Author: Kelly, Jamie A.; Woodside, Michael T.; Dinman, Jonathan D.
Title: Programmed −1 Ribosomal Frameshifting in coronaviruses: A therapeutic target Cord-id: xsf22u16 Document date: 2020_12_25
ID: xsf22u16
Snippet: Human population growth, climate change, and globalization are accelerating the emergence of novel pathogenic viruses. In the past two decades alone, three such members of the coronavirus family have posed serious threats, spurring intense efforts to understand their biology as a way to identify targetable vulnerabilities. Coronaviruses use a programmed −1 ribosomal frameshift (−1 PRF) mechanism to direct synthesis of their replicase proteins. This is a critical switch in their replication p
Document: Human population growth, climate change, and globalization are accelerating the emergence of novel pathogenic viruses. In the past two decades alone, three such members of the coronavirus family have posed serious threats, spurring intense efforts to understand their biology as a way to identify targetable vulnerabilities. Coronaviruses use a programmed −1 ribosomal frameshift (−1 PRF) mechanism to direct synthesis of their replicase proteins. This is a critical switch in their replication program that can be therapeutically targeted. Here, we discuss how nearly half a century of research into −1 PRF have provided insight into the virological importance of −1 PRF, the molecular mechanisms that drive it, and approaches that can be used to manipulate it towards therapeutic outcomes with particular emphasis on SARS-CoV-2.
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