Abstract
BackgroundOptimum flowering time is a key agronomic trait in Brassica napus. To investigate the genetic architecture and genetic regulation of flowering time in this important crop, we conducted quantitative trait loci (QTL) analysis of flowering time in a recombinant inbred line (RIL) population, including lines with extreme differences in flowering time, in six environments, along with RNA-Seq analysis.ResultsWe detected 27 QTLs distributed on eight chromosomes among six environments, including one major QTL on chromosome C02 that explained 11–25% of the phenotypic variation and was stably detected in all six environments. RNA-Seq analysis revealed 105 flowering time-related differentially expressed genes (DEGs) that play roles in the circadian clock/photoperiod, autonomous pathway, and hormone and vernalization pathways. We focused on DEGs related to the regulation of flowering time, especially DEGs in QTL regions.ConclusionsWe identified 45 flowering time-related genes in these QTL regions, eight of which are DEGs, including key flowering time genes PSEUDO RESPONSE REGULATOR 7 (PRR7) and FY (located in a major QTL region on C02). These findings provide insights into the genetic architecture of flowering time in B. napus.
Highlights
Optimum flowering time is a key agronomic trait in Brassica napus
Our results indicate that flowering time is positively and significantly correlated among the six environments (r2 = 0.255–0.766, P < 0.01)
We propose that the circadian clock/photoperiod pathway is closely associated with the differences in flowering time between two contrasting bulks of recombinant inbred line (RIL)
Summary
Optimum flowering time is a key agronomic trait in Brassica napus. The transition from the vegetative stage to the reproductive stage helps to ensure reproductive success, including successful seed production [1]. This trait is especially important in crop plants, as it can determine crop cultivation ranges and ensure high productivity. Flowering time is a vital trait that is a target of selection during crop breeding. Much is known about candidate genes controlling flowering time in Arabidopsis thaliana. More than 300 flowering time genes have been identified, and several key regulators
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