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RESEARCH PRODUCT

Calcium signatures and signaling in cytosol and organelles of tobacco cells induced by plant defense elicitors

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Calcium signatures induced by two elicitors of plant defense reactions, namely cryptogein and oligogalacturonides, were monitored at the subcellular level, using apoaequorin-transformed Nicotiana tabacum var Xanthi cells, in which the apoaequorin calcium sensor was targeted either to cytosol, mitochondria or chloroplasts. Our study showed that both elicitors induced specific Ca2+ signatures in each compartment, with the most striking difference relying on duration. Common properties also emerged from the analysis of Ca2+ signatures: both elicitors induced a biphasic cytosolic [Ca2+] elevation together with a single mitochondrial [Ca2+] elevation concomitant with the first cytosolic [Ca2+] peak. In addition, both elicitors induced a chloroplastic [Ca2+] elevation peaking later in comparison to cytosolic [Ca2+] elevation. In cryptogein-treated cells, pharmacological studies indicated that IP3 should play an important role in Ca2+ signaling contrarily to cADPR or nitric oxide, which have limited or no effect on [Ca2+] variations. Our data also showed that, depending on [Ca2+] fluxes at the plasma membrane, cryptogein triggered a mitochondrial respiration increase and affected excess energy dissipation mechanisms in chloroplasts. Altogether the results indicate that cryptogein profoundly impacted cell functions at many levels, including organelles. (C) 2012 Elsevier Ltd. All rights reserved.