Add to ORKGLoop formation in long molecules occurs many places in nature, from solutions of carbon nanotubes to polymers inside a cell. In this article, we review theoretical studies of the static and dynamic properties of polymer loops. For example, long polymers must search many configurations to find a "target " binding site, while short polymers are stiff and resist bending. In between, there is an optimal loop size, which balances the entropy of long loops against the energetic cost of short loops. We show that such simple pictures of loop formation can explain several long-standing observations in DNA replication, quantitatively
We analyze looping of thin charged elastic filaments under applied torques and end forces, using the...
DNA loops form when a single protein or protein complex binds to multiple sites on the same DNA mole...
AbstractDNA looping plays a key role in many fundamental biological processes, including gene regula...
AbstractThe lack of a rigorous analytical theory for DNA looping has caused many DNA-loop-mediated p...
ABSTRACT Recent single molecule experiments have determined the probability of loop formation in DNA...
AbstractRecent single molecule experiments have determined the probability of loop formation in DNA ...
Recent single molecule experiments have determined the probability of loop formation in DNA as a fun...
DNA is subject to large deformations in a wide range of biological processes. Two key examples illus...
We study by extensive computer simulations the looping characteristics of linear polymers with varyi...
ABSTRACT: The kinetics and thermodynamics of loop formation by short segments of double-stranded DNA...
AbstractProtein-mediated DNA looping is important in a variety of biological processes, including ge...
Large-scale DNA deformation is ubiquitous in transcriptional regulation in prokaryotes and eukaryote...
DNA looping plays a key role in many fundamental biological processes, including gene regulation, re...
AbstractA statistical mechanical “zipper” model is applied to describe the equilibrium melting of sh...
<div><p>Large-scale DNA deformation is ubiquitous in transcriptional regulation in prokaryotes and e...
We analyze looping of thin charged elastic filaments under applied torques and end forces, using the...
DNA loops form when a single protein or protein complex binds to multiple sites on the same DNA mole...
AbstractDNA looping plays a key role in many fundamental biological processes, including gene regula...
AbstractThe lack of a rigorous analytical theory for DNA looping has caused many DNA-loop-mediated p...
ABSTRACT Recent single molecule experiments have determined the probability of loop formation in DNA...
AbstractRecent single molecule experiments have determined the probability of loop formation in DNA ...
Recent single molecule experiments have determined the probability of loop formation in DNA as a fun...
DNA is subject to large deformations in a wide range of biological processes. Two key examples illus...
We study by extensive computer simulations the looping characteristics of linear polymers with varyi...
ABSTRACT: The kinetics and thermodynamics of loop formation by short segments of double-stranded DNA...
AbstractProtein-mediated DNA looping is important in a variety of biological processes, including ge...
Large-scale DNA deformation is ubiquitous in transcriptional regulation in prokaryotes and eukaryote...
DNA looping plays a key role in many fundamental biological processes, including gene regulation, re...
AbstractA statistical mechanical “zipper” model is applied to describe the equilibrium melting of sh...
<div><p>Large-scale DNA deformation is ubiquitous in transcriptional regulation in prokaryotes and e...
We analyze looping of thin charged elastic filaments under applied torques and end forces, using the...
DNA loops form when a single protein or protein complex binds to multiple sites on the same DNA mole...
AbstractDNA looping plays a key role in many fundamental biological processes, including gene regula...