Nanogene delivery in plants signifies a pioneering frontier in plant molecular farming, presenting revolutionary potential for crop enhancement and sustainability. This analysis delves into the most recent progressions in nanogene delivery systems, employing nanomaterials to elevate the precision and efficacy of genetic alterations in plants. Through harnessing the distinct characteristics of nanoparticles, scientists can realize targeted gene delivery, minimize off-target effects, and enhance the stability and expression of introduced genes. The fusion of nanotechnology with genetic engineering offers the prospect of cultivating crops with bolstered resistance to pests, diseases, and environmental pressures, as well as improved nutritional composition. This study also tackles the obstacles and future outlook of nanogene delivery, encompassing the necessity for scalable production techniques, regulatory considerations, and potential environmental ramifications. On the whole, nanogene delivery stands ready to transform plant molecular farming, paving the way for more resilient and fruitful agricultural systems.

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Tactical Nanogene Delivery for Plant Molecular Farming: Paving the Way for Sustainable Agriculture

  • Ayushi Malik,
  • Khushboo Jain,
  • Mayank Suthar,
  • Sunita Verma,
  • Rajarshi Kumar Gaur,
  • Avinash Marwal

摘要

Nanogene delivery in plants signifies a pioneering frontier in plant molecular farming, presenting revolutionary potential for crop enhancement and sustainability. This analysis delves into the most recent progressions in nanogene delivery systems, employing nanomaterials to elevate the precision and efficacy of genetic alterations in plants. Through harnessing the distinct characteristics of nanoparticles, scientists can realize targeted gene delivery, minimize off-target effects, and enhance the stability and expression of introduced genes. The fusion of nanotechnology with genetic engineering offers the prospect of cultivating crops with bolstered resistance to pests, diseases, and environmental pressures, as well as improved nutritional composition. This study also tackles the obstacles and future outlook of nanogene delivery, encompassing the necessity for scalable production techniques, regulatory considerations, and potential environmental ramifications. On the whole, nanogene delivery stands ready to transform plant molecular farming, paving the way for more resilient and fruitful agricultural systems.