1 research outputs found
Genome-Wide Association Mapping of Seed Coat Color in Brassica napus
Seed
coat color is an extremely important breeding characteristic of Brassica napus. To elucidate the factors affecting
the genetic architecture of seed coat color, a genome-wide association
study (GWAS) of seed coat color was conducted with a diversity panel
comprising 520 B. napus cultivars and
inbred lines. In total, 22 single-nucleotide polymorphisms (SNPs)
distributed on 7 chromosomes were found to be associated with seed
coat color. The most significant SNPs were found in 2014 near Bn-scaff_15763_1-p233999,
only 43.42 kb away from BnaC06g17050D, which is orthologous to Arabidopsis thaliana TRANSPARENT TESTA 12 (<i>TT12</i>), an important gene involved in the transportation
of proanthocyanidin precursors into the vacuole. Two of eight repeatedly
detected SNPs can be identified and digested by restriction enzymes.
Candidate gene mining revealed that the relevant regions of significant
SNP loci on the A09 and C08 chromosomes are highly homologous. Moreover,
a comparison of the GWAS results to those of previous quantitative
trait locus (QTL) studies showed that 11 SNPs were located in the
confidence intervals of the QTLs identified in previous studies based
on linkage analyses or association mapping. Our results provide insights
into the genetic basis of seed coat color in B. napus, and the beneficial allele, SNP information, and candidate genes
should be useful for selecting yellow seeds in B. napus breeding