Development of 17 novel microsatellite markers for Lycoris aurea and L. radiata (Amaryllidaceae) using next-generation sequencing

I-Ju Chen; Chou-Tou Shii; Tsu-Liang Chang; Kae-Kang Hwu

doi:10.1002/aps3.1198

Development of 17 novel microsatellite markers for Lycoris aurea and L. radiata (Amaryllidaceae) using next-generation sequencing

Appl Plant Sci. 2018 Nov 14;6(11):e01198. doi: 10.1002/aps3.1198. eCollection 2018 Nov.

Authors

I-Ju Chen¹, Chou-Tou Shii¹, Tsu-Liang Chang¹, Kae-Kang Hwu²

Affiliations

¹ Department of Horticulture and Landscape Architecture National Taiwan University No. 1, Sec. 4, Roosevelt Road Taipei 10617 Taiwan.
² Department of Agronomy National Taiwan University No. 1, Sec. 4, Roosevelt Road Taipei 10617 Taiwan.

Abstract

Premise of the study: Lycoris is an ornamental and medicinal plant. We developed microsatellite markers for L. aurea and L. radiata simultaneously by using a hybrid between these two species.

Methods and results: Ion Torrent next-generation sequencing produced 1,784,504 reads. Testing 64 primer sets allowed for the development of 17 novel microsatellite markers: 16 for L. aurea, 10 for L. radiata, and nine common markers. Lycoris aurea had one to 12 alleles per locus and observed and expected heterozygosity levels of 0-0.923 and 0.038-0.809, respectively. Lycoris radiata had three to 12 alleles per locus and observed and expected heterozygosity levels of 0-0.909 and 0.127-0.797, respectively. Ten markers were cross-amplified for L. sprengeri.

Conclusions: Hybrid sequencing can facilitate the cost-effective development of molecular markers for parental species. The markers developed here are useful for studying Lycoris population structure.

Keywords: Amaryllidaceae; Lycoris aurea; Lycoris radiata; genetic variation; hybrid; microsatellite.