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Literature DB >> 24482272

Electrical properties of parenchymal cell membranes in the oat coleoptile.

M H Goldsmith¹, H R Fernádez, T H Goldsmith.

Abstract

Parenchymal cells of oat (Avena sativa) coleoptiles had an osmotic concentration of 410 mM (determined by plasmolysis); of this only 22 mM was K(+) and 1 mM Na(+) (flame photometry). Cells were impaled with micropipette electrodes. Iontophoretic injection of the dye Niagara sky-blue from the micropipette showed that the tip of the electrode penetrated the vacuole. When sections of tissue were immersed in a solution of 22 mM KCl, 1 mM CaCl2, and 50 mM glucose, average membrane potential was found to be 38.5 mV inside negative specific membrane resistance was ∼510 Ω cm(2), and specific membrane capacitance, ∼2 μf cm(-2). The cell membranes showed <25% retification and no electrical excitability. Electrotonic coupling of adjacent cells could not be demonstrated.

Entities: Chemical Species

Year: 1972 PMID： 24482272 DOI： 10.1007/BF00386616

Source DB: PubMed Journal: Planta ISSN： 0032-0935 Impact factor: 4.116

18 in total

5. Relationship of Cell Transmembrane Electropotential to Potassium and Sodium Accumulation Ratios in Oat and Pea Seedlings.

Authors: B Etherton
Journal: Plant Physiol Date: 1963-09 Impact factor: 8.340

3. Light-triggered membrane potential oscillations and electric coupling in variegated photosynthetic mutants of Oenothera.

Authors: E Brinckmann; U Lüttge
Journal: Planta Date: 1974-03 Impact factor: 4.116

4. The interpretation of intracellular measurements of membrane potential, resistance, and coupling in cells of higher plants.

Authors: T H Goldsmith; M H Goldsmith
Journal: Planta Date: 1978-01 Impact factor: 4.116

Electrical properties of parenchymal cell membranes in the oat coleoptile.

1. Excitable cells in Mimosa.

2. Transmembrane potential measurements of cells of higher plants as related to salt uptake.

3. Mineral ion contents and cell transmembrane electropotentials of pea and oat seedling tissue.

4. Effect of Indole-3-acetic Acid on Membrane Potentials of Oat Coleoptile Cells.

5. Relationship of Cell Transmembrane Electropotential to Potassium and Sodium Accumulation Ratios in Oat and Pea Seedlings.

6. Low-resistance junctions between cells in embryos and tissue culture.

7. Physiology of electrotonic junctions.

8. Plasmodesmata in Nitella translucens: structure and electrical resistance.

9. Electrical properties of Neurospora crassa. Respiration and the intracellular potential.

10. Osmotic Behavior of Oat Coleoptile Tissue in Relation to Growth.

1. Phytochrome control of electrical potentials and intercellular coupling in oat-coleoptile tissue.

2. An electrophysiological study of regeneration in Acetabularia mediterranea.

3. Light-triggered membrane potential oscillations and electric coupling in variegated photosynthetic mutants of Oenothera.

4. The interpretation of intracellular measurements of membrane potential, resistance, and coupling in cells of higher plants.

5. The contribution of tonoplast and plasma membrane to the electrical properties of a higher-plant cell.

6. Electrical evidence for rhythmic changes in the cotransport of sucrose and hydrogen ions in Samanea pulvini.

7. Rapid response of the plasma-membrane potential in oat coleoptiles to auxin and other weak acids.

8. Electrical membrane potential and resistance in photoautotrophic suspension cells of Chenopodium rubrum L.