Development of 19 universal microsatellite loci for three closely related Ficus species (Moraceae) by high-throughput sequencing

Abstract

The genus Ficus is striking for its species diversity, ecological significance, and its often species-specific relationship with coevolved pollinating fig wasps, which has long fascinated biologists. The three closely related and generally co-distributed dioecious species Ficus hispida, F. heterostyla and F. squamosa provide an ideal system for the study of speciation, hybridization (caused by pollinator sharing) and comparative phylogeography to infer historical biogeography. We aimed to develop microsatellite markers for these allied species to facilitate the outlined study investigations. A DNA library was constructed from one F. heterostyla sample, and 19 microsatellite loci were developed based on high-throughput sequencing. These markers showed relatively high polymorphism in all three fig species. The mean number of alleles per locus was 3.594–5.286, and the mean observed and expected heterozygosity were 0.469–0.546 and 0.467–0.528, respectively. Principal coordinate, STRUCTURE and AMOVA analyses revealed different degrees of genetic differentiation within species, and, despite some observed genetic admixture, indicated the presence of clear boundaries between different species. In summary, we successfully developed universal microsatellite markers for three closely related Ficus species. These markers will be of great value for investigating patterns of biodiversity among the species in this model system for coevolutionary studies.