Highly variable SSR markers suitable for rice genotyping using agarose gels

Abstract

Simple sequence repeats (SSR) are the DNA markers of choice for genetic analysis in rice (Oryza sativa L.) due to their abundance, high polymorphism and simple assays using agarose gel electrophoresis. In an attempt to find most variable SSR loci for the agarose gel system, the relationship between SSR length and level of polymorphism was evaluated in a set of eight diverse rice genotypes using 201 random SSR loci of different repeat motifs and lengths, representing both genic and intergenic sequences from the 12 rice chromosomes. There was a positive correlation between SSR length and average number of alleles per locus but linearity of this relationship was limited to the SSR length range of 10–70 bp. The highest level of polymorphism was in the SSR length range of 51–70 bp, beyond which there was stabilization and then decline of polymorphism in SSRs longer than 70 bp. Proportion of polymorphic loci in the different SSR length groups also followed similar pattern with even sharper decline of polymorphism in the highest size range. Here we describe a genome wide set of 436 validated highly variable SSR (HvSSR) markers with repeat lengths of 51–70 bp for their consistent amplification and high polymorphism. In the parental lines of three different mapping populations, the HvSSR loci showed more than twice the level of polymorphism than random SSR markers with average repeat length of 34 bp, and therefore are suitable for QTL mapping and fingerprinting studies in rice employing agarose gels.