Add to ORKGTo simulate long time and length scale processes involving DNA it is necessary to use a coarse-grained description. Here we provide an overview of different approaches to such coarse graining, focussing on those at the nucleotide level that allow the self-assembly processes associated with DNA nanotechnology to be studied. OxDNA, our recently-developed coarse-grained DNA model, is particularly suited to this task, and has opened up this field to systematic study by simulations. We illustrate some of the range of DNA nanotechnology systems to which the model is being applied, as well as the insights it can provide into fundamental biophysical properties of DNA.
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
The fields of DNA and RNA nanotechnology have progressed from pioneering, proof-of-principle experim...
The fields of DNA and RNA nanotechnology have progressed from pioneering, proof-of-principle experim...
The oxDNA model of DNA has been applied widely to systems in biology, biophysics and nanotechnology....
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
To simulate long time and length scale processes involving DNA it is necessary to use a coarse-grain...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
The fields of DNA and RNA nanotechnology have progressed from pioneering, proof-of-principle experim...
The fields of DNA and RNA nanotechnology have progressed from pioneering, proof-of-principle experim...
The oxDNA model of DNA has been applied widely to systems in biology, biophysics and nanotechnology....
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...
Inspired by recent successes using single-stranded DNA tiles to produce complex structures, we devel...