Knotted structures can spontaneously occur in polymers such as DNA and proteins, and the formation of knots affects biological functions, mechanical strength and rheological properties. In this work, we calculate the equilibrium size distribution of trefoil knots in linear DNA using off-lattice simulations. We observe metastable knots on DNA, as predicted by Grosberg and Rabin. Furthermore, we extend their theory to incorporate the finite width of chains and show an agreement between our simulations and the modified theory for real chains. Our results suggest localized knots spontaneously occur in long DNA and the contour length in the knot ranges from 600 to 1800 nm
We develop a coarse-grained model of double-stranded DNA which is solely based on experimentally det...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We present Brownian dynamics simulations of initially knotted double-stranded DNA molecules untying ...
Recent theoretical progress has explained the physics of knotting of semiflexible polymers, yet knot...
Circular DNA in viruses and bacteria is often knotted. While mathematically problematic, the dete...
We study the size distribution of spontaneous knots on semiflexible chains confined in square cross-...
We use stochastic simulation techniques to sample the conformational space of linear semiflexible po...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
We used optical tweezers to tie individual DNA molecules in knots. Although these knots become highl...
Knots appear frequently in semiflexible (bio)polymers, including double-stranded DNA, and their pres...
Two knots on a string can either be separated or intertwined, and may even pass through each other. ...
We perform single-molecule experiments and simulations to study the swelling of complex knots in lin...
Langevin dynamics simulations are used to characterize the typical mechanisms governing the spontane...
Knots in long DNA molecules are prevalent in biological systems and serve as a model system for inve...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We develop a coarse-grained model of double-stranded DNA which is solely based on experimentally det...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We present Brownian dynamics simulations of initially knotted double-stranded DNA molecules untying ...
Recent theoretical progress has explained the physics of knotting of semiflexible polymers, yet knot...
Circular DNA in viruses and bacteria is often knotted. While mathematically problematic, the dete...
We study the size distribution of spontaneous knots on semiflexible chains confined in square cross-...
We use stochastic simulation techniques to sample the conformational space of linear semiflexible po...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
We used optical tweezers to tie individual DNA molecules in knots. Although these knots become highl...
Knots appear frequently in semiflexible (bio)polymers, including double-stranded DNA, and their pres...
Two knots on a string can either be separated or intertwined, and may even pass through each other. ...
We perform single-molecule experiments and simulations to study the swelling of complex knots in lin...
Langevin dynamics simulations are used to characterize the typical mechanisms governing the spontane...
Knots in long DNA molecules are prevalent in biological systems and serve as a model system for inve...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We develop a coarse-grained model of double-stranded DNA which is solely based on experimentally det...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We present Brownian dynamics simulations of initially knotted double-stranded DNA molecules untying ...