Tao Hu's research while affiliated with Wanhua Chemical Group Co.,Ltd. and other places

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Publications (1)

Overview of reverse genetics systems of deformed wing virus (DWV) and Flock House virus (FHV). This figure provides a comprehensive overview of the reverse genetics systems for the DWV (Iflaviridae) (Panels A–C) and the FHV (Nodaviridae) (Panels D–F). It offers a detailed depiction of the process involved in the construction of infectious clones of these viruses, including the steps of vector construction, virus rescue, and virus inoculation.
Overview of reverse genetics systems of plant rhabdovirus and tospovirus. This figure elucidates the reverse genetics systems of the Plant Rhabdovirus (Panels A, B) and the tomato spotted wilt virus (Tospoviridae) (Panels C, D). The figure also includes a panel (Panel E) that illustrates the rescue and inoculation of recombinant insect viruses, a critical step in the reverse genetics system.
Overview of insect viruses’ identification through next‐generation sequencing (NGS) and the prospective applications of recombinant insect viruses for pest control. The process involves the collection of field insects, followed by high‐throughput sequencing and bioinformatics analysis to identify a diverse array of insect viruses. The figure further details the application of gene engineering methods, including the construction of overexpression vectors, gene silencing vectors, and gene editing vectors for these viruses.
Leveraging insect viruses and genetic manipulation for sustainable agricultural pest control
  • Literature Review
  • Publisher preview available

December 2023

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24 Reads

Pest Management SciencePest Management Science

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Kang Fu

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Tao Hu

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[...]

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The potential of insect viruses in the biological control of agricultural pests is well‐recognized, yet their practical application faces obstacles such as host specificity, variable virulence, and resource scarcity. High‐throughput sequencing (HTS) technologies have significantly advanced our capabilities in discovering and identifying new insect viruses, thereby enriching the arsenal for pest management. Concurrently, progress in reverse genetics has facilitated the development of versatile viral expression vectors. These vectors have enhanced the specificity and effectiveness of insect viruses in targeting specific pests, offering a more precise approach to pest control. This review provides a comprehensive examination of the methodologies employed in the identification of insect viruses using HTS. Additionally, it explores the domain of genetically modified insect viruses and their associated challenges in pest management. The adoption of these cutting‐edge approaches holds great promise for developing environmentally sustainable and effective pest control solutions. © 2023 Society of Chemical Industry.

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