Accounts of chemical research

Designing Therapeutic mRNA from Start to Finish

Updated

Abstract

Synthetic messenger RNA (mRNA) can be delivered into cells to produce proteins, which may offer advantages over DNA or protein-based therapies.

  • Synthetic mRNAs can elicit immune responses to pathogens, replace defective proteins, or introduce new functions such as genome editing.
  • Technological advancements have improved the stability and functionality of synthetic mRNAs, making them viable therapeutic options.
  • Massively paralleled reporter assays (MPRA) help identify sequence elements that influence mRNA translation and stability.
  • Sequence-dependent control of mRNA translation remains incompletely understood despite the vast number of possible nucleotide combinations.
  • Designing synthetic mRNAs for optimal translation and stability poses ongoing challenges in the field.

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