Due to global climate change, complex combinations of stresses are expected to occur, among which the interaction between pathogens and drought stress may have a significant effect on growth and yield. In this study, the ()-resistant Leccino and the susceptible one Cellina di Nardò were subjected to (a) individual drought stress, (b) infection and (c) combination of both stress conditions. Here we report the physiological response to stresses in water content in leaves and the modulation in the expression level of seven genes responsive to plant water status and pathogen infection. In -resistant plants, higher expression levels are reported for genes belonging to ROS-scavenging systems and for genes involved in pathogen stress (pathogenesis-related, , and leucine-rich repeat genes, ). However, and were not further induced by water deficit. Interestingly, the genes related to drought response (aquaporin, , dehydration responsive element binding, , and dehydrin, ), which induction was higher in Cellina di Nardò compared to Leccino during drought stress, was poorly induced in -susceptible plants when occur. Conversely, was induced by presence in Leccino. These results were consistent with observations on water content. Indeed, response was similar in Leccino regardless kind of stress or combination, whereas a strong reduction was observed in -susceptible plants infected by or in presence of combined stresses. Thus, the reported findings indicate that resistance of Leccino to could be linked to its lower resistance to water stress, probably leading to the activation of alternative defense pathways that support the plant in response.
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| http://dx.doi.org/10.3390/plants8110437 | DOI Listing |
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