Abstract

Elucidating the mechanism of infection of Bombyx mori nuclear polyhedrosis virus (BmNPV) and host antiviral response remains a major scientific task in sericulture. Virus invasion causes a series of antiviral immune responses in the host, and successful infection leads to massive changes in the host’s physiological and biochemical state. Current research mainly focuses on silkworm genes and proteins associated with viral infection and resistance, but little is known regarding the host metabolic pathways that the virus utilizes for optimal replication. In this work, key metabolites involved in viral infection were identified, including trehalose, riboflavin, tryptophan, tyrosine, and phenylalanine. The genes associated with metabolite biosynthesis and catabolism were analyzed, and their expression levels were found to be largely consistent with their respective metabolite levels before and after viral treatment in both strains. The screened metabolites were further investigated for their roles in viral replication using exogenous metabolite addition into the culture medium. The results showed that tryptophan effectively inhibited BmNPV replication, while glutamine promoted viral replication in a dose-dependent manner. Trehalose and riboflavin exhibited a complex effect on BmNPV replication. This study outlines the critical metabolites and metabolic pathways required for BmNPV to proliferate and infect the host, indicting the potential of metabolite-based treatment for viral inhibition.

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