ins and outs of cellular Ca2+ transport

The cytoplasmic Ca2+ signals that participate in nearly all aspects of plant growth and development encode information as binary switches or information-rich signatures. They are the result of influx (thermodynamically passive) and efflux (thermodynamically active) activities mediated by membrane tr...

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Veröffentlicht in:	Current opinion in plant biology 2011-12, Vol.14 (6), p.715-720
Hauptverfasser:	Spalding, Edgar P, Harper, Jeffrey F
Format:	Artikel
Sprache:	eng
Schlagworte:	adenosinetriphosphatase antiporters Biological Transport Ca2-transporting ATPase Calcium Calcium Channels Cell Compartmentation cell death growth and development ion channels metabolism Models, Biological plant growth Signal Transduction
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container_title	Current opinion in plant biology
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creator	Spalding, Edgar P Harper, Jeffrey F
description	The cytoplasmic Ca2+ signals that participate in nearly all aspects of plant growth and development encode information as binary switches or information-rich signatures. They are the result of influx (thermodynamically passive) and efflux (thermodynamically active) activities mediated by membrane transport proteins. On the influx side, confirming the molecular identities of Ca2+-permeable channels is still a major research topic. Cyclic nucleotide-gated channels and glutamate receptor-like channels are candidates well supported by evidence. On the efflux side, CAX antiporters and P-type ATPase pumps are the principal molecular entities. Both of these active transporters load Ca2+ into specific compartments and have the potential to reduce the magnitude and duration of a Ca2+ transient. Recent studies indicate calmodulin-activated Ca2+ pumps in endomembrane systems can dampen the magnitude and duration of a Ca2+ transient that could otherwise grow into a Ca2+ cell death signature. An important challenge following molecular characterization of the influx and efflux pathways is to understand how they are coordinately regulated to produce a Ca2+ switch or encode specific information into a Ca2+ signature.
doi_str_mv	10.1016/j.pbi.2011.08.001
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subjects	adenosinetriphosphatase antiporters Biological Transport Ca2-transporting ATPase Calcium Calcium Channels Cell Compartmentation cell death growth and development ion channels metabolism Models, Biological plant growth Signal Transduction
title	ins and outs of cellular Ca2+ transport
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