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Literature DB >> 16657392

Active H Efflux from Cells of Low-salt Barley Roots during Salt Accumulation.

Abstract

Measurements were made of net H(+) loss from low-salt barley roots accumulating salt. Comparison of rates of loss from roots in different concentrations of KCl showed that H(+) loss increased in the same way as the Mechanism II component of salt uptake. This H(+) loss appeared to be coupled to salt uptake and was not due to increased respiration or metabolic breakdown of sugars. In view of the large negative potential of the cells (-60 millivolts), it is suggested that the H(+) loss is due to an outward proton transport process.

Entities: Chemical Species

Year: 1970 PMID： 16657392 PMCID： PMC396512 DOI： 10.1104/pp.45.6.787

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

9 in total

16 in total

1. Effect of pH and Auxin on Chloride Uptake into Avena Coleoptile Cells.

Authors: B Rubinstein
Journal: Plant Physiol Date: 1974-12 Impact factor: 8.340

2. Fluxes of h and k in corn roots : characterization and stoichiometries using ion-selective microelectrodes.

Authors: I A Newman; L V Kochian; M A Grusak; W J Lucas
Journal: Plant Physiol Date: 1987-08 Impact factor: 8.340

3. The role of acidification in gibberellic acid- and fusicoccin-induced elongation growth of lettuce hypocotyl sections.

Authors: D A Stuart; R L Jones
Journal: Planta Date: 1978-01 Impact factor: 4.116

9. Relation between permeability to potassium and sodium ions and fusicoccin-stimulated hydrogen-ion efflux in barley roots.

Authors: M G Pitman; N Schaefer; R A Wildes
Journal: Planta Date: 1975-01 Impact factor: 4.116

10. Inhibition of ion uptake to barley roots by cycloheximide.

Authors: R A Wildes; M G Pitman; N Schaefer
Journal: Planta Date: 1976-01 Impact factor: 4.116

Active H Efflux from Cells of Low-salt Barley Roots during Salt Accumulation.

1. Sodium absorption by barley roots: role of the dual mechanisms of alkali cation transport.

2. The Effect of pH and Temperature on the Absorption Of Potassium and Bromide by Barley Roots.

3. Relationship of Cell Sap pH to Organic Acid Change During Ion Uptake.

4. Loss of organic acids, amino acids, k, and cl from barley roots treated anaerobically and with metabolic inhibitors.

5. Simulation of Cl Uptake by Low-salt Barley Roots as a Test of Models of Salt Uptake.

6. The influence of H+ on the membrane potential and ion fluxes of Nitella.

7. Cation-anion balance during potassium and sodium absorption by barley roots.

8. Localization of hydrogen ion and chloride ion fluxes in Nitella.

9. The influence of the intracellular potential on potassium uptake by beetroot tissue.

1. Effect of pH and Auxin on Chloride Uptake into Avena Coleoptile Cells.

2. Fluxes of h and k in corn roots : characterization and stoichiometries using ion-selective microelectrodes.

3. The role of acidification in gibberellic acid- and fusicoccin-induced elongation growth of lettuce hypocotyl sections.

4. Auxin-induced hydrogen ion excretion: correlation with growth, and control by external pH and water stress.

5. Sucrose and proton cotransport in Ricinus cotyledons : II. H(+) efflux and associated K(+) uptake.

Review 6. The proton pumps of the plasmalemma and the tonoplast of higher plants.

7. Effect of diethylstilbestrol on ion fluxes in oat roots.

8. Effects of Helminthosporium carbonum Toxin on Absorption of Solutes by Corn Roots.

9. Relation between permeability to potassium and sodium ions and fusicoccin-stimulated hydrogen-ion efflux in barley roots.

10. Inhibition of ion uptake to barley roots by cycloheximide.