We used optical tweezers to tie individual DNA molecules in knots. Although these knots become highly localized under tension, they remain surprisingly mobile and undergo thermal diffusion with classical random walk statistics. The diffusion constants of knots with different complexities correlate with theoretical calculations of knot sizes. We show that this correlation can be explained by a simple hydrodynamical model of "self-reptation" of the knot along a polymer
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Motivated by recent advances in single molecule manipulation techniques that enabled several groups ...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We perform single-molecule experiments and simulations to study the swelling of complex knots in lin...
AbstractManipulation of individual DNA molecules by optical tweezers has made it possible to tie the...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
We perform single-molecule DNA experiments to investigate the relaxation dynamics of knotted polymer...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
We present Brownian dynamics simulations of initially knotted double-stranded DNA molecules untying ...
DNA molecules were used as a model system to investigate fundamental problems in polymer physics; na...
ABSTRACT Manipulation of individual DNA molecules by optical tweezers has made it possible to tie th...
We use an accurate coarse-grained model for DNA and stochastic molecular dynamics simulations to stu...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Equilibrium knots are common in biological polymers—their prevalence, size distribution, structure, ...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Motivated by recent advances in single molecule manipulation techniques that enabled several groups ...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We perform single-molecule experiments and simulations to study the swelling of complex knots in lin...
AbstractManipulation of individual DNA molecules by optical tweezers has made it possible to tie the...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
We perform single-molecule DNA experiments to investigate the relaxation dynamics of knotted polymer...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
We present Brownian dynamics simulations of initially knotted double-stranded DNA molecules untying ...
DNA molecules were used as a model system to investigate fundamental problems in polymer physics; na...
ABSTRACT Manipulation of individual DNA molecules by optical tweezers has made it possible to tie th...
We use an accurate coarse-grained model for DNA and stochastic molecular dynamics simulations to stu...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Equilibrium knots are common in biological polymers—their prevalence, size distribution, structure, ...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Motivated by recent advances in single molecule manipulation techniques that enabled several groups ...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...