Silica Nanoparticles Enhance Disease Resistance in Arabidopsis Plants - RAW DATA
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Description
These datasets are used to produce the figures/graphs published in our article
Silica Nanoparticles Enhance Disease Resistance in Arabidopsis Plants
in Nat. Nanotechnol. (2020). https://doi.org/10.1038/s41565-020-00812-0
Correspondence:
fabienne.schwab@alumni.ethz.ch, Tel: +41 78 736 00 19;
m.shetehy@uky.edu, Tel. +41 76 455 56 02
Further raw data related to qPCR and microbiology are available upon reasonable request from M.H. El‑Shetehy.
Further raw data related to the nanoparticles and plant microscopy are available upon reasonable request by F. Schwab.
Abstract
In plants, pathogen attack can induce an immune response known as systemic acquired resistance (SAR) that protects against a broad spectrum of pathogens. In the search for safer agrochemicals, silica nanoparticles (SiO2‑NPs, food additive E551) have recently been proposed as a new tool. However, initial results are controversial, and the molecular mechanisms of SiO2‑NP-induced disease resistance are unknown. Here, we show that SiO2‑NPs, as well as soluble orthosilicic acid (Si(OH)4), can induce SAR in a dose-dependent manner, that involves the defence hormone salicylic acid. Nanoparticle uptake and action occurred exclusively through stomata (leaf pores facilitating gas exchange) and involved extracellular adsorption in leaf air spaces of the spongy mesophyll. In contrast to treatment with SiO2‑NPs, induction of SAR by Si(OH)4 was problematic, since high concentrations caused stress. We conclude that SiO2‑NPs have the potential to serve as an inexpensive, highly efficient, safe, and sustainable alternative for plant disease protection.
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Additional details
Related works
- Is supplement to
- Journal article: 10.1038/s41565-020-00812-0 (DOI)
Funding
- Enhancing Legume Defenses: Exploring Bioinspired Nanomaterials to Support Plant Health PZ00P3_168187
- Swiss National Science Foundation
References
- El-Shetehy, M., Moradi, A., Maceroni, M. et al. Silica nanoparticles enhance disease resistance in Arabidopsis plants. Nat. Nanotechnol. (2020). https://doi.org/10.1038/s41565-020-00812-0