Specific nucleotide substitutions in the burst sequence enhance polyhedrin expression in alphabaculoviruses: improvement of baculovirus expression vectors
Susumu Katsuma, Koshi Fukaura, Noriko Matsuda-Imai

TL;DR
Researchers found that specific DNA changes in a virus's genetic sequence can significantly boost protein production in baculovirus systems used for making vaccines and medicines.
Contribution
The study identifies specific nucleotide substitutions in the burst sequence that enhance polyhedrin expression in baculoviruses.
Findings
Triple TTT mutations at positions −16 to −14 in the polh upstream region increased reporter expression four- to fivefold.
The enhancement was observed in both Bombyx mori and Autographa californica baculovirus systems.
The mutations increased polh mRNA and POLH protein accumulation in OB-producing viruses.
Abstract
Alphabaculoviruses produce a large number of occlusion bodies (OBs) in host cells during the late stage of infection. OBs are mainly composed of the viral product polyhedrin (POLH), and the extremely high-level transcription of the polh gene has been exploited to express foreign proteins in insect cultured cells, larvae, and pupae. This polh hyper-transcription requires the “burst sequence” located between the transcriptional start site and the initiation codon. Here, we focused on the roles of the A-rich region within the burst sequence. We generated Bombyx mori nucleopolyhedrovirus mutants whose burst sequence contained “A-to-T” mutations in the A-rich region. Some mutants exhibited levels of polh promoter-driven reporter expression lower than or comparable to that of the wild type, whereas the mutants with TTT mutations at positions −16 to −14 in the polh upstream region showed a…
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Taxonomy
TopicsViral Infectious Diseases and Gene Expression in Insects · Insect Resistance and Genetics · Invertebrate Immune Response Mechanisms
