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RNA-Templated Peptide Bond Formation Promotes L-Homochirality.

Ewa WȩgrzynIvana MejdrováFelix M MüllerMilda NainytėLuis EscobarThomas Carell
Published in: Angewandte Chemie (International ed. in English) (2024)
The world in which we live is homochiral. The ribose units that form the backbone of DNA and RNA are all D-configured and the encoded amino acids that comprise the proteins of all living species feature an all-L-configuration at the α-carbon atoms. The homochirality of α-amino acids is essential for folding of the peptides into well-defined and functional 3D structures and the homochirality of D-ribose is crucial for helix formation and base-pairing. The question of why nature uses only encoded L-α-amino acids is not understood. Herein, we show that an RNA-peptide world, in which peptides grow on RNAs constructed from D-ribose, leads to the self-selection of homo-L-peptides, which provides a possible explanation for the homo-D-ribose and homo-L-amino acid combination seen in nature.
Keyphrases
  • amino acid
  • nucleic acid
  • single molecule
  • machine learning
  • high resolution
  • wastewater treatment
  • deep learning
  • cell free
  • mass spectrometry
  • dna binding
  • molecular dynamics simulations