Abstract
Grapevine may be affected simultaneously by several pathogens whose complex interplay is largely unknown. We studied the effects of infection by two grapevine viruses on powdery mildew and downy mildew development and the molecular modifications induced in grapevines by their multiple interactions. Grapevine fanleaf virus (GFLV) and grapevine rupestris stem pitting-associated virus (GRSPaV) were transmitted by in vitro-grafting to Vitis vinifera cv Nebbiolo and Chardonnay virus-free plantlets regenerated by somatic embryogenesis. Grapevines were then artificially inoculated in the greenhouse with either Plasmopara viticola or Erysiphe necator spores. GFLV-infected plants showed a reduction in severity of the diseases caused by powdery and downy mildews in comparison to virus-free plants. GFLV induced the overexpression of stilbene synthase genes, pathogenesis-related proteins, and influenced the genes involved in carbohydrate metabolism in grapevine. These transcriptional changes suggest improved innate plant immunity, which makes the GFLV-infected grapevines less susceptible to other biotic attacks. This, however, cannot be extrapolated to GRSPaV as it was unable to promote protection against the fungal/oomycete pathogens. In these multiple interactions, the grapevine genotype seemed to have a crucial role: in ‘Nebbiolo’, the virus-induced molecular changes were different from those observed in ‘Chardonnay’, suggesting that different metabolic pathways may be involved in protection against fungal/oomycete pathogens. These results indicate that complex interactions do exist between grapevine and its different pathogens and represent the first study on a topic that still is largely unexplored.
Highlights
Grapevine (Vitis vinifera L.) is one of the most economically important and widespread fruit crops in the world
In this study, infection by grapevine fanleaf virus (GFLV) reduced the disease severity caused by E. necator and P. viticola in grapevine
GFLV infection caused the overexpression of stilbene synthase genes and pathogenesis related proteins (VvPR1, VvBgluc) and influenced carbohydrate metabolism modifying the expression dynamics of sugar transporters (VvSTP13, VvSUC27), vacuolar invertase, and sucrose synthase (VvGIN2 and VvSUSY4) genes
Summary
Grapevine (Vitis vinifera L.) is one of the most economically important and widespread fruit crops in the world. It is affected (often simultaneously) by several pathogens, such as fungi, oomycota, phytoplasma, and viruses, which induce serious damage to the plants with consequent high economic losses[1]. Among these biotic agents, viruses represent a widespread class of pathogens in all grapevine species. Two well known and widespread viruses are grapevine rupestris stem pittingassociated virus (GRSPaV) and grapevine fanleaf virus (GFLV). GRSPaV is a member of the genus Foveavirus, family Betaflexiviridae, generally associated with “Rupestris Stem Pitting”, a disorder of the “Rugose Wood complex”[3], and it usually infects V. vinifera cultivars in a latent state. GFLV is a member of the genus Nepovirus in the family Secoviridae[4] responsible for the complex of Gilardi et al Horticulture Research (2020)7:188
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
