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[Exchange Mechanism of Ion Transport in Corn Roots]

Overview
Journal Planta
Specialty Biology
Date 2014 Feb 14
PMID 24522869
Citations 3
Authors
J Weigl
Affiliations
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Abstract

The effect of the external anion concentration on the rate of efflux of anions from corn roots was investigated by following the efflux of labeled anions in shaken solutions of different concentrations of unlabeled anions.Rates of efflux of phosphate and chloride from corn roots are rather independent of external concentrations of the anions as long as these concentrations are low.Rates of efflux of phosphate and chloride from corn roots at high external concentrations of these ions were found to be a function of the external concentrations.Stimulation of efflux is specific: phosphate efflux is stimulated only by phosphate and not by chloride in the medium and vice versa. Since it appears unlikely that this effect is due to specific changes in the permeability of the membranes, it may by concluded that the specific stimulation of efflux by external ions as observed in this investigation is caused by ion exchange at mobile membrane units (WEIGL, 1967a). Reasons for this hypothesis are discussed and alternative hypotheses such as that calling for the protoplasm to function as ion exchanger with various specific binding sites are examined. The latter hypothesis remembers to the theory that "the ion carrier is the protoplasm itself" (OVERSTREET, 1957; BANGE and MEIJER, 1966), which diminishes the importance of membranes as limiting boundaries.

Citing Articles

[Efflux and transport of Cl(-) and Rb (+) in corn roots. Action of external KCl, Ca(++), EDTA and IAA].

Weigl J Planta. 2014; 84(4):311-23.

PMID: 24515496 DOI: 10.1007/BF00396423.

[Fluxes, accumulation and transport of Cl(-) in excised corn roots].

Weigl J Planta. 2014; 98(4):315-22.

PMID: 24493456 DOI: 10.1007/BF00380232.

[Sucrose metabolizing enzymes in roots].

Vieweg G Planta. 2014; 116(4):347-59.

PMID: 24458258 DOI: 10.1007/BF00390858.

References
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2.
Weigl J . [Water structure and permeation: energy of activation and the molecular mechanism of water permeation]. Z Naturforsch B. 1967; 22(8):885-90. View
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Luttge U, Laties G . Absorption and long distance transport by isolated stele of maize roots in relation to the dual mechanisms of ion absorption. Planta. 2014; 74(2):173-87. DOI: 10.1007/BF00388327. View
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Jackson P, Edwards D . Cation effects on chloride fluxes and accumulation levels in barley roots. J Gen Physiol. 1966; 50(1):225-41. PMC: 2225633. DOI: 10.1085/jgp.50.1.225. View
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Weigl J . [Evidence for mobile transport structures (carriers) involved in ion transport in plants and kinetics of anion transport in elodea in light and dark]. Planta. 2014; 75(4):327-42. DOI: 10.1007/BF00387356. View