Standard
Integration of ion channel activity in calcium signalling pathways. / Sanders, Dale; Allen, Gethyn J.; Muir, Shelagh R. et al.
Cellular Integration of Signalling Pathways in Plant Development. ed. / Fiorella Lo Schiavo; Robert L. Last; Giorgio Morelli; Natasha V. Raikhel. Berlin: Springer Verlag, 1998. p. 47-58 (NATO Advanced Science Institutes Series, Series H, Cell Biology; Vol. 104).
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review
Harvard
Sanders, D, Allen, GJ, Muir, SR
& Roberts, SK 1998,
Integration of ion channel activity in calcium signalling pathways. in F Lo Schiavo, RL Last, G Morelli & NV Raikhel (eds),
Cellular Integration of Signalling Pathways in Plant Development. NATO Advanced Science Institutes Series, Series H, Cell Biology, vol. 104, Springer Verlag, Berlin, pp. 47-58, Conference of the NATO Advanced Study Institute on Cellular Integration of Signalling Pathways in Plant Development, Italy,
20/05/97.
https://doi.org/10.1007/978-3-642-72117-5_5
APA
Sanders, D., Allen, G. J., Muir, S. R.
, & Roberts, S. K. (1998).
Integration of ion channel activity in calcium signalling pathways. In F. Lo Schiavo, R. L. Last, G. Morelli, & N. V. Raikhel (Eds.),
Cellular Integration of Signalling Pathways in Plant Development (pp. 47-58). (NATO Advanced Science Institutes Series, Series H, Cell Biology; Vol. 104). Springer Verlag.
https://doi.org/10.1007/978-3-642-72117-5_5
Vancouver
Sanders D, Allen GJ, Muir SR
, Roberts SK.
Integration of ion channel activity in calcium signalling pathways. In Lo Schiavo F, Last RL, Morelli G, Raikhel NV, editors, Cellular Integration of Signalling Pathways in Plant Development. Berlin: Springer Verlag. 1998. p. 47-58. (NATO Advanced Science Institutes Series, Series H, Cell Biology). doi: 10.1007/978-3-642-72117-5_5
Author
Sanders, Dale ; Allen, Gethyn J. ; Muir, Shelagh R. et al. /
Integration of ion channel activity in calcium signalling pathways. Cellular Integration of Signalling Pathways in Plant Development. editor / Fiorella Lo Schiavo ; Robert L. Last ; Giorgio Morelli ; Natasha V. Raikhel. Berlin : Springer Verlag, 1998. pp. 47-58 (NATO Advanced Science Institutes Series, Series H, Cell Biology).
Bibtex
@inproceedings{d5ade62b552b44e69869775b8f780609,
title = "Integration of ion channel activity in calcium signalling pathways",
abstract = "Perception of a wide range of developmental and stress signals by plants results in rapid elevation of cytosolic free calcium ([Ca2+](c): Bush, 1995). The change in [Ca2+](c) is widely accepted to comprise an early step in signal transduction, with downstream targets of the Ca2+ signal including activation of calmodulin-dependent enzymes, calmodulin-domain protein kinases (CDPKs: Roberts & Harmon, 1992), or activation of ion channels (Schroeder & Hagiwara, 1989). Yet this simple notion gives rise to a number of equally elementary questions:From which compartment is Ca2+ mobilised?Which membrane pathways (ion channels) facilitate passive Ca2+ flow into the cytosol in response to the primary signal?How do these Ca2+-permeable channels interact with other cellular response elements (including other ion channels, ligands and phosphorylation cascades) to evoke the Ca2+ signal?How is stimulus specificity encoded in the Ca2+ signal?Answers to all four questions require as a first step an understanding of the properties of Ca2+-permeable channels in plant cells: which membranes the channels are located in, what activates (gates) them, and how their activities might be integrated with other signalling pathways in the cell. The remainder of this chapter highlights areas of achievement and of ignorance in our attempts to address these questions.",
keywords = "calcium channel, patch clamp, calcium-induced Ca2+ release, inositol 1,4,5-trisphosphate, cyclic ADP-ribose, phytochrome, anion channel",
author = "Dale Sanders and Allen, {Gethyn J.} and Muir, {Shelagh R.} and Roberts, {Stephen K.}",
year = "1998",
doi = "10.1007/978-3-642-72117-5_5",
language = "English",
isbn = "3540640142",
series = "NATO Advanced Science Institutes Series, Series H, Cell Biology",
publisher = "Springer Verlag",
pages = "47--58",
editor = "{Lo Schiavo}, Fiorella and Last, {Robert L.} and Giorgio Morelli and Raikhel, {Natasha V.}",
booktitle = "Cellular Integration of Signalling Pathways in Plant Development",
note = "Conference of the NATO Advanced Study Institute on Cellular Integration of Signalling Pathways in Plant Development ; Conference date: 20-05-1997 Through 30-05-1997",
}
RIS
TY - GEN
T1 - Integration of ion channel activity in calcium signalling pathways
AU - Sanders, Dale
AU - Allen, Gethyn J.
