| Literature DB >> 33525704 |
Carlotta Pirrello1,2, Tieme Zeilmaker3, Luca Bianco1, Lisa Giacomelli1,3, Claudio Moser1, Silvia Vezzulli1.
Abstract
Several pathogens continuously threaten viticulture worldwide. Until now, the investigation on resistance loci has been the main trend to understand the interaction between grapevine and the mildew causal agents. Dominantly inherited gene-based resistance has shown to be race-specific in some cases, to confer partial immunity, and to be potentially overcome within a few years since its introgression. Recently, on the footprint of research conducted in Arabidopsis, putative genes associated with downy mildew susceptibility have been discovered also in the grapevine genome. In this work, we deep-sequenced four putative susceptibility genes-namely VvDMR6.1, VvDMR6.2, VvDLO1, VvDLO2-in 190 genetically diverse grapevine genotypes to discover new sources of broad-spectrum and recessively inherited resistance. Identified Single Nucleotide Polymorphisms were screened in a bottleneck analysis from the genetic sequence to their impact on protein structure. Fifty-five genotypes showed at least one impacting mutation in one or more of the scouted genes. Haplotypes were inferred for each gene and two of them at the VvDMR6.2 gene were found significantly more represented in downy mildew resistant genotypes. The current results provide a resource for grapevine and plant genetics and could corroborate genomic-assisted breeding programs as well as tailored gene editing approaches for resistance to biotic stresses.Entities:
Keywords: DLO; DMR; SNP; Vitis spp.; disease resistance; next-gen amplicon sequencing; susceptibility genes
Year: 2021 PMID: 33525704 PMCID: PMC7912118 DOI: 10.3390/biom11020181
Source DB: PubMed Journal: Biomolecules ISSN: 2218-273X