Anion channels in higher plants: functional characterization, molecular structure and physiological role

Anion channels are well documented in various tissues, cell types and membranes of algae and higher plants, and current evidence supports their central role in cell signaling, osmoregulation, plant nutrition and metabolism. It is the aim of this review to illustrate through a few selected examples t...

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Bibliographic Details
Published in:BBA - Biomembranes 2000-05, Vol.1465 (1), p.199-218
Main Authors: Barbier-Brygoo, Hélène, Vinauger, Marion, Colcombet, Jean, Ephritikhine, Geneviève, Frachisse, Jean-Marie, Maurel, Christophe
Format: Article
Language:English
Subjects:
Anion channel
Arabidopsis
Cell Compartmentation
Cell Membrane
Cell Membrane - metabolism
Chloride Channels
Chloride Channels - genetics
Chloride Channels - metabolism
CLC
Escherichia coli
Extracellular Space
Extracellular Space - metabolism
Genes, Plant
Humans
Ion Channels
Ion Channels - chemistry
Ion Channels - genetics
Ion Channels - metabolism
Life Sciences
Membrane Potentials
Patch-Clamp Techniques
Phylogeny
Plant
Plant Proteins
Plant Proteins - chemistry
Plant Proteins - genetics
Plant Proteins - metabolism
Plasma membrane
Saccharomyces cerevisiae
Signal Transduction
Tonoplast
Vegetal Biology
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Summary:Anion channels are well documented in various tissues, cell types and membranes of algae and higher plants, and current evidence supports their central role in cell signaling, osmoregulation, plant nutrition and metabolism. It is the aim of this review to illustrate through a few selected examples the variety of anion channels operating in plant cells and some of their regulation properties and unique physiological functions. In contrast, information on the molecular structure of plant anion channels has only recently started to emerge. Only a few genes coding for putative plant anion channels from the large chloride channel (CLC) family have been isolated, and current molecular data on these plant CLCs are presented and discussed. A major challenge remains to identify the genes encoding the various anion channels described so far in plant cells. Future prospects along this line are briefly outlined, as well as recent advances based on the use of knockout mutants in the model plant Arabidopsis thaliana to explore the physiological functions of anion channels in planta.
ISSN:0005-2736
0006-3002
0167-4889
1879-2642
DOI:10.1016/S0005-2736(00)00139-5