Abstract
Plant receptor-like kinases (RLKs) are important players in response to pathogen infections. Verticillium and Fusarium wilts, caused by Verticillium dahliae (Vd) and Fusarium oxysporum f. sp vasinfectum (Fov), respectively, are among the most devastating diseases in cotton (Gossypium spp). To understand the cotton response to these soil-borne fungal pathogens, we performed a genome-wide in silico characterization and functional screen of diverse RLKs for their involvement in cotton wilt diseases. We identified Gossypium hirsutum GhWAK7A, a wall-associated kinase, that positively regulates cotton response to both Vd and Fov infections. Chitin, the major constituent of the fungal cell wall, is perceived by lysin-motif-containing RLKs (LYKs/CERK1), leading to the activation of plant defense against fungal pathogens. A conserved chitin sensing and signaling system is present in cotton, including chitin-induced GhLYK5-GhCERK1 dimerization and phosphorylation, and contributes to cotton defense against Vd and Fov Importantly, GhWAK7A directly interacts with both GhLYK5 and GhCERK1 and promotes chitin-induced GhLYK5-GhCERK1 dimerization. GhWAK7A phosphorylates GhLYK5, which itself does not have kinase activity, but requires phosphorylation for its function. Consequently, GhWAK7A plays a crucial role in chitin-induced responses. Thus, our data reveal GhWAK7A as an important component in cotton response to fungal wilt pathogens by complexing with the chitin receptors.
Highlights
In addition to its use in textile manufacturing, cotton (Gossypium spp) serves as an agro-economically important source of feed, foodstuff, oil, and biofuel
The databases used in this study included the Nanjing Agricultural University (NAU) assembly for G. hirsutum (Zhang et al, 2015), the Joint Genome Institute (JGI) assembly for G. raimondii (Paterson et al, 2012), and the Cotton Research Institute (CRI) assembly for G. arboreum (Li et al, 2014)
To examine whether the sensing of cell-wall–derived pectin may account for the role of GhWAK7A and GhWAK5A in defense responses, we examined mitogen-activated protein kinases (MAPKs) activation triggered by OGs, pectin fragments derived from the partial hydrolysis of plant cell wall pectin (Galletti et al, 2009)
Summary
In addition to its use in textile manufacturing, cotton (Gossypium spp) serves as an agro-economically important source of feed, foodstuff, oil, and biofuel. Sp vasinfectum (Fov) are among the destructive cotton vascular diseases faced by growers. Both diseases show symptoms such as foliar chlorosis or necrosis, premature leaf defoliation, vascular discoloration, plant stunting, and wilt (Li et al, 2017b; Cox et al, 2019). The development and application of disease-resistant cultivars are among the effective means to control these pathogen threats (Cianchetta and Davis, 2015; Sanogo and Zhang, 2016). Vd and Fov infection likely share overlapping and distinct features, but the molecular mechanisms of Fov infection and the determinants of Fov resistance in cotton remain largely elusive
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