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A prebiotic template-directed peptide synthesis based on amyloids

Author

Listed:
  • Saroj K. Rout

    (Laboratory of Physical Chemistry, ETH Zürich)

  • Michael P. Friedmann

    (Laboratory of Physical Chemistry, ETH Zürich)

  • Roland Riek

    (Laboratory of Physical Chemistry, ETH Zürich)

  • Jason Greenwald

    (Laboratory of Physical Chemistry, ETH Zürich)

Abstract

The prebiotic replication of information-coding molecules is a central problem concerning life’s origins. Here, we report that amyloids composed of short peptides can direct the sequence-selective, regioselective and stereoselective condensation of amino acids. The addition of activated DL-arginine and DL-phenylalanine to the peptide RFRFR-NH2 in the presence of the complementary template peptide Ac-FEFEFEFE-NH2 yields the isotactic product FRFRFRFR-NH2, 1 of 64 possible triple addition products, under conditions in which the absence of template yields only single and double additions of mixed stereochemistry. The templating mechanism appears to be general in that a different amyloid formed by (Orn)V(Orn)V(Orn)V(Orn)V-NH2 and Ac-VDVDVDVDV-NH2 is regioselective and stereoselective for N-terminal, L-amino-acid addition while the ornithine-valine peptide alone yields predominantly sidechain condensation products with little stereoselectivity. Furthermore, the templating reaction is stable over a wide range of pH (5.6–8.6), salt concentration (0–4 M NaCl), and temperature (25–90 °C), making the amyloid an attractive model for a prebiotic peptide replicating system.

Suggested Citation

  • Saroj K. Rout & Michael P. Friedmann & Roland Riek & Jason Greenwald, 2018. "A prebiotic template-directed peptide synthesis based on amyloids," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02742-3
    DOI: 10.1038/s41467-017-02742-3
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    Cited by:

    1. Peiying Li & Philipp Holliger & Shunsuke Tagami, 2022. "Hydrophobic-cationic peptides modulate RNA polymerase ribozyme activity by accretion," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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