Salinity-induced calcium signaling and root adaptation in Arabidopsis require the calcium regulatory protein annexin1
2013
Salinity (NaCl) stress impairs plant growth and inflicts severe crop losses. In roots, increasing extracellular NaCl causes Ca 2+ influx to elevate cytosolic free Ca 2+ ([Ca 2+ ] cyt ) as a second messenger for adaptive signaling. Amplification of the signal involves plasma membrane reduced nicotinamide adenine dinucleotide phosphate oxidase activation, with the resultant reactive oxygen species triggering Ca 2+ influx. The genetic identities of the Ca 2+ -permeable channels involved in generating the [Ca 2+ ] cyt signal are unknown. Potential candidates in the model plant Arabidopsis ( Arabidopsis thaliana ) include annexin1 (AtANN1). Here, luminescent detection of [Ca 2+ ] cyt showed that AtANN1 responds to high extracellular NaCl by mediating reactive oxygen species-activated Ca 2+ influx across the plasma membrane of root epidermal protoplasts. Electrophysiological analysis revealed that root epidermal plasma membrane Ca 2+ influx currents activated by NaCl are absent from the Atann1 loss-of-function mutant. Both adaptive signaling and salt-responsive production of secondary roots are impaired in the loss-of-function mutant, thus identifying AtANN1 as a key component of root cell adaptation to salinity.
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