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The Bombyx mori Nucleopolyhedrovirus GP64 Retains the Transmembrane Helix of Signal Peptide to Contribute to Secretion across the Cytomembrane

Bifang Hao, Lin Liu, Na Liu, Luping Sun, F. Fan, Jinshan Huang

2022Microbiology Spectrum19 citationsDOIOpen Access PDF

Abstract

BmNPV is the primary pathogen of silkworms, which causes severe economic losses in sericulture. BmNPV and Autographa californica multiple nucleopolyhedrovirus (AcMNPV) are closely related group I alphabaculoviruses, but they exhibit nonoverlapping host specificity. Recent studies suppose that GP64 is a determinant of host range, while knowledge remains limited. In this study, we revealed that BmNPV GP64 retained its SP in host cells but not in nonhost cells, and the SP retention is required for GP64 secretion across the cytomembrane. This is the first report that a type I membrane fusion protein retained its SP in mature proteins and virions. Our results unveil the mechanism by which SP GP64 escapes cleavage and the role of SP in protein targeting. This study will help elucidate an important mechanistic understanding of BmNPV infection and host range specificity.

Topics & Concepts

BiologySecretionSignal peptideCleavage (geology)Transmembrane proteinBombyx moriPathogenCell biologyTransmembrane domainVirusCell fusionBombyxVirologyGeneticsCellPeptide sequenceGeneBiochemistryPaleontologyReceptorFracture (geology)Viral Infectious Diseases and Gene Expression in InsectsInsect Resistance and GeneticsSilk-based biomaterials and applications