# Gene Expression Profiling of Transcription Factors and Acclimation-Related Genes in Ribes spp

**Authors:** Ana Dovilė Zubauskienė, Edvinas Misiukevičius, Vidmantas Bendokas, Emmanuel Gabriel Njoku, Ingrida Mažeikienė

PMC · DOI: 10.3390/ijms262110367 · 2025-10-24

## TL;DR

This study explores how different Ribes species respond to cold stress at the genetic level, revealing species-specific patterns that could help improve cold tolerance in crops.

## Contribution

The study provides specific primers for stress-responsive genes and reveals species-specific gene expression patterns during acclimation cycles in Ribes species.

## Key findings

- Species-specific genetic responses were observed across acclimation cycles of varying durations in three Ribes species.
- Deacclimation significantly reduced freezing tolerance in R. nigrum but had minor effects on R. aureum.
- Distinct regulatory patterns of transcription factors were identified, highlighting conserved and species-specific genes in acclimation mechanisms.

## Abstract

The ability of Ribes species to survive the fluctuating winter and early spring conditions, relies on the regulation of transcription factors (TFs) and other key genes involved in the abiotic stress response. In this study, we developed specific primers for 33 stress-responsive genes, which may facilitate future functional studies in Ribes and other less-characterized lineages within the Saxifragales order. These genes were selected based on a comparative transcriptomic analysis of R. nigrum cv. Aldoniai and are known to function in cold acclimation and stress signaling pathways. We analyzed expression profiles of these 33 genes in R. aureum, R. hudsonianum, and R. nigrum microshoot cultures exposed to controlled cold stress, deacclimation and reacclimation treatments. Our results revealed species-specific genetic responses across acclimation cycles of varying durations (24–96 h). Cold stress induces molecular changes in three Ribes spp.; however, deacclimation triggered by transient warming significantly reduced freezing tolerance in R. nigrum, had a moderate effect on R. hudsonianum, and minor impact on R. aureum. Gene expression profiling revealed distinct, species-specific regulatory patterns among species during different stress cycles, highlighting conserved and specific genes in acclimation mechanisms within the Ribes spp. These findings contribute to a deeper understanding of transcriptional regulation under acclimation cycles in currants and provide molecular tools that may support breeding strategies aimed at enhancing cold tolerance in Ribes crops amid increasing climate variability.

## Linked entities

- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Species:** Ribes (genus) [taxon 3801], Ribes hudsonianum (Hudson Bay currant, species) [taxon 175205]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12609403/full.md

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Source: https://tomesphere.com/paper/PMC12609403