DNA supercoiling results in compacted DNA structures that can bring distal sites into close proximity. It also changes the local structure of the DNA, which can in turn influence the way it is recognised by drugs, other nucleic acids and proteins. Here, we discuss how DNA supercoiling and the formation of complex DNA topologies can affect the thermodynamics of DNA recognition. We then speculate on the implications for transcriptional control and the three-dimensional organisation of the genetic material, using examples from our own simulations and from the literature. We introduce and discuss the concept of coupling between the multiple length-scales associated with hierarchical nuclear structural organisation through DNA supercoiling and t...
DNA topology describes the tertiary conformations of DNA and it influences all the fundamental biolo...
Bacterial chromosome has a compact structure that dynamically changes its shape in response to bacte...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
DNA supercoiling results in compacted DNA structures that can bring distal sites into close proximit...
Supercoiling is a fundamental property of DNA and chromatin. It is modulated by polymerase and topoi...
We have explored the interdependence of the binding of a DNA triplex and a repressor protein to dist...
Deoxyribonucleic acid (DNA) is a polymer of nucleotides. In the cell, DNA usually adopts a double-st...
Within every human cell, approximately two meters of DNA must be compacted into a nucleus with a di...
Topology affects physical and biological properties of DNA and impacts fundamental cellular processe...
In the cell, DNA is arranged into highly-organised and topologically-constrained (supercoiled) struc...
The discovery of the structure of duplex DNA revealed how cells store genetic information. However, ...
Alice Pyne 1*â , Agnes Noy 2â , Kavit Main 1, Lesley Mitchenall 3, Anthony Maxwell 3, Sarah Harris...
Supercoiling and changes in the supercoiling state are ubiquitous in cel-lular DNA and affect virtua...
Bacterial chromosome has a compact structure that dynamically changes its shape in response to bacte...
DNA supercoiling is central to fundamental processes of living organisms. Its average level along th...
DNA topology describes the tertiary conformations of DNA and it influences all the fundamental biolo...
Bacterial chromosome has a compact structure that dynamically changes its shape in response to bacte...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
DNA supercoiling results in compacted DNA structures that can bring distal sites into close proximit...
Supercoiling is a fundamental property of DNA and chromatin. It is modulated by polymerase and topoi...
We have explored the interdependence of the binding of a DNA triplex and a repressor protein to dist...
Deoxyribonucleic acid (DNA) is a polymer of nucleotides. In the cell, DNA usually adopts a double-st...
Within every human cell, approximately two meters of DNA must be compacted into a nucleus with a di...
Topology affects physical and biological properties of DNA and impacts fundamental cellular processe...
In the cell, DNA is arranged into highly-organised and topologically-constrained (supercoiled) struc...
The discovery of the structure of duplex DNA revealed how cells store genetic information. However, ...
Alice Pyne 1*â , Agnes Noy 2â , Kavit Main 1, Lesley Mitchenall 3, Anthony Maxwell 3, Sarah Harris...
Supercoiling and changes in the supercoiling state are ubiquitous in cel-lular DNA and affect virtua...
Bacterial chromosome has a compact structure that dynamically changes its shape in response to bacte...
DNA supercoiling is central to fundamental processes of living organisms. Its average level along th...
DNA topology describes the tertiary conformations of DNA and it influences all the fundamental biolo...
Bacterial chromosome has a compact structure that dynamically changes its shape in response to bacte...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...