Application of Orthoflavivirus Pseudovirus Technology in Antiviral Research
Yalan Zhang, Yaqi Zhao, Chaojun Wang, Yuanyuan Zhou, Hao Yuan, Xiaodan Li, Yong Wang, Xiaoling Pan

TL;DR
This review discusses how pseudovirus technology is used to safely study and develop treatments for dangerous orthoflaviviruses like dengue and Zika.
Contribution
The paper systematically summarizes the construction, optimization, and applications of orthoflavivirus pseudoviruses in antiviral research.
Findings
Pseudovirus technology enables safe and efficient antiviral research by mimicking natural viral assembly.
It is used for high-throughput screening of neutralizing antibodies and antiviral drugs.
The technology aids in evaluating vaccine immunogenicity but has limitations in simulating native viral structures.
Abstract
Arthropod-borne orthoflaviviruses, including dengue, Zika, Japanese encephalitis, yellow fever and West Nile viruses, pose a significant global public health threat, causing hundreds of millions of infections annually with severe clinical symptoms. However, the lack of effective vaccines and antiviral drugs, coupled with the biosafety risks associated with handling live highly pathogenic strains, hinders progress in antiviral research. Pseudovirus technology, which uses single-round infectious viral particles lacking replication competence, has thus gained prominence as a safe and versatile tool for antiviral research. This review systematically summarizes the construction, optimization, and applications of orthoflavivirus pseudoviruses in antiviral research. The primary construction strategies of orthoflavivirus pseudoviruses rely on multi-plasmid co-transfection of viral replicons and…
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Taxonomy
TopicsMosquito-borne diseases and control · Invertebrate Immune Response Mechanisms · Viral Infectious Diseases and Gene Expression in Insects
