Characterization of SSR markers from draft genome assembly and genotypic data in Hedychium spicatum (Zingiberaceae)

Abstract

The plant family Zingiberaceae consists of many medicinally important tropical herbs. Here, we provide a contig level genome assembly for Hedychium spicatum, one of the medicinally utilized species in this family. We used genome assembly to identify candidate Simple Sequence Repeat (SSR) markers in the nuclear, chloroplast and mitochondrial compartments. We identified a total of 60,695 SSRs, which consisted of di-, tri-, tetra-, penta- and complex repeat types, and primers were designed for 14,851 SSR loci from both coding and non-coding parts of the genome. A total of 62 sets of candidate SSR primers were tested, out of which a final set of 20 SSR markers were characterized and they met the criteria of amplification success and retention of the repeat motif and homology. Out of these 20 markers, we genotyped 11 markers by amplifying and sizing 99 accessions of H. spicatum from 13 different geographic locations. The 11 markers were also characterised for four congeneric species, H. ellipticum, H. gomezianum, H. venustum, and H. yunnanense. All 11 SSR markers were found to be polymorphic and showed cross-species amplification. The total number of alleles per locus varied from 5 to 25. SSR markers continue to be a valuable tool for researchers because of their cost-effectiveness and simplicity. The cross-species amplification and variability of the SSR markers generated here further extend the utility of the markers to other Hedychium spp. The markers presented in this dataset can be used for a variety of studies, such as population genetics of invasive Hedychium species, QTL mapping, DNA fingerprinting, parentage analysis and genetic diversity assessments.