Characterization of long transcribed microsatellites in Helianthus annuus (Asteraceae).

PREMISE OF THE STUDY

Research on the evolutionary role of exonic microsatellites currently lacks an understanding of the evolutionary pressures that promote or limit their expansion. Contrasting levels of variability and genetic structures at anonymous and transcribed microsatellite loci of varying lengths are likely to provide useful insights regarding the relative strength of selection acting on different classes of microsatellites. We have developed primers for long transcribed microsatellites in Helianthus annuus to make these comparisons.

METHODS AND RESULTS

Eight relatively long microsatellites from sequences in the expressed sequence tag database of H. annuus were characterized. A total of 63 individuals from three populations in Kansas were genotyped. The number of alleles per locus ranged from four to 11 with an average observed heterozygosity of 0.723.

CONCLUSIONS

Our study has generated suitable tools for studying the population genetics of long transcribed microsatellites that are potentially influenced by selection.