Author: Kasprzyk, Renata; Jemielity, Jacek
Title: Enzymatic Assays to Explore Viral mRNA Capping Machinery Cord-id: 06ltywht Document date: 2021_8_3
ID: 06ltywht
Snippet: In eukaryotes, mRNA is modified by the addition of the 7â€methylguanosine (m(7)G) 5′ cap to protect mRNA from premature degradation, thereby enhancing translation and enabling differentiation between self (endogenous) and nonâ€self RNAs (e. g., viral ones). Viruses often develop their own mRNA capping pathways to augment the expression of their proteins and escape host innate immune response. Insights into this capping system may provide new ideas for therapeutic interventions and facilitate
Document: In eukaryotes, mRNA is modified by the addition of the 7â€methylguanosine (m(7)G) 5′ cap to protect mRNA from premature degradation, thereby enhancing translation and enabling differentiation between self (endogenous) and nonâ€self RNAs (e. g., viral ones). Viruses often develop their own mRNA capping pathways to augment the expression of their proteins and escape host innate immune response. Insights into this capping system may provide new ideas for therapeutic interventions and facilitate drug discovery, e. g., against viruses that cause pandemic outbreaks, such as betaâ€coronaviruses SARSâ€CoV (2002), MARSâ€CoV (2012), and the most recent SARSâ€CoVâ€2. Thus, proper methods for the screening of large compound libraries are required to identify lead structures that could serve as a basis for rational antiviral drug design. This review summarizes the methods that allow the monitoring of the activity and inhibition of enzymes involved in mRNA capping.
Search related documents:
Co phrase search for related documents- Try single phrases listed below for: 1
Co phrase search for related documents, hyperlinks ordered by date