mRNA structure regulates protein expression through changes in functional half-life

Mauger, David; Cabral, B. Joseph; Presnyak, Vladimir; Su, Stephen; Reid, David W.; Goodman, Brooke; Link, Kristian H.; Khatwani, Nikhil; Reynders, John; Moore, Melissa J.; McFadyen, Iain J.

doi:10.1073/pnas.1908052116

articleProceedings of the National Academy of SciencesNov 11, 2019HYBRID OA

mRNA structure regulates protein expression through changes in functional half-life

DMDavid Mauger BJB. Joseph Cabral VPVladimir Presnyak SSStephen Su DWDavid W. Reid

Moderna Therapeutics (United States)

PubMed

Indexed incrossrefpubmed

Abstract

Messenger RNAs (mRNAs) encode information in both their primary sequence and their higher order structure. The independent contributions of factors like codon usage and secondary structure to regulating protein expression are difficult to establish as they are often highly correlated in endogenous sequences. Here, we used 2 approaches, global inclusion of modified nucleotides and rational sequence design of exogenously delivered constructs, to understand the role of mRNA secondary structure independent from codon usage. Unexpectedly, highly expressed mRNAs contained a highly structured coding sequence (CDS). Modified nucleotides that stabilize mRNA secondary structure enabled high expression across a wide…

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Authors

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Topics & keywords

Topics

Keywords

Messenger RNA
Biology
Protein secondary structure
Coding region
Codon usage bias
Start codon
Nucleotide
Genetics

UN Sustainable Development Goals

Reduced inequalities

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Funding

M
Moderna