Plastome comparison and phylogenomics of Chinese endemic Schnabelia (Lamiaceae): insights into plastome evolution and species divergence

Plastome comparison and phylogenomics of Chinese endemic Schnabelia (Lamiaceae): insights into plastome evolution and species divergence

Abstract Background Schnabelia species, herbaceous perennial plants within the Lamiaceae family, possess medicinal value and are endemic to China. While previous studies have focused on morphological classification, molecular systematics, and medicinal components, there has been limited research on...

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Main Authors: Shengnan Wei, Jianan Ying, Mengxia Lu, Jie Li, Yanbo Huang, Zhenming Wu, Paul Nevill, Pan Li, Xinjie Jin, Qixiang Lu
Format: Article
Language:English
Published: BMC 2025-05-01
Series:BMC Plant Biology
Subjects:
Chloroplast genome
Comparative genomics
Lamiaceae
Phylogenomics
Schnabelia
Online Access:https://doi.org/10.1186/s12870-025-06647-y
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Summary:Abstract Background Schnabelia species, herbaceous perennial plants within the Lamiaceae family, possess medicinal value and are endemic to China. While previous studies have focused on morphological classification, molecular systematics, and medicinal components, there has been limited research on phylogenomics. To reveal their plastid genome characteristics and phylogenetic relationships, we sequenced and assembled the plastomes of all five Schnabelia species (S. oligophylla, S. tetrodonta, S. nepetifolia, S. terniflora, S. aureoglandulosa), conducted comparative genomic analyses, and constructed a phylogenetic tree incorporating closely related taxa in subfamily Ajugoideae, as well as conducting divergence time estimation. Results Plastome size of the five species ranged from 155,733 bp to 156,944 bp, encompassing 115 unique genes, with a GC content of 37.8% same for all species. Five intergenic spacer regions (trnH-GUG-psbA, trnK-UUU-matK, petB-petD, ndhD-psaC, ndhA-ndhH) were identified as divergence hotspots. Gene selection pressure analysis demonstrated that all genes were under negative selection. Phylogenetic relationship of Ajugoideae species based on plastomes confirmed the monophyly of Schnabelia. Two clades within Schnabelia were supported, one containing two original species and the other comprising three species transferred from Caryopteris. The stem age of the Schnabelia is estimated to be approximately 30.24 Ma, with the split of two Sections occurring around 12.60 Ma. Conclusions We revealed plastid genome evolutionary features for five species within the genus Schnabelia. The identified highly variable regions can provide a tool for future identification of these medicinal plants. The diversification of Schnabelia during middle Miocene and the Quaternary suggests that historical geological and climatic shifts facilitated species differentiation. These findings enhance our understanding of Schnabelia’s evolution and support future research on chloroplast diversity, aiding conservation and sustainable use.
ISSN:1471-2229

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