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• W3132357341 abstract "Genetic engineering of plants has province role in augmenting agricultural productivity and ensuring food security via inducing desired genetic changes in plant. However, delivery of desired biomolecule in plant system through conventional genetic engineering have some key challenges. Current emerging trends of plant nanotechnology have created great opportunity to overcome these drawbacks and nanoparticle assisted delivery of specific genes (i.e., DNA, RNA) and protein is an advanced scope in plant genetic engineering. It is proven as highly efficient approach for successful delivery of specific genes in plant system, as it has strong efficacy to pass on/ traverse rigid and multi-layered plant cell wall structure, as well as having broad compatibility with various plant species. Nanotechnology inferred devices (i.e., nanocapsules, nanotubes, nanofibers, nano-sheets), used as nano-vector/ nanocarriers for efficient delivery of active ingredients to specific target sites in plants and induce genetic transformation in plant in desired way. Recently, nanoparticle mediated delivery of important biomolecules (DNA, RNA and protein) into plant system without using ballistic force externally has been successfully documented by various nanotechnologist, via using different nanomaterial, that is, single walled carbon nanotube (SWCNTs), mesoporous silicon based nanotube NPs (MSNs), polymeric nanotubes DNA nanostructures, peptide-based nanomaterials etc. Recently, solar rechargeable antimicrobial nanofibrous membranes (RNMs) were developed by nano-biotechnological researchers that can efficiently produce some specific reactive oxygen species (ROS) to resist against micro pathogens, so on acts efficiently in improving plant resistance against different biotic and abiotic stress. The nano-mediated biomolecule delivery exhibit several advantages; i.e., high extensibility/ transmissibility through cell wall, efficient compatibility of nano-carriers with plant biomolecules refers them for efficient delivery of intact DNA into plant, as well as acts as promising material for delivery of plasmid DNA into intact plants, immature plant tissues and protoplasts, executed in less time. In recent decade, nano-technologists have great concern on exploring nanomaterial -based genetic delivery strategies for different genetic cargos by using novel nano-genetic tools. The previous reports are promising tool to enforce further exploration of nanomaterial as genetic engineering tool to transient plant biomolecule delivery platform. Present chapter is an attempt to document foreseen and co-ordinated interdisciplinary researches on role of nanotechnology in bio cargo delivery in plant system, addressing the advances, scopes and applicability of nano-based genetic methods, its limitations and further research perspectives for ensuring their safer use in future food security and sustainability in agriculture." @default.
• W3132357341 created "2021-03-01" @default.
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• W3132357341 date "2021-01-01" @default.
• W3132357341 modified "2023-09-23" @default.
• W3132357341 title "Nano-Biotechnological Approach of Plant Genetic Engineering" @default.
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• W3132357341 doi "https://doi.org/10.1016/b978-0-12-820780-2.00021-2" @default.
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