Development of polymorphic simple sequence repeat markers in Agastache rugosa and their application in genetic evaluation and cross-taxon transferability of Agastache species

Abstract

Agastache is a genus of perennial herbaceous plants belonging to the mint family, Lamiaceae. Several Agastache species are commercially cultivated and used as medicinal, culinary, and ornamental plants. However, information on the genetic diversity and population structure of the species remains unclear. In the present study, genetic diversity within Agastache species was analyzed using simple sequence repeat (SSR) markers. In this study, 249,746 SSRs were identified in the A. rugosa genome and primer pairs were designed for 56,675 SSRs. The majority of SSR repeat types were dinucleotides (60.65%), followed by trinucleotides (12.38%), and pentanucleotides (12.10%). PCR conditions were established for 250 primer pairs, 111 of which were found to be polymorphic in A. rugosa germplasm. The number of alleles (NA) ranged from 2 to 19, major allele frequency (MAF) ranged from 0.11 to 0.95, observed heterozygosity (HO) ranged from 0 to 0.89, and polymorphic information content (PIC) ranged from 0.09 to 0.92. Cross-species amplification of SSRs markers in other Agastache species showed amplification rates of 82.6% for A. foeniculum and 78.1% in A. urticifolia, with an average of 80.37%. Cluster analysis of the 19 A. rugosa accessions using SSRs markers revealed four major clusters, and population STRUCTURE analysis using 79 SSRs markers revealed three groups and three subgroups among the A. rugosa populations. The SSRs markers developed can contribute to applications such as varietal identification, genetic diversity analysis, and population structure analysis of A. rugosa germplasm.