Abstract
Key messageDowny mildew resistance across days post-inoculation, experiments, and years in two interspecific grapevine F1 families was investigated using linear mixed models and Bayesian networks, and five new QTL were identified.Breeding grapevines for downy mildew disease resistance has traditionally relied on qualitative gene resistance, which can be overcome by pathogen evolution. Analyzing two interspecific F1 families, both having ancestry derived from Vitis vinifera and wild North American Vitis species, across 2 years and multiple experiments, we found multiple loci associated with downy mildew sporulation and hypersensitive response in both families using a single phenotype model. The loci explained between 7 and 17% of the variance for either phenotype, suggesting a complex genetic architecture for these traits in the two families studied. For two loci, we used RNA-Seq to detect differentially transcribed genes and found that the candidate genes at these loci were likely not NBS-LRR genes. Additionally, using a multiple phenotype Bayesian network analysis, we found effects between the leaf trichome density, hypersensitive response, and sporulation phenotypes. Moderate–high heritabilities were found for all three phenotypes, suggesting that selection for downy mildew resistance is an achievable goal by breeding for either physical- or non-physical-based resistance mechanisms, with the combination of the two possibly providing durable resistance.
Highlights
Downy mildew resistance in grapevine has been mapped to over a dozen loci from over half a dozen Vitis spp. (Buonassisi et al 2017)
Infection on grapevine leaves can be detected by observing sporulation or host necrosis, which on resistant vines is often associated with a hypersensitive response (HR) (Bellin et al 2009; Buonassisi et al 2017)
Research in identifying downy mildew resistance quantitative trait loci (QTL) in grapevine has focused on disease phenotypes, e.g., sporulation and Hypersensitive response (HR), but physical barriers produced by a plant can play a role in the prevention of disease
Summary
Downy mildew resistance in grapevine has been mapped to over a dozen loci from over half a dozen Vitis spp. (Buonassisi et al 2017). Downy mildew resistance in grapevine has been mapped to over a dozen loci from over half a dozen Vitis spp. & de Toni, is a common cause of yield loss for Vitis vinifera cultivars, which generally lack genetic resistance to the disease (Buonassisi et al 2017). Research in identifying downy mildew resistance quantitative trait loci (QTL) in grapevine has focused on disease phenotypes, e.g., sporulation and HR, but physical barriers produced by a plant can play a role in the prevention of disease. Kortekamp and Zyprian (1999) used four wild Vitis accessions to demonstrate that trichomes on the abaxial side of grapevine leaves can play a role in resistance to downy mildew disease by forming a hydrophobic surface above the leaf that blocks P. viticola sporangia from reaching stomata. Leaf trichome density can be quantified using computer vision algorithms (Divilov et al 2017)
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