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Review Article



Nanotoxicity: Generation of reactive oxygen species in plants

Mohammad Faizan, Pravej Alam, Vishnu D. Rajput, Ajar Nath Yadav, Shadma Afzal, Sadia Haque Tonny, Ahmad Faraz, Anjuman Hussain, S. Maqbool Ahmad, Tatiana Minkina, Shamsul Hayat.




Abstract

Nanotechnology is the most fascinating field in modern scientific society, which plays multifunctional roles in different dimensions. Particles having a size between 1 nm and 100 nm are called nanoparticles (NPs). NPs contain remarkable physical and chemical characteristics that enable them to perform a variety of functions. The structural alteration of NPs (particle dimension, size, surface area, composition, and chemical properties) leads to malfunctioning in biological systems resulting in the generation of reactive oxygen species (ROS) in plants. In plants, ROS is defined as a “double-edged sword” due to its nature of reacting with the number of biomolecules causing irreversible damage which leads to cell death. The toxicity of NPs is one of the most important factors causing an imbalance in the generation of ROS in plants. On the other hand, the balance formation of ROS in plants has huge potential to ameliorate abiotic stress and enhance crop productivity. This review has covered the phytotoxicity induced by NPs in the form of ROS and its role. Biostimulants for the regulation of ROS under abiotic stress have also been discussed briefly.

Key words: Biological functions; Nanoparticles; ROS; Cellular signaling






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