Nitric oxide‐releasing nanomaterials: from basic research to potential biotechnological applications in agriculture

Nitric oxide‐releasing nanomaterials: from basic research to potential biotechnological applications in agriculture

Summary Nitric oxide (NO) is a multifunctional gaseous signal that modulates the growth, development and stress tolerance of higher plants. NO donors have been used to boost plant endogenous NO levels and to activate NO‐related responses, but this strategy is often hindered by the relative instabili...

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Bibliographic Details
Published in:The New phytologist Vol. 234; no. 4; pp. 1119 - 1125
Main Authors: Seabra, Amedea B., Silveira, Neidiquele M., Ribeiro, Rafael V., Pieretti, Joana C., Barroso, Juan B., Corpas, Francisco J., Palma, José M., Hancock, John T., Petřivalský, Marek, Gupta, Kapuganti J., Wendehenne, David, Loake, Gary J., Durner, Jorg, Lindermayr, Christian, Molnár, Árpád, Kolbert, Zsuzsanna, Oliveira, Halley C.
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-05-2022
Wiley
Subjects:
Agriculture
Animals
Basic oxides
Biotechnology
Chitosan
Environmental science
Life Sciences
nanomaterial
Nanomaterials
nanoparticle
Nanoparticles
Nanotechnology
Nitric Oxide
nitric oxide (NO)
NO donor
Plants
Releasing
S‐nitrosothiol
Traditional farming
nanotechnology
nanomaterial
nanoparticle
nitric oxide (NO)
S-nitrosothiol
NO donor
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Summary:Summary Nitric oxide (NO) is a multifunctional gaseous signal that modulates the growth, development and stress tolerance of higher plants. NO donors have been used to boost plant endogenous NO levels and to activate NO‐related responses, but this strategy is often hindered by the relative instability of donors. Alternatively, nanoscience offers a new, promising way to enhance NO delivery to plants, as NO‐releasing nanomaterials (e.g. S‐nitrosothiol‐containing chitosan nanoparticles) have many beneficial physicochemical and biochemical properties compared to non‐encapsulated NO donors. Nano NO donors are effective in increasing tissue NO levels and enhancing NO effects both in animal and human systems. The authors believe, and would like to emphasize, that new trends and technologies are essential for advancing plant NO research and nanotechnology may represent a breakthrough in traditional agriculture and environmental science. Herein, we aim to draw the attention of the scientific community to the potential of NO‐releasing nanomaterials in both basic and applied plant research as alternatives to conventional NO donors, providing a brief overview of the current knowledge and identifying future research directions. We also express our opinion about the challenges for the application of nano NO donors, such as the environmental footprint and stakeholder's acceptance of these materials.
Bibliography:These authors contributed equally to this work.
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ISSN:0028-646X
1469-8137
DOI:10.1111/nph.18073