Abstract
BackgroundGrain yield in wheat is a polygenic trait that is influenced by environmental and genetic interactions at all stages of the plant’s growth. Yield is usually broken down into three components; number of spikes per area, grain number per spike, and grain weight (TGW). In polyploid wheat, studies have identified quantitative trait loci (QTL) which affect TGW, yet few have been validated and fine-mapped using independent germplasm, thereby having limited impact in breeding.ResultsIn this study we identified a major QTL for TGW, yield and green canopy duration on wheat chromosome 6A of the Spark x Rialto population, across 12 North European environments. Using independent germplasm in the form of BC2 and BC4 near isogenic lines (NILs), we validated the three QTL effects across environments. In four of the five experiments the Rialto 6A introgression gave significant improvements in yield (5.5%) and TGW (5.1%), with morphometric measurements showing that the increased grain weight was a result of wider grains. The extended green canopy duration associated with the high yielding/TGW Rialto allele was comprised of two independent effects; earlier flowering and delayed final maturity, and was expressed stably across the five environments. The wheat homologue (TaGW2) of a rice gene associated with increased TGW and grain width was mapped within the QTL interval. However, no polymorphisms were identified in the coding sequence between the parents.ConclusionThe discovery and validation through near-isogenic lines of robust QTL which affect yield, green canopy duration, thousand grain weight, and grain width on chromosome 6A of hexaploid wheat provide an important first step to advance our understanding of the genetic mechanisms regulating the complex processes governing grain size and yield in polyploid wheat.
Highlights
Grain yield in wheat is a polygenic trait that is influenced by environmental and genetic interactions at all stages of the plant’s growth
We developed near isogenic lines (NILs) to validate the 6A quantitative trait loci (QTL) effects across environments, and morphometric grain analyses were conducted to determine the specific grain size components being affected by the QTL
This suggests that Qgcd-jic.6A is most likely an independent genetic locus within the introgressed region, and that extended GCD is not the major determinant behind the increase in productivity observed in the Doubled Haploid (DH) population and NILs
Summary
Grain yield in wheat is a polygenic trait that is influenced by environmental and genetic interactions at all stages of the plant’s growth. The grain yield of wheat and cereals in general, is a polygenic and highly complex trait that is influenced by environmental and genetic interactions at all stages of the plant’s growth [4]. Yield is usually broken down into three main components; number of spikes per surface area, grain number per spike, and thousand grain weight (TGW). TGW is usually stably inherited [6] and can be further broken down into individual components including physical parameters (grain length, width, area) and grain filling characteristics, which are under independent genetic control [7]. These include both the rate and duration of the grain filling process [8], the latter being normally phenotyped as green canopy duration after heading [9]
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