A stable quantitative trait locus on chromosome A10 improves the oil content of a backbone parent in Brassica napus L.

One of the most important breeding goals for rapeseed (Brassica napus L.) is improving the oil content (OC) to increase edible or industrial oil quality. Using backbone parents as research materials to excavate OC genetic loci is not only helpful in enhancing the understanding of the genetic basis of OC in rapeseed but also offers a promising approach to improve backbone parents. In this study, a doubled haploid population constructed using the backbone parent 19514 A (with low OC) and the inbred line ZY50 (with high OC) were investigated in eight environments. A total of 30 quantitative trait loci (QTLs) were identified, among which qOC.A10 was detected in six environments. Local QTL scanning for the BC4F2 population showed that qOC.A10 accounted for 22.77% of the phenotypic variance and 0.97% of the additive effect. Further, we improved the parent 19514 A on qOC.A10 by marker-assisted selection, and the background response rate of the improved line A10-19514A reached 97.5%. The phenotypic identification results showed that the OC of A10-19514A and its hybrid significantly increased compared with that of the control, with no negative effects on other agronomic traits. Transcriptome analysis and sequence difference analysis facilitated the prediction of potential functional genes of qOC.A10. This study increases the knowledge regarding the genetic foundation of OC in rapeseed. Furthermore, it identified and confirmed a stable QTL that can be detected in various studies and possesses practical breeding significance.