# The Mitochondrial Genome of Curcuma longa: A Large and Structurally Complex Genome with Extensive Intracellular DNA Transfer

**Authors:** Bing Xu, Minlong Jia, Jiali Kong, Liyun Nie, Jie Wang, Luke R. Tembrock, Zhiqiang Wu, Sen Li, Xuezhu Liao

PMC · DOI: 10.3390/genes17020243 · 2026-02-19

## TL;DR

This study reports the large and complex mitochondrial genome of the plant Curcuma longa, revealing insights into genome structure and DNA transfer.

## Contribution

The first comprehensive analysis of the mitochondrial genome of Curcuma longa, highlighting its size and structural complexity.

## Key findings

- The mitochondrial genome of Curcuma longa is assembled as a network-like structure of 12 contigs totaling ~7.7 Mb.
- Significant differences in repeat types and abundance were found between mitochondrial and plastid genomes.
- Extensive intracellular DNA transfer events were identified among nuclear, mitochondrial, and plastid genomes.

## Abstract

Background: Plant mitochondrial genomes exhibit extreme variation in size and structure while maintaining a conserved set of core protein-coding genes. This combination of structural diversity and functional conservation provides valuable insights into evolutionary processes such as genome expansion, rearrangement, and intracellular DNA transfer. Curcuma longa, an economically and medicinally important species in the genus Curcuma (Zingiberaceae), has not yet been studied in terms of the organization and evolution of its mitochondrial genome. Methods: In this study, we assembled and annotated the mitochondrial and plastid genomes of C. longa using third-generation HiFi sequencing data, systematically analyzing their genomic structure, repetitive sequence content, and features of sequence transfer between nuclear and organellar genomes. Results: The mitochondrial genome of C. longa was assembled as a complex, network-like structure consisting of 12 contigs with a total length of approximately 7.7 Mb, making it one of the largest mitochondrial genomes reported in monocots to date. Comparative analysis revealed significant differences in repeat types, abundance, and length distribution between the two organellar genomes. Additionally, extensive intracellular DNA transfer events were identified among the nuclear, mitochondrial, and plastid genomes. Conclusions: Overall, this study provides the first comprehensive report on the giant mitochondrial genome of C. longa, detailing its structural organization, repeat content, and intergenomic transfers. These findings lay a foundation for understanding mitochondrial genome evolution in Curcuma and offer broader insights into the mechanisms driving extreme mitochondrial genome expansion in angiosperms and monocots specifically.

## Linked entities

- **Species:** Curcuma longa (taxon 136217), Zingiberaceae (taxon 4642)

## Full-text entities

- **Diseases:** NUPTs (MESH:C537538), injury to (MESH:D014947), MTPTs (MESH:C536350)
- **Chemicals:** curcuminoid (MESH:D036381)
- **Species:** Zea mays (maize, species) [taxon 4577], Curcuma alismatifolia (species) [taxon 251764], Homo sapiens (human, species) [taxon 9606], Saccharum officinarum (noble cane, species) [taxon 4547], Cocos nucifera (coconut palm, species) [taxon 13894], Dracaena cochinchinensis (species) [taxon 593754], Curcuma amarissima (species) [taxon 136207], Zantedeschia aethiopica (arum-lily, species) [taxon 69721], Sorghum bicolor (broomcorn, species) [taxon 4558], Curcuma longa (turmeric, species) [taxon 136217], Oryza sativa (Asian cultivated rice, species) [taxon 4530], Phoenix dactylifera (date palm, species) [taxon 42345], Cathaya argyrophylla (species) [taxon 64686], Aechmea fasciata (urn-plant, species) [taxon 326768], Viscum scurruloideum (species) [taxon 1664545], Poa pratensis (Kentucky bluegrass, species) [taxon 4545], Silene conica (species) [taxon 39875], Silene noctiflora (night-flowering catchfly, species) [taxon 39899], Avena longiglumis (species) [taxon 4500], Larix sibirica (species) [taxon 62751]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12940290/full.md

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Source: https://tomesphere.com/paper/PMC12940290