# Characterization of LTR Retrotransposon Reverse Transcriptase in Tamarix chinensis L. and Activity Analysis Under Salt and Alkali Stresses

**Authors:** Long Wang, Bo Li, Yuqian Wang, Shiji Wang, Meichun Zhang, Mengyao Li, Tong Zheng, Hongyan Wang

PMC · DOI: 10.3390/genes16111262 · Genes · 2025-10-26

## TL;DR

This study explores how a desert plant, Tamarix chinensis, uses genetic elements called retrotransposons to adapt to salty and alkaline environments.

## Contribution

The study identifies specific retrotransposon families in Tamarix chinensis that are activated under salt and alkali stresses, offering new insights into plant adaptation mechanisms.

## Key findings

- A total of 629 Ty1-copia and 607 Ty3-gypsy RT sequences were identified in Tamarix chinensis.
- Salt stress activated more Ty1-copia retrotransposons compared to alkali stress.
- Four cTy1-copia and five cTy3-gypsy retrotransposons were identified as key candidates responsive to salt and alkali stresses.

## Abstract

Transposable elements (TEs) are major components of plant genomes and play crucial roles in adaptive genome evolution and stress tolerance. Under abiotic stress, activated TEs can generate abundant genetic variation and regulate the expression of stress-responsive genes. As a pioneer species in desert and saline–alkali environments, Tamarix chinensis L. has been little studied with respect to the abundance and evolutionary relationships of its LTR retrotransposons, particularly their activation patterns under salt and alkali stresses. This study aimed to investigate the characteristics of the reverse transcriptase (RT) domain of LTR retrotransposons in T. chinensis and to determine their patterns of activation in response to salt and alkali stresses. A total of 629 Ty1-copia and 607 Ty3-gypsy RT nucleotide sequences, which displayed high AT/GC ratios and evidence of stop codon insertions, were identified in T. chinensis by amplicon sequencing. Among these, 211 Ty1-copia and 117 Ty3-gypsy RT sequences with potential transpositional activity each contained distinct domains, suggesting a high degree of conservation. Phylogenetic analysis revealed that the RT sequences of T. chinensis are closely related to those of mangrove, wild potato, and Ipomoea, and may have undergone horizontal transfer. Expression analysis showed that 634 and 181 RT sequences were activated under salt and alkali stresses, respectively, with the majority belonging to salt-induced Ty1-copia families. Compared with the control group, under salt and alkali stresses, the cTy1-copia elements (Ty1-copia with amplificated from cDNA of T. chinensis, the same below) with dominant abundance were mainly concentrated in the Angela subfamily, while the cTy3-gypsy elements induced by alkali stress were primarily distributed in the Tekay and Reina subfamilies. Furthermore, four cTy1-copia and five cTy3-gypsy were identified as candidate key LTR retrotransposons responsive to salt and alkali stresses. Overall, this study provides new insights into the epigenetic mechanisms underlying the adaptation of T. chinensis to saline and alkali stresses and offers a theoretical basis for its potential applications in saline–alkali land reclamation.

## Linked entities

- **Chemicals:** salt (PubChem CID 5234)
- **Species:** Tamarix chinensis (taxon 189791), Ipomoea (taxon 4119)

## Full-text entities

- **Chemicals:** Salt (MESH:D012492)
- **Species:** Solanum tuberosum (potatoes, species) [taxon 4113], Ipomoea (genus) [taxon 4119]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12651991/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/PMC12651991/full.md

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Source: https://tomesphere.com/paper/PMC12651991