# Mitogenome Characteristics and Intracellular Gene Transfer Analysis of Four Adansonia Species

**Authors:** Tingting Hu, Fengjuan Zhou, Lisha Wang, Xinwei Hu, Zhongxiang Li, Xinzeng Li, Daoyuan Zhou, Hui Wang

PMC · DOI: 10.3390/genes16070846 · 2025-07-21

## TL;DR

This study analyzes the mitogenomes of four baobab species, revealing genome structure and gene transfer patterns important for evolutionary understanding.

## Contribution

The study reports the first mitogenome assembly for Adansonia species and identifies intracellular gene transfer events.

## Key findings

- Mitogenomes of four Adansonia species are single circular sequences with lengths between 507,138 and 607,344 bp.
- The rps4 gene in Adansonia shows signs of positive selection, suggesting evolutionary significance.
- Chloroplast and mitochondrial genes transfer intact to the nuclear genome, including the psbJ gene.

## Abstract

Adansonia L. (1753) belongs to the family Malvaceae and is commonly known as the baobab tree. This species holds significant cultural and ecological value and is often referred to as the ‘tree of life.’ Although its nuclear genome has been reported, the mitogenome has not yet been studied. Mitogenome research is crucial for understanding the evolution of the entire genome. In this study, we assembled and analyzed the mitogenomes of four Adansonia species by integrating short-read and long-read data. The results showed that the mitogenomes of all four Adansonia species were resolved as single circular sequences. Their total genome lengths ranged from 507,138 to 607,344 bp and contained a large number of repetitive sequences. Despite extensive and complex rearrangements between the mitogenomes of Adansonia and other Malvaceae species, a phylogenetic tree constructed based on protein-coding genes clearly indicated that Adansonia is more closely related to the Bombax. Selection pressure analysis suggests that the rps4 gene in Adansonia may have undergone positive selection compared to other Malvaceae species, indicating that this gene may play a significant role in the evolution of Adansonia. Additionally, by analyzing intracellular gene transfer between the chloroplast, mitochondria, and nuclear genomes, we found that genes from the chloroplast and mitochondria can successfully transfer to each chromosome of the nuclear genome, and the psbJ gene from the chloroplast remains intact in both the mitochondrial and nuclear genomes. This study enriches the genetic information of Adansonia and provides important evidence for evolutionary research in the family Malvaceae.

## Linked entities

- **Genes:** RPS4X (ribosomal protein S4 X-linked) [NCBI Gene 6191], psbJ (photosystem II protein J) [NCBI Gene 800183]
- **Species:** Adansonia (taxon 69108)

## Full-text entities

- **Genes:** RPS4X (ribosomal protein S4 X-linked) [NCBI Gene 6191] {aka CCG2, DXS306, RPS4, S4, SCAR, SCR10}
- **Species:** Adansonia (genus) [taxon 69108]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12295798/full.md

---
Source: https://tomesphere.com/paper/PMC12295798