Sense and sensitivity - decoding calcium signalling across cellular, autocrine, paracrine and endocrine pathways in plant resilience.

Calcium (Ca) signalling plays a central role in plant immunity, as underscored by recent findings showing that many disease resistance mechanisms result in formation of Ca-permeable pores, and that optogenetic activation of Ca influx is sufficient to trigger immune responses. This review emphasizes on Ca decoding, i.e.

CAMTA3 repressor destabilization triggers TIR domain protein TN2-mediated autoimmunity in the Arabidopsis exo70B1 mutant.

Calcium-dependent protein kinases (CPKs) can decode and translate intracellular calcium signals to induce plant immunity. Mutation of the exocyst subunit gene EXO70B1 causes autoimmunity that depends on CPK5 and the Toll/interleukin-1 receptor (TIR) domain resistance protein TIR-NBS2 (TN2), where direct interaction with TN2 stabilizes CPK5 kinase activity. However, how the CPK5-TN2 interaction initiates downstream immune responses remains unclear.

Imaging of plant calcium-sensor kinase conformation monitors real time calcium-dependent decoding in planta.

Changes in cytosolic calcium (Ca2+) concentration are among the earliest reactions to a multitude of stress cues. While a plethora of Ca2+-permeable channels may generate distinct Ca2+ signatures and contribute to response specificities, the mechanisms by which Ca2+ signatures are decoded are poorly understood. Here, we developed a genetically encoded Förster resonance energy transfer (FRET)-based reporter that visualizes the conformational changes in Ca2+-dependent protein kinases (CDPKs/CPKs).

Plant Immune Memory in Systemic Tissue Does Not Involve Changes in Rapid Calcium Signaling.

Upon pathogen recognition, a transient rise in cytoplasmic calcium levels is one of the earliest events in plants and a prerequisite for defense initiation and signal propagation from a local site to systemic plant tissues. However, it is unclear if calcium signaling differs in the context of priming: Do plants exposed to a first pathogen stimulus and have consequently established systemic acquired resistance (SAR) display altered calcium responses to a second pathogen stimulus? Several calcium indicator systems including aequorin, YC3.6 or R-GECO1 have been used to document local calcium responses to the bacterial flg22 peptide but systemic calcium imaging within a single plant remains a technical challenge.

Lysophosphatidylcholine 17:1 from the Leaf Surface of the Wild Potato Species Inhibits .

Late blight, caused by the oomycete , is economically the most important foliar disease of potato. To assess the importance of the leaf surface, as the site of the first encounter of pathogen and host, we performed untargeted profiling by liquid chromatography-mass spectrometry of leaf surface metabolites of the susceptible cultivated potato and the resistant wild potato species . Hydroxycinnamic acid amides, typical phytoalexins of potato, were abundant on the surface of , but not on .

Molecular processes in an electrochemical clozapine sensor.

Selectivity presents a crucial challenge in direct electrochemical sensing. One example is schizophrenia treatment monitoring of the redox-active antipsychotic clozapine. To accurately assess efficacy, differentiation from its metabolite norclozapine-similar in structure and redox potential-is critical.