Development of SNP-based CAPS and dCAPS markers in eight different genes involved in starch biosynthesis in rice

Single nucleotide polymorphisms (SNPs), which are inexhaustible, highly stable, and simply detectable sequence polymorphisms, can lead to phenotypic variations by affecting protein composition changes. Here, we report development of 25 new cleaved amplified polymorphic sequence or derived cleaved amplified polymorphic sequence markers that have discrete band sizes in relation to the SNP genotypes in eight putative gene regions. The average frequency of DNA polymorphisms was 1 per 175 bp (SNPs, 1 per 217 bp; In/dels, 1 per 906 bp). In primary statistical analysis of each marker on 55 diverse rice accessions, including different ecotypes, the mean value of the major allele frequency was 0.658 (0.509–0.927). The average polymorphism information content was 0.326 (0.126–0.375). The mean value of the inbreeding coefficient (f) was 0.950 and was positive (heterozygote deficiency) at all loci, corresponding to the inbreeding system in rice. In cluster analysis, all rice accessions clustered mainly into three groups according to the ecotypes. The association analysis showed that the SNP of Granule-bound starch synthase I and ADP-glucose pyrophosphorylase small subunit (ADPase-S) genes were highly associated with apparent amylose content variation than the others. These new SNP markers may be useful in genotyping rice germplasm, in marker-assisted selection for improving starch quality and content, and in linkage as well as association studies.