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Literature DB >> 16657220

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

Abstract

Computing techniques are used to simulate the course of uptake of K(+), Na(+), and Cl(-) by low-salt roots. Measurements of the fluxes of these ions in high-salt roots are used to calculate membrane permeabilities, which are then used to calculate cell uptake. In this way it is possible to test the predictive value of different models for the location of sites of salt uptake in the cell.On the basis of the permeability data used, it is suggested that anion transport at the plasmalemma must be larger than that provided by Mechanism I and that there is a need for transport of both cations and anions at the tonoplast. To account for the observation that the level of salt at equilibrium in the tissue is very nearly independent of concentration, it is suggested that there must be some feedback from vacuolar content to rate of transport at the tonoplast.

Entities: Chemical Species

Year: 1969 PMID： 16657220 PMCID： PMC396281 DOI： 10.1104/pp.44.10.1417

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

11 in total

4. 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

Review 5. Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation.

Authors: José M Colmenero-Flores; Juan D Franco-Navarro; Paloma Cubero-Font; Procopio Peinado-Torrubia; Miguel A Rosales
Journal: Int J Mol Sci Date: 2019-09-21 Impact factor: 5.923

5 in total

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

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

2. Influence of the Counter-ion on the Absorption Isotherm for Chloride at Low Temperature.

3. THE DEVELOPMENT OF DIFFERENTIAL PERMEABILITY IN ISOLATED STELES OF CORN ROOTS.

4. Compartmentation and exchange of chloride in carrot root tissue.

5. Active sodium and potassium transport in cells of barley roots.

6. Dual mechanisms of ion uptake in relation to vacuolation in corn roots.

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

8. Ion transport in Nitellopsis obtusa.

9. Cation effects on chloride fluxes and accumulation levels in barley roots.

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

1. Regulation of cytoplasmic and vacuolar volumes by plant cells in suspension culture.

2. Electrical potential differences in cells of barley roots and their relation to ion uptake.

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

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

Review 5. Chloride as a Beneficial Macronutrient in Higher Plants: New Roles and Regulation.