Nano-enabled plant genetic engineering for stress resilience: current advances and future directions
Salem M. AL-Amri

TL;DR
This paper reviews how nanotechnology can improve plant genetic engineering to help crops withstand environmental stresses caused by climate change.
Contribution
The paper introduces nanotechnology as a novel platform for precise and efficient genetic modification of plants, overcoming limitations of traditional methods.
Findings
Nano-enabled delivery systems protect genetic material and allow targeted delivery in plants.
Nanomaterials can enhance plant stress tolerance through redox regulation and nutrient delivery.
Future directions include biodegradable nanocarriers and integration with CRISPR technologies.
Abstract
Plant productivity and food security are increasingly threatened by abiotic and biotic stresses intensified by climate change. Plant genetic engineering offers powerful solutions to enhance stress resilience; however, conventional transformation approaches remain constrained by limited host range, low precision, tissue culture dependency, and regulatory concerns. In this context, nanotechnology has emerged as a transformative enabling platform for precise, efficient, and species-independent delivery of genetic cargo into plant systems. This review provides a comprehensive overview of recent advances in nano-enabled plant genetic engineering for stress resilience, highlighting the role of diverse nanocarriers, including carbon-based nanomaterials (NMs), metal and metal oxide nanoparticles (NPs), polymer-based nanocarriers, and metal–organic frameworks in delivering DNA, RNA interference…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsNanoparticles: synthesis and applications · CRISPR and Genetic Engineering · Carbon and Quantum Dots Applications
