Login / Signup

Chemo-enzymatic production of base-modified ATP analogues for polyadenylation of RNA.

Rachel M Mitton-FryJannik EschenbachHelena SchepersRené RascheMehmet ErguvenDaniel KümmelAndrea RentmeisterNicolas V Cornelissen
Published in: Chemical science (2024)
Base-modified adenosine-5'-triphosphate (ATP) analogues are highly sought after as building blocks for mRNAs and non-coding RNAs, for genetic code expansion or as inhibitors. Current synthetic strategies lack efficient and robust 5'-triphosphorylation of adenosine derivatives or rely on costly phosphorylation reagents. Here, we combine the efficient organic synthesis of base-modified AMP analogues with enzymatic phosphorylation by a promiscuous polyphosphate kinase 2 class III from an unclassified Erysipelotrichaceae bacterium (EbPPK2) to generate a panel of C2-, N 6 -, or C8-modified ATP analogues. These can be incorporated into RNA using template independent poly(A) polymerase. C2-halogenated ATP analogues were incorporated best, with incorporations of 300 to >1000 nucleotides forming hypermodified poly(A) tails.
Keyphrases
  • protein kinase
  • molecular docking
  • structure activity relationship
  • squamous cell carcinoma
  • mass spectrometry
  • radiation therapy
  • copy number
  • drug delivery
  • rectal cancer
  • liquid chromatography