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Genomic analysis of Dasiphora on the Qinghai-Tibet Plateau provides insights into genetic divergence and flower color variation

  • Zhongqiong Tian
    ,
  • Qin Qiao
    ,
  • Rengang Zhang
    ,
  • Junwei Wang
    ,
  • Zhefei Zeng
    ,
  • Xien Wu
  • Tibet University
    ,
  • Yunnan Agricultural University
    ,
  • Chinese Academy of Sciences
    ,
  • University of Oxford
Research Output: Contribution to journal Article Peer-review

Abstract

The Qinghai-Tibet Plateau (QTP) harbors diverse alpine flora, including the ecologically significant shrubs Dasiphora fruticosa and D. glabra, for which taxonomic uncertainties remain and adaptive mechanisms are still poorly understood. Based on high-quality genome assembly, population resequencing, and multi-omics integration, we elucidated their evolutionary divergence and flower color genetics. Chromosome-level haplotype-resolved genomes were assembled: autotetraploid D. fruticosa (929.99 Mb) and diploid D. glabra (450.89 Mb). Phylogenetic analysis showed that the tetraploid D. fruticosa and D. glabra in this study clustered together, while the diploid D. fruticosa sequenced by previous research formed a distinct lineage clustered outside. Consistently, population structure analysis of 55 samples revealed three major clades, with D. fruticosa further subdivided into two divergent branches. Additionally, hybridization events detected by Admixture, coupled with ploidy complexity identified via flow cytometry highlight the intricate genetic relationships within this genus. Adaptive gene families expanded in antioxidant (flavonoid synthesis) and secondary metabolism pathways, adapting to ultraviolet radiation and cold stress. Natural selection analysis identified 193 candidate genes (e.g., TFB5 in the DNA repair pathway), predominantly localized to chromosome 5, which are potential candidates for high-altitude adaptation. Transcriptome and metabolome analyses showed D. fruticosa's yellow petals derive from flavonol (quercetin) accumulation, while D. glabra's white petals result from proanthocyanidin biosynthesis via high LAR/ANR expression. This study provides insights into the taxonomic revision and adaptive genetic divergence of alpine plants, and offers a foundation for horticultural improvement of Dasiphora.

Publication Information

Output type

Research Output: Contribution to journal Article Peer-review

Original language

English

Article number

e70530

Pages from-to (Number of pages)

Pages e70530

Journal (Volume, Issue Number)

Plant Journal (Volume 124, Issue 3)

Publication milestones

  • Published - 30/10/2025

Publication status

Published - 30/10/2025

ISSN

0960-7412

External Publication IDs

  • PubMed: 41169030
  • Scopus: 105020480839

Access to documents

TPJ-70530proof10.27
Accepted author manuscript, 8.57 MB
Access to file: Embargo ends 30/10/2026

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