# Comparative Analysis of Chloroplast Genomes of 19 Saxifraga Species, Mostly from the European Alps

**Authors:** Zhenning Leng, Zhe Pang, Zaijun He, Qingbo Gao

PMC · DOI: 10.3390/ijms26136015 · International Journal of Molecular Sciences · 2025-06-23

## TL;DR

This study analyzes chloroplast genomes of 19 Saxifraga species, mostly from the European Alps, to better understand their genetic diversity and evolutionary relationships.

## Contribution

The study provides the first comprehensive chloroplast genome data for 15 Saxifraga species from the European Alps, enabling broader comparative and evolutionary analyses.

## Key findings

- Chloroplast genomes of 19 Saxifraga species were sequenced, revealing a typical quadripartite structure and 113 unique genes per genome.
- Six intergenic regions were identified as potential DNA barcodes for molecular marker studies.
- Phylogenetic analysis using 75 protein-coding genes showed high bootstrap support and a topology consistent with prior research.

## Abstract

Complete chloroplast genome sequences are widely used in the analyses of phylogenetic relationships among angiosperms. As a species-rich genus, species diversity centers of Saxifraga L. include mountainous regions of Eurasia, such as the Alps and the Qinghai–Tibetan Plateau (QTP) sensu lato. However, to date, datasets of chloroplast genomes of Saxifraga have been concentrated on the QTP species; those from European Alps are largely unavailable, which hinders comprehensively comparative and evolutionary analyses of chloroplast genomes in this genus. Here, complete chloroplast genomes of 19 Saxifraga species were de novo sequenced, assembled and annotated, and of these 15 species from Alps were reported for the first time. Subsequent comparative analysis and phylogenetic reconstruction were also conducted. Chloroplast genome length of the 19 Saxifraga species range from 149,217 bp to 152,282 bp with a typical quadripartite structure. All individual chloroplast genome included in this study contains 113 unique genes, including 79 protein-coding genes, four rRNAs and 30 tRNAs. The IR boundaries keep relatively conserved with minor expansion in S. consanguinea. mVISTA analysis and identification of polymorphic loci for molecular markers shows that six intergenic regions (ndhC-trnV, psbE-petL, rpl32-trnL, rps16-trnQ, trnF-ndhJ, trnS-trnG) can be selected as the potential DNA barcodes. A total of 1204 SSRs, 433 tandem repeats and 534 Large sequence repeats were identified in the 19 Saxifraga chloroplast genomes. The codon usage analysis revealed that Saxifraga chloroplast genome codon prefers to end in A/T. Phylogenetic reconstruction of 33 species (31 Saxifraga species included) based on 75 common protein coding genes received high bootstrap support values for nearly all identified nodes, and revealed a tree topology similar to previous studies.

## Linked entities

- **Genes:** ndhC (NADH dehydrogenase subunit 3) [NCBI Gene 800470], TRNV (tRNA-Val) [NCBI Gene 4577], psbE (photosystem II protein V) [NCBI Gene 800180], petL (cytochrome b6/f complex 6) [NCBI Gene 800424], RPL32 (ribosomal protein L32) [NCBI Gene 6161], trnL (tRNA-Leu) [NCBI Gene 800416], RPS16 (ribosomal protein S16) [NCBI Gene 6217], TRNQ (tRNA-Gln) [NCBI Gene 4572], TRNF (tRNA-Phe) [NCBI Gene 4558], ndhJ (NADH dehydrogenase 30 kDa subunit) [NCBI Gene 800452], TRS-AGA2-3 (tRNA-Ser (anticodon AGA) 2-3) [NCBI Gene 23437], TRNG (tRNA-Gly) [NCBI Gene 4563]

## Full-text entities

- **Genes:** TRNV (tRNA-Val) [NCBI Gene 4577] {aka MTTV}, TRNG (tRNA-Gly) [NCBI Gene 4563] {aka MTTG}, TRNQ (tRNA-Gln) [NCBI Gene 4572] {aka MTTQ}, RPL32 (ribosomal protein L32) [NCBI Gene 6161] {aka L32, PP9932, eL32}, TRS-AGA2-3 (tRNA-Ser (anticodon AGA) 2-3) [NCBI Gene 23437] {aka TRNAS2, TRNS, TRS-AGA2-4, TRS2, tRNA-SER}
- **Species:** Saxifraga (genus) [taxon 3798]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12249985/full.md

## References

66 references — full list in the complete paper: https://tomesphere.com/paper/PMC12249985/full.md

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Source: https://tomesphere.com/paper/PMC12249985