Litcius/Paper detail

A Combinatorial Nanobased Spray-Induced Gene Silencing Technique for Crop Protection and Improvement

Snigdha Ghosh, Snehanjana Patra, Sarmistha Ray

2023ACS Omega23 citationsDOIOpen Access PDF

Abstract

Recent research reports have shown that plant pests and pathogens have depleted the crop yield widely, which has led to an increased dependence on commercial pesticides and fungicides. Increased usage of these pesticides has also shown adverse effects on the environment, therefore many techniques have been implemented for solving the issue, some of which include using nanobioconjugates, RNA(i), which put into use double-stranded RNAs to inhibit gene expression. A more innovative and eco-friendly strategy includes spray induced gene silencing, which is being increasingly implemented. This review delves into the eco-friendly approach of spray induced gene silencing (SIGS) in combination with nanobioconjugates, which have been used concerning various plant hosts and their pathogens to provide improved protection. Furthermore, nanotechnological advancements have been understood by addressing the scientific gaps to provide a rationale for the development of updated techniques in crop protection.

Topics & Concepts

Gene silencingCrop protectionEnvironmentally friendlyBiotechnologyPesticideFungicideBiologyComputational biologyGeneAgronomyGeneticsEcologyPlant Virus Research StudiesInsect Resistance and GeneticsPlant tissue culture and regeneration