Self-Assembling Sequence-Adaptive Peptide Nucleic Acids

Self-Assembling Sequence-Adaptive Peptide Nucleic Acids

Several classes of nucleic acid analogs have been reported, but no synthetic informational polymer has yet proven responsive to selection pressures under enzyme-free conditions. Here, we introduce an oligomer family that efficiently self-assembles by means of reversible covalent anchoring of nucleob...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2009-07, Vol.325 (5936), p.73-77
Hauptverfasser: Ura, Yasuyuki, Beierle, John M, Leman, Luke J, Orgel, Leslie E, Ghadiri, M. Reza
Format: Artikel
Sprache:eng
Schlagworte:
Adenine - chemistry
Amino acids
Amino Acids - chemistry
Base Pairing
Base Sequence
Biochemistry
Biotinylation
Deoxyribonucleic acid
Dipeptides - chemistry
DNA
DNA - chemistry
Melting
Models, Molecular
Molecular biology
Molecular Structure
Monomers
Nucleic Acid Conformation
Nucleic acids
Nucleobases
Oligomers
Oligonucleotides
Oligonucleotides - chemistry
Peptide nucleic acids
Peptide Nucleic Acids - chemistry
Peptides
Peptides - chemistry
Ribonucleic acid
RNA
RNA - chemistry
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Zusammenfassung:Several classes of nucleic acid analogs have been reported, but no synthetic informational polymer has yet proven responsive to selection pressures under enzyme-free conditions. Here, we introduce an oligomer family that efficiently self-assembles by means of reversible covalent anchoring of nucleobase recognition units onto simple oligo-dipeptide backbones [thioester peptide nucleic acids (tPNAs)] and undergoes dynamic sequence modification in response to changing templates in solution. The oligomers specifically self-pair with complementary tPNA strands and cross-pair with RNA and DNA in Watson-Crick fashion. Thus, tPNA combines base-pairing interactions with the side-chain functionalities of typical peptides and proteins. These characteristics might prove advantageous for the design or selection of catalytic constructs or biomaterials that are capable of dynamic sequence repair and adaptation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1174577