Litcius/Paper detail

Fine-tuning the performance of ddRAD-seq in the peach genome

Maximiliano Martín Aballay, Natalia Aguirre, Carla Valeria Filippi, Gabriel Hugo Valentini, Gerardo Sánchez

2021Scientific Reports16 citationsDOIOpen Access PDF

Abstract

The advance of Next Generation Sequencing (NGS) technologies allows high-throughput genotyping at a reasonable cost, although, in the case of peach, this technology has been scarcely developed. To date, only a standard Genotyping by Sequencing approach (GBS), based on a single restriction with ApeKI to reduce genome complexity, has been applied in peach. In this work, we assessed the performance of the double-digest RADseq approach (ddRADseq), by testing 6 double restrictions with the restriction profile generated with ApeKI. The enzyme pair PstI/MboI retained the highest number of loci in concordance with the in silico analysis. Under this condition, the analysis of a diverse germplasm collection (191 peach genotypes) yielded 200,759,000 paired-end (2 × 250 bp) reads that allowed the identification of 113,411 SNP, 13,661 InDel and 2133 SSR. We take advantage of a wide sample set to describe technical scope of the platform. The novel platform presented here represents a useful tool for genomic-based breeding for peach.

Topics & Concepts

GenomeBiologyComputational biologyComputer scienceGeneticsGenePlant Virus Research StudiesPlant Reproductive BiologyPlant Disease Resistance and Genetics