamander rods
@en
P2093
A P Sampath
H R Matthews
P2860
P356
10.1085/JGP.111.1.53
P577
1998-01-01T00:00:00Z