The FGSG_03624 Xylanase Enhances Plant Immunity and Increases Resistance against Bacterial and Fungal Pathogens.

Fungal enzymes degrading the plant cell wall, such as xylanases, can activate plant immune responses. The FGSG_03624 xylanase, previously shown to elicit necrosis and hydrogen peroxide accumulation in wheat, was investigated for its ability to induce disease resistance. To this aim, we transiently and constitutively expressed an enzymatically inactive form of FGSG_03624 in tobacco and , respectively. The plants were challenged with pv. or pv. and . Symptom reduction by the bacterium was evident, while no reduction was observed after inoculation. Compared to the control, the presence of the xylanase gene in transgenic plants did not alter the basal expression of a set of defense-related genes, and, after the inoculation, a prolonged PR1 expression was detected. inoculation experiments of durum wheat spikes exogenously treated with the FGSG_03624 xylanase highlighted a reduction of symptoms in the early phases of infection and a lower fungal biomass accumulation than in the control. Besides, callose deposition was detected in infected spikes previously treated with the xylanase and not in infected control plants. In conclusion, our results highlight the ability of FGSG_03624 to enhance plant immunity, thus decreasing disease severity.