ddRADseq Applications for Petunia × hybrida Clonal Line Breeding: Genotyping and Variant Identification for Target-Specific Assays

Molecular genotyping is a key factor for plant breeding programming and plant variety protection (PVP). However, its potential still remains to be elucidated when considering ornamental plants like Petunia × hybrida. In this study, a petunia breeding clone collection, including sister line groups, was genotyped through double digest Restriction-site Associated DNA sequencing (ddRADseq), and its genetic diversity and structure were studied. In addition to estimating the high genetic similarity observed among sister lines, this approach allowed the unique discrimination of each clone too. Molecular results agreed with genealogy data, supporting the assessment of genotyping effectiveness. In addition, the minimal number of variants able to uniquely discriminate and/or correctly cluster the experimental lines was investigated. The loci number could be reduced to eight to achieve line discrimination, and a method to identify the specific variant sets is presented. Conversely, to preserve the original clustering with minor adjustments, one hundred loci were required and were obtained through minor allele frequency (MAF) filtering. Moreover, analysis of the chromosomal distribution of variants revealed a predominant accumulation in distal regions. Genetic analyses were repeated considering only variants located in coding sequences and results were in agreement with what previously observed, disclosing the potential of the expressed regions for genotyping purposes. Eventually, the applied approach enabled the investigation of SNPs within genes putatively involved in traits of interest. Our findings encourage the adoption of high-throughput and cost-effective sequencing techniques for petunia genotyping aimed at achieving PVP, supporting new variety registration, and developing marker-assisted breeding (MAB) and marker-assisted selection (MAS) strategies.