Potassium activity in photoreceptors, glial cells and extracellular space in the drone retina: changes during photostimulation.
about
Honeybee retinal glial cells transform glucose and supply the neurons with metabolic substrateSpatial buffering of potassium ions in brain extracellular spaceK+ accumulation in the space between giant axon and Schwann cell in the squid Alloteuthis. Effects of changes in osmolarity.Diffusion and consumption of oxygen in the superfused retina of the drone (Apis mellifera) in darkness.Light-induced reduction in excitation efficiency in the trp mutant of DrosophilaExtracellular K+ activity changes related to electroretinogram components. I. Amphibian (I-type) retinasRelationship between light sensitivity and intracellular free Ca concentration in Limulus ventral photoreceptors. A quantitative study using Ca-selective microelectrodesThe response to monochromatic light flashes of the oxygen consumption of honeybee drone photoreceptors.B-wave of the electroretinogram. A reflection of ON bipolar cell activityA lingering elevation of Cai accompanies inhibition of inositol 1,4,5 trisphosphate-induced Ca release in Limulus ventral photoreceptors.Kinetics of oxygen consumption after a single flash of light in photoreceptors of the drone (Apis mellifera).Reaccumulation of [K+]o in the toad retina during maintained illuminationFunctions of glial cells in the retina of the honeybee drone.Mechanisms of spreading depolarization in vertebrate and insect central nervous systemsX-ray microanalysis of elements in frozen-hydrated sections of an electrogenic K+ transport system: the posterior midgut of tobacco hornworm (Manduca sexta) in vivo and in vitro.Potassium channels in crustacean glial cells.Relations between slow extracellular potential changes, glial potassium buffering, and electrolyte and cellular volume changes during neuronal hyperactivity in cat brain.Neuron-glial trafficking of NH4+ and K+: separate routes of uptake into glial cells of bee retina.A glia-neuron alanine/ammonium shuttle is central to energy metabolism in bee retina.Model of potassium dynamics in the central nervous system.Dynamic variations of the brain cell microenvironment in relation to neuronal hyperactivity.Glial and neuronal Na+-K+ pump in epilepsy.Modification of potassium movement through the retina of the drone (Apis mellifera male) by glial uptake.Increase in glial intracellular K+ in drone retina caused by photostimulation but not mediated by an increase in extracellular K+.Chloride enters glial cells and photoreceptors in response to light stimulation in the retina of the honey bee drone.Bias current modifies the selectivity of liquid membrane ion-selective microelectrodes.Free concentrations of Na, K, and Cl in the retina of the honeybee drone: stimulus-induced redistribution and homeostasis.Oxygen uptake occurs faster than sodium pumping in bee retina after a light flash.Chloride-dependent transport of NH4+ into bee retinal glial cells.Microprobe study of toad urinary bladder in absence of serosal K+
P2860
Q33672938-B49BEF8C-3522-4A67-960A-D1A8DE25785CQ34173170-0D92EBC3-3069-4B23-B4FD-9D30F1741B39Q34259938-30CAAD60-FE1C-4112-95FB-FD9D14202650Q36408565-12E29936-AA89-4CAC-99F1-9EFD42565AEFQ36409198-757EEC11-1E4A-4D4B-B197-20FDEDB5D6B7Q36409279-B8B00A4B-2AC9-41AE-868B-3E3EE8583F53Q36409284-F1CF65FC-ADF9-49F9-AD95-4464B61CC5B2Q36409668-0D12C60F-59BC-4C94-BA07-26312CF79410Q36410131-59154E2C-F8EF-41C5-AF3D-DE6F7AB4029FQ36411303-E5605FAE-C88E-403F-814F-E489516EEABBQ36433237-7501A19A-B76B-4CF7-9E34-90745E4398B3Q36433548-95917AB5-B9A5-451C-AE9B-6F13BF574F1FQ38252265-D78F8E1F-5DD5-4077-84D4-A4C1E90DDB48Q38873942-DAAFDA6D-C3F0-4B73-AA16-9F76C8264A92Q42076383-4D45BA1C-03A5-4519-813E-6A8B55C324F8Q43453958-26FBADA1-FE7A-42EA-AB44-C40A6B96B901Q43631423-12D36582-3C30-4C10-9E86-3450040F6D54Q44791928-735A2C33-EE33-4018-815C-489BD0EFC585Q46752611-68D09B9E-B0ED-4293-9C1A-7C137753646EQ48158200-51DCE929-9AD6-4758-B5C6-3C684BC5A737Q48408764-94BA0FFA-F12F-47CF-8DB2-6D37E0CFECB3Q48700179-504F4287-7B0D-4E31-8EEF-D5BE43C680D7Q48778948-79F10D2B-DEDE-4FB8-AF09-D0D3FAF352ECQ52453326-BAE64418-EDF9-4EB2-85D8-F2F5FCA74C4CQ52453336-260810F5-44CC-42AA-BA0C-FBD7138FBE11Q52461823-E1523DBA-9872-43A0-A71F-9F7CA642C771Q52462564-59CF55CF-EA48-46A6-B0A4-BA10EA6B15C0Q52528250-869861F7-5AA2-4301-B718-DA4330C7D483Q52568293-83E10EB1-9845-4FBC-AD42-5F956FD1CA58Q55967459-3C45DC35-DEBF-489C-BACF-0671F06DBDA5
P2860
Potassium activity in photoreceptors, glial cells and extracellular space in the drone retina: changes during photostimulation.
description
1979 nî lūn-bûn
@nan
1979年の論文
@ja
1979年論文
@yue
1979年論文
@zh-hant
1979年論文
@zh-hk
1979年論文
@zh-mo
1979年論文
@zh-tw
1979年论文
@wuu
1979年论文
@zh
1979年论文
@zh-cn
name
Potassium activity in photorec ...... anges during photostimulation.
@en
type
label
Potassium activity in photorec ...... anges during photostimulation.
@en
prefLabel
Potassium activity in photorec ...... anges during photostimulation.
@en
P2860
P1476
Potassium activity in photorec ...... anges during photostimulation.
@en
P2093
Tsacopoulos M
P2860
P304
P356
10.1113/JPHYSIOL.1979.SP012788
P407
P577
1979-05-01T00:00:00Z