Drought stress effects on gene expression and metabolite profiles in blackcurrant (Ribes nigrum L.)

This ARC represents the data described in the following publication:

Ziegler et al. 2024 Hort Res. https://doi.org/10.1093/hr/uhae313

Abstract

The blackcurrant (Ribes nigrum L., family Grossulariaceae) is a perennial shrub valued for its antioxidant-rich berries, widely used in the food and beverage industry. However, prolonged drought during the fruiting season leads to drought stress, inhibiting growth and reducing yields. To explore the underlying molecular mechanisms, we present the first high-quality chromosome-scale genome assembly for blackcurrant (cv. Rosenthals Langtraubige), the first in the Grossulariaceae family. Using this genomic reference, we analyzed the transcriptomic response of blackcurrant leaves and roots to drought stress, identifying key differentially expressed genes and significant changes in primary metabolites, such as increased proline and depleted organic acids under stress. This data can aid in developing drought-resistant blackcurrant cultivars.

Table of contents

Studies

The studies encompass all plant growth experiments that were performed to obtain samples for genome sequencing, RNA-Seq experiments, and metabolite analysis.

Ribes nigrum genome

Drought stress experiment 1

Drought stress experiment 2

Assays

Genome Sequencing

RNASeq (Drought)

Metabolite measurement

Runs

Results of the genome sequencing and transcriptome analysis

Ribes nigrum genome annotation

Ribes nigrum transcriptom

Supplemental Material

Supplemental Material