Abstract
The plant cell wall plays a critical role in signaling responses to environmental and developmental cues, acting as both the sensing interface and regulator of plant cell integrity. Wall-associated kinases (WAKs) are plant receptor-like kinases located at the wall—plasma membrane—cytoplasmic interface and implicated in cell wall integrity sensing. WAKs in Arabidopsis thaliana have been shown to bind pectins in different forms under various conditions, such as oligogalacturonides (OG)s in stress response, and native pectin during cell expansion. The mechanism(s) WAKs use for sensing in grasses, which contain relatively low amounts of pectin, remains unclear. WAK genes from the model monocot plant, Brachypodium distachyon were identified. Expression profiling during early seedling development and in response to sodium salicylate and salt treatment was undertaken to identify WAKs involved in cell expansion and response to external stimuli. The BdWAK2 gene displayed increased expression during cell expansion and stress response, in addition to playing a potential role in the hypersensitive response. In vitro binding assays with various forms of commercial polysaccharides (pectins, xylans, and mixed-linkage glucans) and wall-extracted fractions (pectic/hemicellulosic/cellulosic) from both Arabidopsis and Brachypodium leaf tissues provided new insights into the binding properties of BdWAK2 and other candidate BdWAKs in grasses. The BdWAKs displayed a specificity for the acidic pectins with similar binding characteristics to the AtWAKs.
Highlights
As sessile organisms, plants have sophisticated strategies to sense and respond to both environmental and developmental signals in order to adapt their growth
This study shows that Wall-associated kinases (WAKs) in B. distachyon can interact with cell wall pectins and are likely to play roles in cell expansion and stress responses
In this study we have analysed the family of WAK genes in B. distachyon
Summary
Plants have sophisticated strategies to sense and respond to both environmental and developmental signals in order to adapt their growth. Environmental stresses include abiotic and biotic stresses that cause loss of cell wall integrity or damage. The perception of cell wall breakdown is essential for plants to survive these stresses [1,2,3]. In addition to wall damage, plants must maintain integrity during normal growth and development in order to generate the turgor required for anisotropic growth as well as retain structural integrity. The cell wall plays a critical role in signaling responses, acting as both the sensing interface and regulator of plant cell integrity [4,5,6,7].
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