Discontinuities in the temperature function of transmembrane water transport in Chara: relation to ion transport

Discontinuities in the temperature function of transmembrane water transport in Chara: relation to ion transport

The NMR (nuclear magnetic resonance) method of Conlon and Outhred (1972) was used to measure diffusional water permeability of the nodal cells of the green alga Chara gymnophylla. Two local minima at 15 and 30 degreesC of diffusional water permeability (Pd) were observed delimiting a region of low a...

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Veröffentlicht in:The Journal of membrane biology 1999-02, Vol.167 (3), p.267-274
Hauptverfasser: Andjus, P.R. (Institute of General and Physical Chemistry, Belgrade, FR Yugoslavia.), Djurisic, M.R, Zujovic, Z, Begovic, N, Srejic, R, Vucelic, D
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Sprache:eng
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4-Chloromercuribenzenesulfonate - pharmacology
ABSORCION DE AGUA
ABSORPTION D'EAU
CHARA GYMNOPHYLLA
CHARACEAE
Chlorophyta - drug effects
Chlorophyta - metabolism
Deuterium Oxide - metabolism
ELECTROPHYSIOLOGY
Enzyme Inhibitors - pharmacology
Ethacrynic Acid - pharmacology
Gadolinium DTPA - metabolism
In Vitro Techniques
Ion Transport - drug effects
Ion Transport - physiology
Magnetic Resonance Spectroscopy
MEMBRANE POTENTIAL
Mercuric Chloride - pharmacology
Molecular Probes - metabolism
Patch-Clamp Techniques
POTASIO
POTASSIUM
Potassium Channels - physiology
Potassium Chloride - pharmacology
Signal Transduction
Sulfhydryl Reagents - pharmacology
Temperature
Tetraethylammonium - pharmacology
Water - metabolism
WATER UPTAKE
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container_end_page 274
container_issue 3
container_start_page 267
container_title The Journal of membrane biology
container_volume 167
creator Andjus, P.R. (Institute of General and Physical Chemistry, Belgrade, FR Yugoslavia.)
Djurisic, M.R
Zujovic, Z
Begovic, N
Srejic, R
Vucelic, D
description The NMR (nuclear magnetic resonance) method of Conlon and Outhred (1972) was used to measure diffusional water permeability of the nodal cells of the green alga Chara gymnophylla. Two local minima at 15 and 30 degreesC of diffusional water permeability (Pd) were observed delimiting a region of low activation energy (Ea around 20 kJ/mol) indicative of an optimal temperature region for membrane transport processes. Above and below this region water transport was of a different type with high Ea (about 70 kJ/mol). The triphasic temperature dependence of the water transport suggested a channel-mediated transport at 15-30 degreesC and lipid matrix-mediated transport beyond this region. The K+ channel inhibitor, tetraethylammonium as well as the Cl- channel inhibitor, ethacrynic acid, diminished Pd in the intermediate temperature region by 54 and 40%, respectively. The sulfhydryl agent p-(chloromercuri-benzensulfonate) the water transport inhibitor in erythrocytes also known to affect K+ transport in Chara, only increased Pd below 15 degreesC. In high external potassium ('K-state') water transport minima were pronounced. The role of K+ channels as sensors of the optimal temperature limits was further emphasized by showing a similar triphasic temperature dependence of the conductance of a single K+ channel also known to cotransport water, which originated from cytoplasmic droplets (putatively tonoplast) of C. gymnophylla. The minimum of K+ single channel conductance at around 15 degreesC, unlike the one at 30 degreesC, was sensitive to changes of growth temperature underlining membrane lipid involvement. The additional role of intracellular (membrane?) water in the generation of discontinuities in the above thermal functions was suggested by an Arrhenius plot of the cellular water relaxation rate which showed breaks at 13 and 29 degreesC.
doi_str_mv 10.1007/s002329900491
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The triphasic temperature dependence of the water transport suggested a channel-mediated transport at 15-30 degreesC and lipid matrix-mediated transport beyond this region. The K+ channel inhibitor, tetraethylammonium as well as the Cl- channel inhibitor, ethacrynic acid, diminished Pd in the intermediate temperature region by 54 and 40%, respectively. The sulfhydryl agent p-(chloromercuri-benzensulfonate) the water transport inhibitor in erythrocytes also known to affect K+ transport in Chara, only increased Pd below 15 degreesC. In high external potassium ('K-state') water transport minima were pronounced. The role of K+ channels as sensors of the optimal temperature limits was further emphasized by showing a similar triphasic temperature dependence of the conductance of a single K+ channel also known to cotransport water, which originated from cytoplasmic droplets (putatively tonoplast) of C. gymnophylla. 