1. Targeted entry of enveloped viruses: measles and herpes simplex virus I
- Author
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Chanakha K. Navaratnarajah, Roberto Cattaneo, Andrea Carfi, and Tanner Miest
- Subjects
biology ,viruses ,Herpes Simplex ,Viral transformation ,DNA virus ,Herpesvirus 1, Human ,Virus Internalization ,biology.organism_classification ,Herpesvirus glycoprotein B ,Virology ,Article ,Virus ,Measles virus ,VP40 ,Viral Envelope Proteins ,Viral entry ,Animals ,Humans ,Receptors, Virus ,Oncovirus ,Measles - Abstract
We compare the receptor-based mechanisms that a small RNA virus and a larger DNA virus have evolved to drive the fusion of viral and cellular membranes. Both systems rely on tight control over triggering the concerted refolding of a trimeric fusion protein. While measles virus entry depends on a receptor-binding protein and a fusion protein only, the herpes simplex virus is more complex and requires four viral proteins. Nevertheless, in both viruses a receptor-binding protein is required for triggering the membrane fusion process. Moreover, specificity domains can be appended to these receptor-binding proteins to target virus entry to cells expressing a designated receptor. We discuss how principles established with measles and herpes simplex virus can be applied to targeting other enveloped viruses, and alternatively how retargeted envelopes can be fitted on foreign capsids.
- Published
- 2012
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