Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
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Development of a 3D finite element model of lens microcirculationMultifunctional transporter models: lessons from the transport of water, sugars, and ring compounds by GLUTs.The aquaporin zero puzzle.Visualizing ocular lens fluid dynamics using MRI: manipulation of steady state water content and water fluxes.Diffusion of extracellular K+ can synchronize bursting oscillations in a model islet of LangerhansGap junctions.Electrostatic properties of fiber cell membranes from the frog lensThe localization of transport properties in the frog lens.Steady-state current flow through gap junctions. Effects on intracellular ion concentrations and fluid movement.Lens intracellular hydrostatic pressure is generated by the circulation of sodium and modulated by gap junction coupling.Feedback Regulation of Intracellular Hydrostatic Pressure in Surface Cells of the Lens.The effect of size and species on lens intracellular hydrostatic pressure.The cause and consequence of fiber cell compaction in the vertebrate lens.The effects of GPX-1 knockout on membrane transport and intracellular homeostasis in the lens.A computer model of lens structure and function predicts experimental changes to steady state properties and circulating currents.Magnetic resonance and confocal imaging of solute penetration into the lens reveals a zone of restricted extracellular space diffusion
P2860
Q28714159-A238EBE8-0A03-4C17-AB59-54DDC74C9A52Q30193464-F0549FAE-AEEC-4E24-B93D-AB303514A474Q33358716-B29389B9-1C41-4390-AD20-36CBD326AC5BQ33905117-19CDB08F-C87F-4916-82D3-2939E2B5F06EQ34019504-B059B16A-730F-464A-8A36-B1F11ACBE5C2Q34020827-718E1492-1402-42B1-BA1A-8C901A123CB0Q34126546-F55D6C8A-89A1-453E-8C4A-F2070EC34DBFQ34257007-658042B4-E77A-4407-AD17-F7F295A645E0Q34260296-DC689FE5-150D-4EAC-BAA8-98192071030FQ35018159-4FDA3405-06E4-42F1-B6F1-A4E74E838F12Q36275505-2AA37DA1-B1CE-41AD-BB83-0D22C84D4F5DQ36530589-3399A613-F902-4589-BEFC-AB7F624FCD5BQ37626934-69FA0EAC-C108-4BF9-90C3-1DA73B774B58Q42427476-AF8B2DFB-54E5-4CDC-A47C-773E7FA74228Q42851623-F255C48B-F6A1-4F7F-B595-AAAD64C505B2Q57184227-DA6C99EF-CDAB-401F-8AE3-2143ACCF56AF
P2860
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
description
1985 nî lūn-bûn
@nan
1985 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1985 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1985年の論文
@ja
1985年論文
@yue
1985年論文
@zh-hant
1985年論文
@zh-hk
1985年論文
@zh-mo
1985年論文
@zh-tw
1985年论文
@wuu
name
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@ast
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@en
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@nl
type
label
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@ast
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@en
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@nl
prefLabel
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@ast
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@en
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@nl
P2860
P1433
P1476
Steady-state voltages, ion fluxes, and volume regulation in syncytial tissues.
@en
P2093
R T Mathias
P2860
P304
P356
10.1016/S0006-3495(85)83799-1
P407
P577
1985-09-01T00:00:00Z