Liquid crystal self-assembly of random-sequence DNA oligomers.
Identifieur interne : 002238 ( Main/Curation ); précédent : 002237; suivant : 002239Liquid crystal self-assembly of random-sequence DNA oligomers.
Auteurs : Tommaso Bellini [Italie] ; Giuliano Zanchetta ; Tommaso P. Fraccia ; Roberto Cerbino ; Ethan Tsai ; Gregory P. Smith ; Mark J. Moran ; David M. Walba ; Noel A. ClarkSource :
- Proceedings of the National Academy of Sciences of the United States of America [ 1091-6490 ] ; 2012.
Descripteurs français
- KwdFr :
- MESH :
English descriptors
- KwdEn :
- MESH :
- chemical , chemistry : DNA.
- chemistry : Liquid Crystals.
- chemical , genetics : Oligonucleotides.
- Base Sequence, Kinetics, Molecular Sequence Data, Nucleic Acid Conformation.
Abstract
In biological systems and nanoscale assemblies, the self-association of DNA is typically studied and applied in the context of the evolved or directed design of base sequences that give complementary pairing, duplex formation, and specific structural motifs. Here we consider the collective behavior of DNA solutions in the distinctly different regime where DNA base sequences are chosen at random or with varying degrees of randomness. We show that in solutions of completely random sequences, corresponding to a remarkably large number of different molecules, e.g., approximately 10(12) for random 20-mers, complementary still emerges and, for a narrow range of oligomer lengths, produces a subtle hierarchical sequence of structured self-assembly and organization into liquid crystal (LC) phases. This ordering follows from the kinetic arrest of oligomer association into long-lived partially paired double helices, followed by reversible association of these pairs into linear aggregates that in turn condense into LC domains.
DOI: 10.1073/pnas.1117463109
PubMed: 22233803
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pubmed:22233803Le document en format XML
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<front><div type="abstract" xml:lang="en">In biological systems and nanoscale assemblies, the self-association of DNA is typically studied and applied in the context of the evolved or directed design of base sequences that give complementary pairing, duplex formation, and specific structural motifs. Here we consider the collective behavior of DNA solutions in the distinctly different regime where DNA base sequences are chosen at random or with varying degrees of randomness. We show that in solutions of completely random sequences, corresponding to a remarkably large number of different molecules, e.g., approximately 10(12) for random 20-mers, complementary still emerges and, for a narrow range of oligomer lengths, produces a subtle hierarchical sequence of structured self-assembly and organization into liquid crystal (LC) phases. This ordering follows from the kinetic arrest of oligomer association into long-lived partially paired double helices, followed by reversible association of these pairs into linear aggregates that in turn condense into LC domains.</div>
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