Abstract
The Arabidopsis (Arabidopsis thaliana) calmodulin-binding transcription activator3 (CAMTA3) is a repressor of immunity-related genes but an activator of cold-induced or general stress-responsive genes in plants. Post-transcriptional or posttranslational mechanisms have been proposed to control CAMTA3 functions in different stress responses. Here, we show that treatment with the bacterial flg22 elicitor induces CAMTA3 phosphorylation, which is accompanied by its destabilization and nuclear export. Two flg22-responsive mitogen-activated protein kinases (MAPKs), MPK3 and MPK6, directly phosphorylate CAMTA3, with the phospho-sites contributing to CAMTA3 degradation and suppression of downstream target gene expression. However, the flg22-induced nuclear export and phospho-mobility shift can still be observed for the CAMTA3 phospho-null variant of the MAPK-modified sites, suggesting additional flg22-responsive kinases might be involved. Taken together, we propose that flg22-induced CAMTA3 depletion facilitates de-repression of downstream defense target genes, which involves phosphorylation, increased protein turnover, and nucleo-cytoplasmic trafficking.
Highlights
Unlike animals, plants do not possess a circulatory adaptive immune system
QPCR, we confirmed the increase in calmodulin-binding transcription activator 3 (CAMTA3) expression in Arabidopsis thaliana Col-0 seedlings stimulated with flg22 (Fig. 1A)
Flg22-induced EDS1 expression was enhanced in the camta3 mutants and reciprocally, it was reduced in the two independent OE lines (Fig. 1C)
Summary
Plants do not possess a circulatory adaptive immune system. Instead, they rely on an efficient cellular innate immunity system to defend against various pathogens. The first layer of this immunity system is initiated by perception of pathogen- or microbe-associated molecular patterns (PAMPs/MAMPs) by pattern recognition receptors. Cascades (Asai et al, 2002) and calcium-dependent protein kinases (CDPKs) (Boudsocq et al, 2010). This signaling network induces transcriptional and metabolic reprogramming to establish patterntriggered immunity (PTI). A second layer of immunity is the so-called effector-triggered immunity (ETI)
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