# Genomic diversity of Ligularia revealed by complete plastid genomes and nuclear ribosomal DNAs from 16 collections in Korean Peninsula and Mt. Hallasan

**Authors:** Ju-Young Ahn, Seon Heui Jeong, Jong-Soo Kang, Jee Young Park, Yeon Jeong Kim, Yun Sun Lee, Jae Young Ko, Youn Gi Moon, Jung Hwa Kang, Tae-Jin Yang

PMC · DOI: 10.1371/journal.pone.0343215 · PLOS One · 2026-02-19

## TL;DR

This study explores the genetic diversity of Ligularia plants using DNA from 16 samples, revealing complex hybridization patterns and useful markers for future research.

## Contribution

The study provides new genomic resources and molecular markers for Ligularia, revealing hybridization and genetic diversity patterns.

## Key findings

- Phylogenetic analysis failed to distinguish three morphologically distinct Ligularia taxa, indicating hybridization.
- Genetic diversity in Mt. Hallasan samples includes nearly all major variants found in the Korean Peninsula.
- Molecular markers based on plastome variations were developed for grouping and future research.

## Abstract

Plastid genome (plastome) and nuclear ribosomal DNA (nrDNA) sequences were assembled from 16 Ligularia accessions, including L. fischeri, L. fischeri var. spiciformis, and L. stenocephala. The assembled lengths ranged from 150,889 bp to 151,173 bp, while the 45S nrDNA transcription units varied from 5,846 bp to 5,848 bp. Comparative analyses revealed 0–106 SNPs and 0–60 InDels among the plastomes, and 1–50 SNPs and 0–4 InDels within the 45S nrDNA regions. Although the three taxa are morphologically distinct, phylogenetic analysis based on plastome and nrDNA sequences failed to differentiate them, with lineages from each taxon intermixing without clear separation. The incongruence between maternally inherited plastome- and biparentally inherited nrDNA-based phylogenies suggests frequent hybridization events, though incomplete lineage sorting may also contribute. This pattern of genetic admixture was also observed in accessions collected from various farms, implying that both natural and artificial hybridization have contributed to the current genetic structure. Samples from Mt. Hallasan showed broad genetic diversity, encompassing nearly all major variants found across the Korean Peninsula. Molecular markers were developed based on plastome variations and serve as grouping criteria. The genomic resources and markers generated in this study provide valuable tools for future molecular breeding and evolutionary research in Ligularia.

## Linked entities

- **Species:** Ligularia fischeri (taxon 186954), Ligularia fischeri var. spiciformis (taxon 714641), Ligularia stenocephala (taxon 189220)

## Full-text entities

- **Diseases:** diabetic (MESH:D003920), hepatic insufficiency (MESH:D048550), jaundice (MESH:D007565), scarlet fever (MESH:D012541), ulcer (MESH:D014456), rheumatoid arthritis (MESH:D001172)
- **Chemicals:** dNTPs (-), SYTO 9 (MESH:C103389), agarose (MESH:D012685)
- **Species:** Farfugium japonicum (species) [taxon 186951], Ligularia jaluensis (species) [taxon 1798769], Ligularia biceps (species) [taxon 2883052], Ambrosia artemisiifolia (annual ragweed, species) [taxon 4212], Crepis sancta (species) [taxon 268028], Flourensia cernua (species) [taxon 2604028], Ligularia fischeri (species) [taxon 186954], Peucedanum japonicum (species) [taxon 49563], Brassica oleracea (wild cabbage, species) [taxon 3712], Ligularia mongolica (species) [taxon 2291087], Homo sapiens (human, species) [taxon 9606], Ligularia veitchiana (species) [taxon 262729], Ligularia hodgsonii (species) [taxon 186955], Brassica napus (oilseed rape, species) [taxon 3708], Ligularia virgaurea (species) [taxon 186957], Ligularia stenocephala (species) [taxon 189220], Labyrinthula sp. f (species) [taxon 160257], Ligularia (genus) [taxon 4239], Ligularia fischeri var. spiciformis (varietas) [taxon 714641], Euonymus hamiltonianus (species) [taxon 408194]
- **Cell lines:** MF929248.1 — Homo sapiens (Human), Pseudoxanthoma elasticum, Finite cell line (CVCL_Y126)

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12919781/full.md

## References

66 references — full list in the complete paper: https://tomesphere.com/paper/PMC12919781/full.md

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Source: https://tomesphere.com/paper/PMC12919781