AU - Muir, Shelagh R.
AU - Roberts, Stephen K.
PY - 1998
Y1 - 1998
N2 - Perception of a wide range of developmental and stress signals by plants results in rapid elevation of cytosolic free calcium ([Ca2+](c): Bush, 1995). The change in [Ca2+](c) is widely accepted to comprise an early step in signal transduction, with downstream targets of the Ca2+ signal including activation of calmodulin-dependent enzymes, calmodulin-domain protein kinases (CDPKs: Roberts & Harmon, 1992), or activation of ion channels (Schroeder & Hagiwara, 1989). Yet this simple notion gives rise to a number of equally elementary questions:From which compartment is Ca2+ mobilised?Which membrane pathways (ion channels) facilitate passive Ca2+ flow into the cytosol in response to the primary signal?How do these Ca2+-permeable channels interact with other cellular response elements (including other ion channels, ligands and phosphorylation cascades) to evoke the Ca2+ signal?How is stimulus specificity encoded in the Ca2+ signal?Answers to all four questions require as a first step an understanding of the properties of Ca2+-permeable channels in plant cells: which membranes the channels are located in, what activates (gates) them, and how their activities might be integrated with other signalling pathways in the cell. The remainder of this chapter highlights areas of achievement and of ignorance in our attempts to address these questions.
AB - Perception of a wide range of developmental and stress signals by plants results in rapid elevation of cytosolic free calcium ([Ca2+](c): Bush, 1995). The change in [Ca2+](c) is widely accepted to comprise an early step in signal transduction, with downstream targets of the Ca2+ signal including activation of calmodulin-dependent enzymes, calmodulin-domain protein kinases (CDPKs: Roberts & Harmon, 1992), or activation of ion channels (Schroeder & Hagiwara, 1989). Yet this simple notion gives rise to a number of equally elementary questions:From which compartment is Ca2+ mobilised?Which membrane pathways (ion channels) facilitate passive Ca2+ flow into the cytosol in response to the primary signal?How do these Ca2+-permeable channels interact with other cellular response elements (including other ion channels, ligands and phosphorylation cascades) to evoke the Ca2+ signal?How is stimulus specificity encoded in the Ca2+ signal?Answers to all four questions require as a first step an understanding of the properties of Ca2+-permeable channels in plant cells: which membranes the channels are located in, what activates (gates) them, and how their activities might be integrated with other signalling pathways in the cell. The remainder of this chapter highlights areas of achievement and of ignorance in our attempts to address these questions.
KW - calcium channel
KW - patch clamp
KW - calcium-induced Ca2+ release
KW - inositol 1,4,5-trisphosphate
KW - cyclic ADP-ribose
KW - phytochrome
KW - anion channel
U2 - 10.1007/978-3-642-72117-5_5
DO - 10.1007/978-3-642-72117-5_5
M3 - Conference contribution/Paper
SN - 3540640142
SN - 9783642721199
T3 - NATO Advanced Science Institutes Series, Series H, Cell Biology
SP - 47
EP - 58
BT - Cellular Integration of Signalling Pathways in Plant Development
A2 - Lo Schiavo, Fiorella
A2 - Last, Robert L.
A2 - Morelli, Giorgio
A2 - Raikhel, Natasha V.
PB - Springer Verlag
CY - Berlin
T2 - Conference of the NATO Advanced Study Institute on Cellular Integration of Signalling Pathways in Plant Development
Y2 - 20 May 1997 through 30 May 1997
ER -