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Above and below this region water transport was of a different type with high Ea (about 70 kJ/mol). The triphasic temperature dependence of the water transport suggested a channel-mediated transport at 15-30 degreesC and lipid matrix-mediated transport beyond this region. The K+ channel inhibitor, tetraethylammonium as well as the Cl- channel inhibitor, ethacrynic acid, diminished Pd in the intermediate temperature region by 54 and 40%, respectively. The sulfhydryl agent p-(chloromercuri-benzensulfonate) the water transport inhibitor in erythrocytes also known to affect K+ transport in Chara, only increased Pd below 15 degreesC. In high external potassium ('K-state') water transport minima were pronounced. The role of K+ channels as sensors of the optimal temperature limits was further emphasized by showing a similar triphasic temperature dependence of the conductance of a single K+ channel also known to cotransport water, which originated from cytoplasmic droplets (putatively tonoplast) of C. gymnophylla. The minimum of K+ single channel conductance at around 15 degreesC, unlike the one at 30 degreesC, was sensitive to changes of growth temperature underlining membrane lipid involvement. 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(Institute of General and Physical Chemistry, Belgrade, FR Yugoslavia.)</creatorcontrib><creatorcontrib>Djurisic, M.R</creatorcontrib><creatorcontrib>Zujovic, Z</creatorcontrib><creatorcontrib>Begovic, N</creatorcontrib><creatorcontrib>Srejic, R</creatorcontrib><creatorcontrib>Vucelic, D</creatorcontrib><collection>AGRIS</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>The Journal of membrane biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Andjus, P.R. 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Two local minima at 15 and 30 degreesC of diffusional water permeability (Pd) were observed delimiting a region of low activation energy (Ea around 20 kJ/mol) indicative of an optimal temperature region for membrane transport processes. Above and below this region water transport was of a different type with high Ea (about 70 kJ/mol). The triphasic temperature dependence of the water transport suggested a channel-mediated transport at 15-30 degreesC and lipid matrix-mediated transport beyond this region. The K+ channel inhibitor, tetraethylammonium as well as the Cl- channel inhibitor, ethacrynic acid, diminished Pd in the intermediate temperature region by 54 and 40%, respectively. The sulfhydryl agent p-(chloromercuri-benzensulfonate) the water transport inhibitor in erythrocytes also known to affect K+ transport in Chara, only increased Pd below 15 degreesC. In high external potassium ('K-state') water transport minima were pronounced. The role of K+ channels as sensors of the optimal temperature limits was further emphasized by showing a similar triphasic temperature dependence of the conductance of a single K+ channel also known to cotransport water, which originated from cytoplasmic droplets (putatively tonoplast) of C. gymnophylla. The minimum of K+ single channel conductance at around 15 degreesC, unlike the one at 30 degreesC, was sensitive to changes of growth temperature underlining membrane lipid involvement. The additional role of intracellular (membrane?) water in the generation of discontinuities in the above thermal functions was suggested by an Arrhenius plot of the cellular water relaxation rate which showed breaks at 13 and 29 degreesC.</abstract><cop>United States</cop><pmid>9929379</pmid><doi>10.1007/s002329900491</doi><tpages>8</tpages></addata></record>
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subjects 4-Chloromercuribenzenesulfonate - pharmacology
ABSORCION DE AGUA
ABSORPTION D'EAU
CHARA GYMNOPHYLLA
CHARACEAE
Chlorophyta - drug effects
Chlorophyta - metabolism
Deuterium Oxide - metabolism
ELECTROPHYSIOLOGY
Enzyme Inhibitors - pharmacology
Ethacrynic Acid - pharmacology
Gadolinium DTPA - metabolism
In Vitro Techniques
Ion Transport - drug effects
Ion Transport - physiology
Magnetic Resonance Spectroscopy
MEMBRANE POTENTIAL
Mercuric Chloride - pharmacology
Molecular Probes - metabolism
Patch-Clamp Techniques
POTASIO
POTASSIUM
Potassium Channels - physiology
Potassium Chloride - pharmacology
Signal Transduction
Sulfhydryl Reagents - pharmacology
Temperature
Tetraethylammonium - pharmacology
Water - metabolism
WATER UPTAKE
title Discontinuities in the temperature function of transmembrane water transport in Chara: relation to ion transport
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