Modelling Extreme Stretching of DNA
- 1 June 1996
- journal article
- Published by Oxford University Press (OUP) in Nucleic Acids Research
- Vol. 24 (12) , 2260-2267
- https://doi.org/10.1093/nar/24.12.2260
Abstract
Molecular modelling with Jumna is used to study extreme stretching of the DNA double helix. The results, which correlate well with recent nanomanipulation experiments, show how the double helix can be extended to twice its normal length before its base pairs break. Depending on the way the duplex is stretched two types of conformation can occur, either an unwound flat ribbon or a narrow fibre with negatively inclined base pairs. The energetics of both types of deformation are similar and existing structures show that at least the flat ribbon form can exist locally under biological conditions.Keywords
This publication has 22 references indexed in Scilit:
- A novel form of the DNA double helix imposed on the TATA-box by the TATA-binding proteinNature Structural & Molecular Biology, 1996
- JUMNA (junction minimisation of nucleic acids)Computer Physics Communications, 1995
- How specific is the first recognition step of homologous recombination?Trends in Biochemical Sciences, 1995
- Alignment and Sensitive Detection of DNA by a Moving InterfaceScience, 1994
- Crystal structure of a yeast TBP/TATA-box complexNature, 1993
- Looking into the grooves of DNABiopolymers, 1993
- Three-center hydrogen bonds in DNA: molecular dynamics of poly(dA).cntdot.poly(dT)Journal of the American Chemical Society, 1991
- Monte Carlo simulation studies on the structure of the counterion atmosphere of B-DNA. Variations on the primitive dielectric modelMacromolecules, 1990
- Definitions and nomenclature of nucleic acid structure parametersJournal of Molecular Biology, 1989
- Physical Studies of Nucleic Acid: Nucleic Acid: an Extensible Molecule?Nature, 1951