GhABP19, a Novel Germin-Like Protein From Gossypium hirsutum , Plays an Important Role in the Regulation of Resistance to Verticillium and Fusarium Wilt Pathogens

Germin-like proteins (GLPs) are water-soluble plant glycoproteins belonging to the cupin superfamily. The important role of GLPs in plant responses against various abiotic and biotic stresses, especially pathogens, is well validated. However, little is known about cotton GLPs in relation to fungal pathogens. Here, a novel GLP gene was isolated from and designated as . The expression of was upregulated in cotton plants inoculated with and and in response to treatment with jasmonic acid (JA) but was suppressed in response to salicylic acid treatment. A relatively small transient increase in was seen in H O treated samples. The three-dimensional structure prediction of the GhABP19 protein indicated that the protein has three histidine and one glutamate residues responsible for metal ion binding and superoxide dismutase (SOD) activity. Purified recombinant GhABP19 exhibits SOD activity and could inhibit growth of , , , , and . To further verify the role of in fungal resistance, -overexpressing plants and -silenced cotton plants were developed. GhABP19-transgenic lines showed much stronger resistance to and infection than control (empty vector) plants did. On the contrary, silencing of in cotton conferred enhanced susceptibility to fungal pathogens, which resulted in necrosis and wilt on leaves and vascular discoloration in -silenced cotton plants. The H O content and endogenous SOD activity were affected by expression levels in and cotton plants after inoculation with and , respectively. Furthermore, overexpression or silencing resulted in activation or suppression of JA-mediated signaling, respectively. Thus, GhABP19 plays important roles in the regulation of resistance to verticillium and fusarium wilt in plants. These modulatory roles were exerted by its SOD activity and ability to activate the JA pathway. All results suggest that was involved in plant disease resistance.