Template switching between PNA and RNA oligonucleotides (original) (raw)

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• Published: 17 August 1995

Nature volume 376, pages 578–581 (1995)Cite this article

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Abstract

THE origin of the RNA world1 is not easily understood, as effective prebiotic syntheses of the components of RNA, the β-ribofurano-side-5′-phosphates, are hard to envisage2. Recognition of this difficulty has led to the proposal1,3 that other genetic systems, the components of which are more easily formed, may have preceded RNA. This raises the question of how transitions between one genetic system and another could occur. Peptide nucleic acid (PNA) resembles RNA in its ability to form double-helical complexes stabilized by Watson-Crick hydrogen bonding between adenine and thymine and between cytosine and guanine4á¤-6, but has a backbone that is held together by amide rather than by phosphodiester bonds. Oligonucleotides based on RNA are known to act as templates that catalyse the non-enzymatic synthesis of their complements from activated mononucleotides7á¤-9, we now show that RNA oligonucleotides facilitate the synthesis of complementary PNA strands and vice versa. This suggests that a transition between different genetic systems can occur without loss of information.

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Author notes

1. Peter E. Nielsen: Center for Biomolecular Recognition, IMBG, Biochemistry B, The Panum Institute, Blegdamsvej 3c, DK-2100 N, Copenhagen, Denmark

Authors and Affiliations

1. The Salk Institute for Biological Studies, P.O. Box 85800, San Diego, California, 92186, USA
   Christof Böhler, Peter E. Nielsen & Leslie E. Orgel

Authors

1. Christof Böhler
2. Peter E. Nielsen
3. Leslie E. Orgel

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Böhler, C., Nielsen, P. & Orgel, L. Template switching between PNA and RNA oligonucleotides.Nature 376, 578–581 (1995). https://doi.org/10.1038/376578a0

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• Received: 01 May 1995
• Accepted: 18 July 1995
• Issue date: 17 August 1995
• DOI: https://doi.org/10.1038/376578a0

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