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A Genomic Evaluation of Six Selected Inbred Lines of the Naturalized Plants of Milk Thistle ( Silybum marianum L. Gaertn.) in Korea.

Jeehyoung ShimSu Young HongJae-Hyuk HanYeisoo YuEunae YooJungsook SungJoong Hyoun ChinO New Lee
Published in: Plants (Basel, Switzerland) (2023)
Milk thistle ( Silybum marianum ) belongs to the Asteraceae family and is a medicinal plant native to the Mediterranean Basin. Silymarin in achene is a widely used herbal product for chronic liver disease. There is growing interest in natural medicine using milk thistle in Korea, but the raw material completely relies on imports. Despite its economic importance, phenotypic evaluations of native resources of milk thistle in Korea have not been carried out. In addition, genomic research and molecular marker development are very limited in milk thistle. In this study, we evaluated 220 milk thistle resources consisting of 172 accessions collected from the domestic market, and 48 accessions isolated from 6 accessions distributed by the National Agrobiodiversity Center in Korea. Six plant characteristics (height, seed weight, number of flowers, seed weight per flower, spine length, and color at harvest) were measured, and six samples (M01-M06) were selected to represent the genetic diversity of the population for genomic research. To develop PCR-based and co-dominant insertion/deletion (InDel) markers, we performed genome-wide InDel detection by comparing the whole-genome resequencing data of the six selected accessions with the reference genome sequence (GCA_001541825). As a result, 177 InDel markers with high distinguishability and reproducibility were selected from the 30,845 InDel variants. Unknowingly imported alien plant resources could easily be genetically mixed, and jeopardized seed purity can cause continuous difficulties in the development of high value-added agricultural platforms utilizing natural products. The selected plant materials and 177 validated InDel markers developed via whole-genome resequencing analysis could be valuable resources for breeding, conservation, and ecological studies of natives to Korea, along with acceleration of Silybum marianum industrialization.
Keyphrases
  • copy number
  • genome wide
  • body mass index
  • genetic diversity
  • climate change
  • physical activity
  • weight loss
  • dna methylation
  • machine learning
  • heavy metals
  • big data
  • amino acid
  • label free
  • plant growth