Regulation of <i>Bombyx mori</i>–BmNPV Protein Interactions: Study Strategies and Molecular Mechanisms

Regulation of <i>Bombyx mori</i>–BmNPV Protein Interactions: Study Strategies and Molecular Mechanisms

As a pivotal model organism in Lepidoptera research, the silkworm (<i>Bombyx mori</i>) holds significant importance in life science due to its economic value and biotechnological applications. Advancements in proteomics and bioinformatics have enabled substantial progress in characterizi...

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Bibliographic Details
Main Authors: Dan Guo, Bowen Liu, Mingxing Cui, Heying Qian, Gang Li
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Viruses
Subjects:
<i>Bombyx mori</i>
protein–protein interactions
Bombyx mori nucleopolyhedrovirus
Online Access:https://www.mdpi.com/1999-4915/17/7/1017
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Summary:As a pivotal model organism in Lepidoptera research, the silkworm (<i>Bombyx mori</i>) holds significant importance in life science due to its economic value and biotechnological applications. Advancements in proteomics and bioinformatics have enabled substantial progress in characterizing the <i>B. mori</i> proteome. Systematic screening and identification of protein–protein interactions (PPIs) have progressively elucidated the molecular mechanisms governing key biological processes, including viral infection, immune regulation, and growth development. This review comprehensively summarizes traditional PPI detection techniques, such as yeast two-hybrid (Y2H) and immunoprecipitation (IP), alongside emerging methodologies such as mass spectrometry-based interactomics and artificial intelligence (AI)-driven PPI prediction. We critically analyze the strengths, limitations, and technological integration strategies for each approach, highlighting current field challenges. Furthermore, we elaborate on the molecular regulatory networks of Bombyx mori nucleopolyhedrovirus (BmNPV) from multiple perspectives: apoptosis and cell cycle regulation; viral protein invasion and trafficking; non-coding RNA-mediated modulation; metabolic reprogramming; and host immune evasion. These insights reveal the dynamic interplay between viral replication and host defense mechanisms. Collectively, this synthesis aims to provide a robust theoretical foundation and technical guidance for silkworm genetic improvement, infectious disease management, and the advancement of related biotechnological applications.
ISSN:1999-4915

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