# Harnessing genetic diversity: The genomic and transcriptomic insights of Eugenia uniflora for environmental resilience

**Authors:** Isabel Cristina Cadavid Sánchez, Edgar L. Waschburger, Rita M.C. de Almeida, Alexandre Nascimento de Vargas, Guilherme Loss de Morais, Jimena Giraldo Flores, Dámaris Esquén Bayona, Rogerio Margis, Andreia Carina Turchetto-Zolet, Frank Lino Guzman Escudero

PMC · DOI: 10.1371/journal.pone.0333437 · 2025-11-04

## TL;DR

This paper explores the genetic makeup of pitanga plants to understand how they adapt to different environments, which could help in developing resilient crops.

## Contribution

The study provides a draft genome and transcriptomic insights into E. uniflora, revealing genetic diversity and adaptation mechanisms.

## Key findings

- A draft genome of E. uniflora was assembled with 30,663 predicted protein-coding genes.
- Microsatellite markers showed genetic diversity differences between Restinga and Riparian forest populations.
- Restinga pitangas exhibited gene expression patterns linked to stress response and adaptation.

## Abstract

Pitanga (Eugenia uniflora L.), a member of the Myrtaceae family, is native to the Brazilian Atlantic Forest and distributed across various ecological environments, including regions with contrasting edaphoclimatic conditions. Known for its production of secondary metabolites with significant biological activity, pitanga holds considerable pharmacological potential. Genomic and transcriptomic resources for this species are therefore valuable for understanding the genetic mechanisms that enable its adaptation to diverse ecosystems and for identifying candidate genes relevant for crop improvement and bioprospection. To explore whether genetic diversity is associated with population adaptation to environmental conditions, we first generated a draft genome of E. uniflora, totaling 385.1 Mbp with an N50 value of 26,199 bp, assembled de novo from Illumina-sequence reads. Likewise, gene prediction, based on Viridiplantae protein references, identified 30,663 protein-coding genes. Comparative genomics revealed 2,219 orthologous clusters, 40% of which were functionally annotated and encompassing 1,772 gene ontology terms. This draft genome also facilitated the identification of microsatellite markers, whose variation was analyzed across pitanga samples from two contrasting natural environments: Restinga and Riparian forest. The microsatellite profile showed a natural bias towards monomeric repeats, with genetic diversity differences across both populations that could be used as molecular markers for phenotype selection and plant breeding. Furthermore, RNA sequencing coupled with a Transcriptogram approach revealed significant differences in gene expression between the two populations. Pitangas from the Restinga ecosystem exhibited a stronger stress response, with distinct gene expression patterns associated with osmoprotection, cell wall modification, detoxification, nutrient balance, and epigenetic regulation. These patterns are likely linked to enhanced adaptation to the water and osmotic stress conditions, characteristic of this environment. Together, these findings enhance our knowledge of genetic diversity within E. uniflora populations and the molecular basis of their environmental adaptability. Such insights are critical for understanding how plants rapidly adapt to climate change and how these adaptations affect population dynamics, important for conservation strategies, population management, and the development of resilient cultivars.

## Linked entities

- **Species:** Eugenia uniflora (taxon 119951), Mus musculus (taxon 10090)

## Full-text entities

- **Species:** Eugenia uniflora (Brazil-cherry, species) [taxon 119951]

## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12585098/full.md

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Source: https://tomesphere.com/paper/PMC12585098