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Tetraethylammonium
Tetraethylammonium
Extracellular Ca2+ Ameliorates NaCl-Induced K+ Loss from Arabidopsis Root and Leaf Cells by Controlling Plasma Membrane K+-Permeable Channels
Calcium / Patch-clamp and imaging techniques / Biological Sciences / Plant Physiology / Plant / Osmotic pressure / Potassium / Plant Roots / Arabidopsis / Homeostasis / Sodium / Potassium Channels / Protoplasts / Tetraethylammonium / Electric Conductivity / Sodium Chloride / Plasma Membrane / Plant Leaves / Osmotic pressure / Potassium / Plant Roots / Arabidopsis / Homeostasis / Sodium / Potassium Channels / Protoplasts / Tetraethylammonium / Electric Conductivity / Sodium Chloride / Plasma Membrane / Plant Leaves
Iontophoretic transport across a multiple membrane system
Computer Simulation / Diffusion / Permeability / Pharmaceutical Sciences / Urea / Drug Delivery Systems / Iontophoresis / Electrophoresis / Sodium / Tetraethylammonium / Osmosis / Ion Exchange / Mannitol / Drug Delivery Systems / Iontophoresis / Electrophoresis / Sodium / Tetraethylammonium / Osmosis / Ion Exchange / Mannitol
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