# Comparative plastome analyses and evolutionary relationships of Drynaria

**Authors:** Xiao-Hua Chen, Jiang-Ping Shu, Juan Li, Yue-Hong Yan, Xi-Long Zheng, Yu-Feng Gu

PMC · DOI: 10.3389/fpls.2025.1688693 · Frontiers in Plant Science · 2026-01-20

## TL;DR

This study analyzes the plastomes of 15 Drynaria fern species to understand their evolutionary relationships and genomic features.

## Contribution

The study provides new insights into the adaptive evolution and phylogenetic relationships of Drynaria through comparative plastome analysis.

## Key findings

- The plastomes of Drynaria species range from 151,473 bp to 163,438 bp with 133 conserved genes.
- Seven hypervariable regions and numerous repeats were identified, indicating genomic diversity.
- Positive selection was detected in genes like petA, ycf3, ccsA, ycf1, and rpoC2.

## Abstract

The genus Drynaria, a member of the Polypodiaceae family, exhibits substantial medicinal and ornamental value. Although molecular biological studies have elucidated the phylogenetic relationships in Drynaria, the characteristics of its plastome and the mechanisms underlying its adaptive evolution remain inadequately understood.

This study performed a comprehensive comparative genomic analysis based on the plastomes of 15 Drynaria species. The research analyzed codon usage bias and identified positively selected genes within this genus. A well-supported phylogenetic tree was constructed using plastome data, and divergence times were measured at key nodes.

The analysis revealed that the plastomes of the 15 Drynaria species varied in size from 151,473 bp (D. speciosa) to 163,438 bp (D. parishii), each with 133 genes. Comparative analysis demonstrated conserved gene content, order, and orientation across all examined species, with no inversions or rearrangements except for a non-coding region rearrangement in the large single copy region of D. roosii and the small single copy region of D. meyeniana. Nucleotide diversity analysis identified seven hypervariable regions. The study detected 691 simple sequence repeats, 136 tandem repeats, and 750 dispersed repeats. Codon usage bias in Drynaria plastomes was predominantly influenced by natural selection. Phylogenetic reconstruction based on complete plastomes produced congruent topologies. Divergence time estimation suggested that Drynaria originated in the mid-Paleocene (59.75 Ma), with major diversification events occurring during the late Miocene (6–5 Ma). Selection pressure analysis revealed positive selection of petA and ycf3 in branch models, while ccsA, ycf1, and rpoC2 exhibited evidence of positive selection in branch-site models.

These findings provide insights into the evolutionary adaptations and genomic features of this ecologically and economically significant fern genus.

## Linked entities

- **Genes:** petA (cytochrome f) [NCBI Gene 800189], ycf3 (photosystem I assembly protein Ycf3) [NCBI Gene 800238], ccsA (cytochrome c biogenesis protein) [NCBI Gene 800132], ycf1 (hypothetical chloroplast RF1) [NCBI Gene 800970], rpoC2 (RNA polymerase beta'' subunit) [NCBI Gene 800295]
- **Species:** Drynaria speciosa (taxon 2836283), Drynaria parishii (taxon 2836282), Drynaria meyeniana (taxon 187340)

## Full-text entities

- **Species:** Aglaomorpha fortunei (species) [taxon 872542], Drynaria (genus) [taxon 187348], Dendrocnide meyeniana (species) [taxon 1399671], Dendrobium parishii (species) [taxon 469460]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12864413/full.md

## References

58 references — full list in the complete paper: https://tomesphere.com/paper/PMC12864413/full.md

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Source: https://tomesphere.com/paper/PMC12864413