Formation of RNA phosphodiester bond by histidine-containing dipeptides

Chembiochem. 2013 Jan 21;14(2):217-23. doi: 10.1002/cbic.201200643. Epub 2012 Dec 18.

Abstract

A new scenario for prebiotic formation of nucleic acid oligomers is presented. Peptide catalysis is applied to achieve condensation of activated RNA monomers into short RNA chains. As catalysts, L-dipeptides containing a histidine residue, primarily Ser-His, were used. Reactions were carried out in self-organised environment, a water-ice eutectic phase, with low concentrations of reactants. Incubation periods up to 30 days resulted in the formation of short oligomers of RNA. During the oligomerisation, an active intermediate (dipeptide-mononucleotide) is produced, which is the reactive species. Details of the mechanism and kinetics, which were elucidated with a set of control experiments, further establish that the imidazole side chain of a histidine at the carboxyl end of the dipeptide plays a crucial role in the catalysis. These results suggest that this oligomerisation catalysis occurs by a transamination mechanism. Because peptides are much more likely products of spontaneous condensation than nucleotide chains, their potential as catalysts for the formation of RNA is interesting from the origin-of-life perspective. Finally, the formation of the dipeptide-mononucleotide intermediate and its significance for catalysis might also be viewed as the tell-tale signs of a new example of organocatalysis.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Catalysis
  • Dipeptides / chemistry*
  • Ice / analysis
  • Kinetics
  • Origin of Life*
  • RNA / chemical synthesis*
  • Ribonucleotides / chemistry*

Substances

  • Dipeptides
  • Ice
  • Ribonucleotides
  • seryl-histidine
  • RNA