A Comprehensive Review of Nanoparticles Induced Stress and Toxicity in Plants

Universal Journal of Green Chemistry Pub Date : 2023-05-11 DOI:10.37256/ujgc.1120231946

Shamshad Ahmad, A. K. Pathak, Rose P. Minj, Shalini Chaudhary, Ashis Kumar, Tania Chalotra, Neelu Raina

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Abstract

Increasing demand for engineered Nanomaterial (ENMs) that have been widely applied in plant systems, for the improvement of quality, development, growth, nutritive value, and gene preservation. The uptake, translocation, biotransformation, and the associated perils of application of Nanomaterial in the crops demand a much deeper understanding of the biochemical, physiological, and molecular mechanisms of the florae in relation to nanoparticles (NPs). Interaction between different plant parts and NPs resulted in various changes in physiology, morphology, and genotoxicity, indicating positive as well as negative feedback by NMs over the various mechanisms of the plants and their species. NMs may open new and safer opportunities for smart delivery of biomolecules and new strategies in plant genetic engineering, with the final aim to enhance plant defense and/or stimulate plant growth and development and, ultimately, crop production. This review summarizes the current understanding and the future possibilities of research relevant to plant-nanoparticles integrations.

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纳米颗粒诱导植物胁迫和毒性研究综述

工程纳米材料(enm)已广泛应用于植物系统，以提高质量、发育、生长、营养价值和基因保存。在作物中应用纳米材料的吸收、转运、生物转化和相关危险需要对与纳米颗粒(NPs)相关的植物区系的生化、生理和分子机制有更深入的了解。植物不同部位与NPs的相互作用导致了植物生理、形态和遗传毒性的不同变化，表明NPs对植物及其物种的各种机制有正反馈也有负反馈。NMs可能为生物分子的智能传递和植物基因工程的新策略开辟新的和更安全的机会，最终目的是增强植物防御和/或刺激植物生长和发育，并最终促进作物生产。本文综述了目前对植物-纳米颗粒整合的认识和未来研究的可能性。

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Universal Journal of Green Chemistry

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