Add to ORKGWe develop a coarse-grained model of double-stranded DNA which is solely based on experimentally determined knotting probabilities of short DNA strands. Our analysis is motivated by the emergence of DNA nanopore sequencing technology. The main advantage of nanopore sequencing in comparison to next-generation devices is its capability to sequence rather long DNA strands in a single run, currently up to ≈10,000 base pairs. Unfortunately, long DNA strands easily self-entangle into knotted conformations, and sequencing knotted DNA with nanopores may be subject to error. In our manuscript, the typical extent and likelihood of DNA knots is computed for DNA chains of up to half a million base pairs, and we estimate the abundance of complex and com...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
University of Minnesota Ph.D. dissertation. January 2016. Major: Material Science and Engineering. ...
10 ABSTRACT: Monte Carlo simulations are used to study the 11 knotting probability of circular DNA c...
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...
Long DNA molecules can self-entangle into knots. Experimental techniques for observing such DNA knot...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
We investigate knotting probabilities of long double-stranded DNA strands in a coarse-grained Kratky...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
University of Minnesota Ph.D. dissertation. January 2016. Major: Material Science and Engineering. ...
10 ABSTRACT: Monte Carlo simulations are used to study the 11 knotting probability of circular DNA c...
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...
Long DNA molecules can self-entangle into knots. Experimental techniques for observing such DNA knot...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
We report on a numerical study of the equilibrium metric scaling features and knotting properties of...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
We investigate knotting probabilities of long double-stranded DNA strands in a coarse-grained Kratky...
The amount and type of self-entanglement of DNA filaments is significantly affected by spatial confi...
The self-knotting dynamics of DNA strands confined in nanochannels is studied with Brownian simulati...
University of Minnesota Ph.D. dissertation. January 2016. Major: Material Science and Engineering. ...