Complete chloroplast genomes of Leptodermis scabrida complex: Comparative genomic analyses and phylogenetic relationships

Leptodermis scabrida complex is one of the important components of genus Leptodermis, which is mainly distributed in the Himalaya Mountains. It includes species of L. gracilis, L. hirsutiflora, L. hirsutiflora var. ciliata, L. kumaonensis, L. pilosa var. acanthoclada and L. scabrida. However, species boundaries and relationships within this complex are unclear based on current morphological and molecular evidence. We sequenced 13 complete chloroplast (cp) genomes representing seven taxa of the complex and two non-Leptodermis scabrida complex taxa. After de novo assembly and annotation, we performed comparative genomic analysis. All cp genomes showed highly conserved structures, and the genome sizes ranged from 154,369 bp to 154,885 bp and possessed the same GC content (37.5%). A total of 113 unique genes were identified in each cp sample, including 79 protein coding genes, 30 tRNAs, and four rRNAs. Repeat sequences and SSRs were detected, showing great similarity among all taxa in this complex. Six highly variable regions, including trnS-trnG, rps2-rpoC2, ndhF, rpl32-ccsA, ccsA-ndhD, and ndhA, were screened as potential molecular markers for phylogenetic reconstruction. Based on a total of 27 complete cp genome sequences, the consistent and robust phylogenetic relationships were firstly constructed and the same species within L. scabrida complex clustered into a group. The divergence time of Leptodermis from ancestral taxa occurred at the middle Eocene, which might be due to geological and climatic changes. The 13 complete cp genome sequences reported will provide new clues for phylogeny elucidation, species identification and evolutionary history speculation of Leptodermis, as well as in Rubiaceae.

Automated summary

The Leptodermis scabrida complex, an important component of the Leptodermis genus found in the Himalaya Mountains, has unclear species boundaries and relationships. Comparative genomic analysis of 13 complete chloroplast genomes from this complex revealed highly conserved structures and potential molecular markers for phylogenetic reconstruction. The divergence time of Leptodermis from ancestral taxa was estimated to be in the middle Eocene, possibly influenced by geological and climatic changes, providing new insights for phylogeny, species identification, and evolutionary history in Leptodermis and Rubiaceae.