Sequence diversity, haplotype analysis, association mapping and functional marker development in the waxy and starch synthase IIa genes for grain-yield-related traits in hexaploid wheat (Triticum aestivum L.).

摘要

Development of high-yielding cereal crops could meet increasing global demands for food, feed and bio-fuels. Wheat is one of the world's most important cereal crops. The biosynthesis of starch is the major determinant of yield in wheat. Two starch biosynthesis genes, the waxy (Wx) genes and the starch synthase IIa (SSIIa) genes, were amplified and sequenced in 92 diverse wheat genotypes using genome-specific primers. Nucleotide diversity, haplotype analysis and association mapping were performed. The first exon (5'-UTR) and the first intron of the three homologous Wx genes were isolated using expressed sequence tag sequences. The Wx genes contained 12 exons separated by 11 introns. SNP (single nucleotide polymorphism) frequency ranged from 1 SNP/3648 bp for Wx-D1 to 1 SNP/135 bp for SSIIa-A1, with an average of 1 SNP/230 bp. The average SNP frequencies in exon and intron regions were 1 SNP/322 bp and 1 SNP/228 bp, respectively. Thirty, 23 and 5 SNPs were identified and formed five, six and five haplotypes for SSIIa-A1, SSIIa-B1 and SSIIa-D1, respectively. However, no association was found between these SNPs and seven yield-related traits. Twenty-two, 15 and 1 SNPs were detected and formed nine, five and two haplotypes for Wx-A1, Wx-B1 and Wx-D1, respectively. Three unique nucleotides C+A+T at SNP5, SNP6 and SNP12 formed Wx-B1-H3, which was significantly associated with increased grain weight, thousand kernel weight, and total starch content in three spring wheat genotypes and five winter wheat genotypes. Cost-effective and co-dominant SNP markers were developed using temperature-switch (TS)-PCR and are being used for marker-assisted selection of doubled haploid lines with enhanced grain yield and starch content in winter wheat breeding programs