Low-coverage resequencing detects meiotic recombination pattern and features in tomato RILs

Traditional plant breeding relies on meiotic recombination for mixing of parental alleles to create novel allele combinations. Detailed analysis of recombination patterns in model organisms shows that recombination is tightly regulated within the genome, but frequencies vary extensively along chromosomes. Despite being a model organism for fruit developmental studies, high-resolution recombination patterns are lacking in tomato. In this study, we developed a novel methodology to use low-coverage resequencing to identify genome-wide recombination patterns and applied this methodology on 60 tomato Recombinant Inbred Lines (RILs). Our methodology identifies polymorphic markers from the low-coverage resequencing population data and utilizes the same data to locate the recombination breakpoints in individuals by using a variable sliding window. We identified 1,445 recombination sites comprising 112 recombination prone regions enriched for AT-rich DNA motifs. Furthermore, the recombination prone regions in tomato preferably occurred in gene promoters over intergenic regions, an observation consistent with Arabidopsis thaliana, Zea mays and Mimulus guttatus. Overall, our cost effective method and findings enhance the understanding of meiotic recombination in tomato and suggest evolutionarily conserved recombination associated genomic features.