Guard cells in fern stomata are connected by plasmodesmata, but control cytosolic Ca(2+) levels autonomously
L. Voss, S. McAdam, M. Knoblauch, J. Rathje, T. Brodribb, R. Hedrich, and M. Roelfsema. New Phytol, 219 (1):
206-215(2018)Voss, Lena J
McAdam, Scott A M
Knoblauch, Michael
Rathje, Jan M
Brodribb, Tim
Hedrich, Rainer
Roelfsema, M Rob G
eng
Research Support, Non-U.S. Gov't
England
2018/04/15
New Phytol. 2018 Jul;219(1):206-215. doi: 10.1111/nph.15153. Epub 2018 Apr 14..
DOI: 10.1111/nph.15153
Abstract
Recent studies have revealed that some responses of fern stomata to environmental signals differ from those of their relatives in seed plants. However, it is unknown whether the biophysical properties of guard cells differ fundamentally between species of both clades. Intracellular micro-electrodes and the fluorescent Ca(2+) reporter FURA2 were used to study voltage-dependent cation channels and Ca(2+) signals in guard cells of the ferns Polypodium vulgare and Asplenium scolopendrium. Voltage clamp experiments with fern guard cells revealed similar properties of voltage-dependent K(+) channels as found in seed plants. However, fluorescent dyes moved within the fern stomata, from one guard cell to the other, which does not occur in most seed plants. Despite the presence of plasmodesmata, which interconnect fern guard cells, Ca(2+) signals could be elicited in each of the cells individually. Based on the common properties of voltage-dependent channels in ferns and seed plants, it is likely that these key transport proteins are conserved in vascular plants. However, the symplastic connections between fern guard cells in mature stomata indicate that the biophysical mechanisms that control stomatal movements differ between ferns and seed plants.
Voss, Lena J
McAdam, Scott A M
Knoblauch, Michael
Rathje, Jan M
Brodribb, Tim
Hedrich, Rainer
Roelfsema, M Rob G
eng
Research Support, Non-U.S. Gov't
England
2018/04/15
New Phytol. 2018 Jul;219(1):206-215. doi: 10.1111/nph.15153. Epub 2018 Apr 14.
%0 Journal Article
%1 voss2018guard
%A Voss, L. J.
%A McAdam, S. A. M.
%A Knoblauch, M.
%A Rathje, J. M.
%A Brodribb, T.
%A Hedrich, R.
%A Roelfsema, M. R. G.
%D 2018
%J New Phytol
%K Biological Transport myOwn
%N 1
%P 206-215
%R 10.1111/nph.15153
%T Guard cells in fern stomata are connected by plasmodesmata, but control cytosolic Ca(2+) levels autonomously
%U https://www.ncbi.nlm.nih.gov/pubmed/29655174
%V 219
%X Recent studies have revealed that some responses of fern stomata to environmental signals differ from those of their relatives in seed plants. However, it is unknown whether the biophysical properties of guard cells differ fundamentally between species of both clades. Intracellular micro-electrodes and the fluorescent Ca(2+) reporter FURA2 were used to study voltage-dependent cation channels and Ca(2+) signals in guard cells of the ferns Polypodium vulgare and Asplenium scolopendrium. Voltage clamp experiments with fern guard cells revealed similar properties of voltage-dependent K(+) channels as found in seed plants. However, fluorescent dyes moved within the fern stomata, from one guard cell to the other, which does not occur in most seed plants. Despite the presence of plasmodesmata, which interconnect fern guard cells, Ca(2+) signals could be elicited in each of the cells individually. Based on the common properties of voltage-dependent channels in ferns and seed plants, it is likely that these key transport proteins are conserved in vascular plants. However, the symplastic connections between fern guard cells in mature stomata indicate that the biophysical mechanisms that control stomatal movements differ between ferns and seed plants.
@article{voss2018guard,
abstract = {Recent studies have revealed that some responses of fern stomata to environmental signals differ from those of their relatives in seed plants. However, it is unknown whether the biophysical properties of guard cells differ fundamentally between species of both clades. Intracellular micro-electrodes and the fluorescent Ca(2+) reporter FURA2 were used to study voltage-dependent cation channels and Ca(2+) signals in guard cells of the ferns Polypodium vulgare and Asplenium scolopendrium. Voltage clamp experiments with fern guard cells revealed similar properties of voltage-dependent K(+) channels as found in seed plants. However, fluorescent dyes moved within the fern stomata, from one guard cell to the other, which does not occur in most seed plants. Despite the presence of plasmodesmata, which interconnect fern guard cells, Ca(2+) signals could be elicited in each of the cells individually. Based on the common properties of voltage-dependent channels in ferns and seed plants, it is likely that these key transport proteins are conserved in vascular plants. However, the symplastic connections between fern guard cells in mature stomata indicate that the biophysical mechanisms that control stomatal movements differ between ferns and seed plants.},
added-at = {2024-02-15T15:08:22.000+0100},
author = {Voss, L. J. and McAdam, S. A. M. and Knoblauch, M. and Rathje, J. M. and Brodribb, T. and Hedrich, R. and Roelfsema, M. R. G.},
biburl = {https://www.bibsonomy.org/bibtex/2431b07433f0c76079148e074a8c816cd/jvsi_all},
doi = {10.1111/nph.15153},
interhash = {558576297e7def53031bcb86b69a1be9},
intrahash = {431b07433f0c76079148e074a8c816cd},
issn = {1469-8137 (Electronic)
0028-646X (Linking)},
journal = {New Phytol},
keywords = {Biological Transport myOwn},
note = {Voss, Lena J
McAdam, Scott A M
Knoblauch, Michael
Rathje, Jan M
Brodribb, Tim
Hedrich, Rainer
Roelfsema, M Rob G
eng
Research Support, Non-U.S. Gov't
England
2018/04/15
New Phytol. 2018 Jul;219(1):206-215. doi: 10.1111/nph.15153. Epub 2018 Apr 14.},
number = 1,
pages = {206-215},
timestamp = {2024-02-15T15:08:22.000+0100},
title = {Guard cells in fern stomata are connected by plasmodesmata, but control cytosolic Ca(2+) levels autonomously},
type = {Journal Article},
url = {https://www.ncbi.nlm.nih.gov/pubmed/29655174},
volume = 219,
year = 2018
}