Genome-wide pedigree analysis of elite rice Shuhui 527 reveals key regions for breeding

Hybrid rice significantly contributes to the food supply worldwide. Backbone parents play important roles in elite hybrid rice breeding systems. In this study, we performed pedigree-based analysis of the elite backbone parent rice variety, namely, Shuhui 527 (SH527, Oryza sativa), to exploit key genome regions during breeding. Twenty-four cultivars (including SH527, its six progenitors and 17 derived cultivars) were collected and analyzed with high-density single nucleotide polymorphism (SNP) array. Scanning all these cultivars with genome-wide SNP data indicated the unique contributions of progenitors to the SH527 genome and identified the key genomic regions of SH527 conserved within all its derivatives. These findings were further supported by known rice yield-related genes or unknown QTLs identified by genome-wide association study. This study reveals several key regions for SH527 and provides insights into hybrid rice breeding.

Automated summary

This study conducted pedigree-based analysis of the elite backbone parent rice variety SH527 to identify key genomic regions for hybrid rice breeding, revealing the unique contributions of progenitors to SH527 and the conserved key genomic regions within all its derivatives. These findings provide insights into hybrid rice breeding and highlight the importance of certain genomic regions for rice yield.