# Unidirectional genomic introgression facilitates the colonization of an invasive orchid in arid, metal-enriched sedimentary habitats

**Authors:** Zhenbin Jiao, Zhiyao Ren, Chao Hu, Xiaokai Ma, Guo-Qiang Zhang, Li-Jun Chen, Gang Wei, Dong-Hui Peng, Siren Lan, Yi-Bo Luo, Zhong-Jian Liu

PMC · DOI: 10.1016/j.xplc.2025.101561 · 2025-10-13

## TL;DR

This study shows how gene transfer from a local orchid to an invasive species helps it survive in harsh, dry, and metal-rich environments.

## Contribution

The study reveals unidirectional introgression and identifies specific genes involved in stress adaptation in invasive orchids.

## Key findings

- Introgressed regions contain genes that help the invasive orchid tolerate drought and metal-ion stress.
- Specific genes like CDPK, HHP, and CIPK23 show distinct selection and expression patterns linked to stress responses.
- Unidirectional introgression aids colonization of extreme habitats by invasive Dendrobium species.

## Abstract

Genes that introgress between species can influence the evolutionary and ecological fate of recipients exposed to novel environments. However, key questions on the patterns and molecular mechanisms of introgression in perennial herbaceous plants, which enable distantly related invasive species to thrive in extreme habitats, remain largely unanswered. Here, we report unidirectional introgression from the local species Dendrobium huoshanense to the distantly related invasive species Dendrobium catenatum (Dendrobium officinale) in lithophytic habitats of eastern China. The introgressed regions, which comprise approximately 1% of the genome, contain genes that regulate responses to drought, cold, and metal-ion stresses. Notably, introgressed loci such as CDPK, HHP, PIF, BRI1, and FY show distinct selection signatures and differential expression compared with their paralogs, each playing a distinct role in drought and cold-stress responses. In addition, CIPK23, PDR9, and HAM demonstrate differential expression relative to their paralogous genes and alleles within introgressed loci, indicating their potential involvement in responses to metal-ion stress. Introgression thus facilitates the colonization of arid, metal-enriched sedimentary habitats by D. catenatum. These findings enhance our understanding of Orchidaceae evolution and reveal the evolutionary role of unidirectional introgression in the adaptation of perennial herbaceous plants to extreme environments.

This study demonstrates unidirectional genomic introgression from Dendrobium huoshanense to the invasive species D. catenatum in lithophytic habitats. The introgressed regions harbor genes that regulate responses to drought and metal-ion stress, enabling D. catenatum to colonize arid, metal-enriched sedimentary environments.

## Linked entities

- **Genes:** CDPK (Calcium-dependent protein kinase SK5) [NCBI Gene 547825], IH (Hemihypertrophy) [NCBI Gene 100188864], PIF1 (PIF1 5'-to-3' DNA helicase) [NCBI Gene 80119], BRI1 (Leucine-rich receptor-like protein kinase family protein) [NCBI Gene 830095], ACKR1 (atypical chemokine receptor 1 (Duffy blood group)) [NCBI Gene 2532], CIPK23 (CBL-interacting protein kinase 23) [NCBI Gene 839907], ABCG37 (pleiotropic drug resistance 9) [NCBI Gene 824516], ham (hamlet) [NCBI Gene 35135]
- **Species:** Dendrobium huoshanense (taxon 154293), Dendrobium catenatum (taxon 906689), Dendrobium officinale (taxon 142615)

## Full-text entities

- **Chemicals:** metal (MESH:D008670)
- **Species:** Dendrobium huoshanense (species) [taxon 154293], Dendrobium officinale (species) [taxon 142615]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12902288/full.md

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Source: https://tomesphere.com/paper/PMC12902288