1. Biochemical characterization of mRNA capping enzyme from Faustovirus.
- Author
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Chan SH, Molé CN, Nye D, Mitchell L, Dai N, Buss J, Kneller DW, Whipple JM, and Robb GB
- Subjects
- Animals, Phylogeny, RNA, Messenger genetics, Methyltransferases genetics, Guanine, RNA Caps genetics, Mammals genetics, mRNA Guanylyltransferases, Nucleotidyltransferases genetics, Nucleotidyltransferases chemistry, RNA
- Abstract
The mammalian mRNA 5' cap structures play important roles in cellular processes such as nuclear export, efficient translation, and evading cellular innate immune surveillance and regulating 5'-mediated mRNA turnover. Hence, installation of the proper 5' cap is crucial in therapeutic applications of synthetic mRNA. The core 5' cap structure, Cap-0, is generated by three sequential enzymatic activities: RNA 5' triphosphatase, RNA guanylyltransferase, and cap N7-guanine methyltransferase. Vaccinia virus RNA capping enzyme (VCE) is a heterodimeric enzyme that has been widely used in synthetic mRNA research and manufacturing. The large subunit of VCE D1R exhibits a modular structure where each of the three structural domains possesses one of the three enzyme activities, whereas the small subunit D12L is required to activate the N7-guanine methyltransferase activity. Here, we report the characterization of a single-subunit RNA capping enzyme from an amoeba giant virus. Faustovirus RNA capping enzyme (FCE) exhibits a modular array of catalytic domains in common with VCE and is highly efficient in generating the Cap-0 structure without an activation subunit. Phylogenetic analysis suggests that FCE and VCE are descended from a common ancestral capping enzyme. We found that compared to VCE, FCE exhibits higher specific activity, higher activity toward RNA containing secondary structures and a free 5' end, and a broader temperature range, properties favorable for synthetic mRNA manufacturing workflows., (© 2023 Chan et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.)
- Published
- 2023
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