Ulmus minor response to Dutch elm disease: de novo transcriptome assembly and annotation
V. Chano, J. Sobrino-Plata, C. Martínez-Arias, C. Collada, J. Rodríguez-Calcerrada, J. A. Martín

TL;DR
This paper presents a transcriptome assembly of Ulmus minor in response to Dutch elm disease, offering insights into resistance mechanisms and tree immunity.
Contribution
The study provides a de novo transcriptome assembly of Ulmus minor under Dutch elm disease, capturing gene responses across resistant and susceptible genotypes.
Findings
A de novo transcriptome assembly was created using RNA sequencing data from three Ulmus minor genotypes.
Differential gene expression analysis revealed responses to Ophiostoma novo-ulmi at multiple time points.
The dataset serves as a resource for understanding molecular resistance mechanisms in elms.
Abstract
Dutch elm disease (DED), caused by Ophiostoma novo-ulmi (ONU), has devastated elm populations across Europe and North America since the 20th century. In this work, a de novo transcriptome assembly of Ulmus minor in response to ONU is presented. We used two DED-resistant genotypes, MDV2.3 and VAD2, and one DED-susceptible genotype, MDV1, to capture responses to ONU at four time points post-inoculation (6, 24, 72, and 144 hours). RNA from collected samples was isolated and sequenced producing 60.88 M 100 bp paired-end reads per sample. We performed a de novo transcriptome assembly combining data from the three genotypes. The assembly was functionally annotated and validated through differential gene expression analysis of the response. This dataset provides a valuable resource for studying molecular mechanisms of DED resistance in elms, contributing to broadening our understanding of tree…
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Taxonomy
TopicsRNA and protein synthesis mechanisms · Plant and Fungal Interactions Research · RNA Research and Splicing
