A systematic analysis of B-DNA elasticity cross-terms was performed using molecular dynamics simulations of three different duplexes designed to contain all dinucleotide steps including a 6-mer A-tract. The influence of ionic strength was also evaluated by several trajectories of each molecule with different NaCl concentrations at physiological rank. Simulations show DNA flexibility is independent of salt, in agreement with the Odijk-Skolnick-Fixman model. In addition, our results demonstrate DNA asymmetry at this scale is more complex than predicted by long-scale DNA models, with the cross-terms relating twist, slide, roll, and twist on the one hand and tilt and shift on the other being most essential. We find the rest of the coupling term...
The physical configuration of double-stranded DNA plays a significant role in the protection and exp...
The structure of DNA in the nucleosome core particle is studied using an elastic model that incorpor...
DNA displays directional asymmetry (5’→3’), a fundamental property associated with each strand of th...
A systematic analysis of B-DNA elasticity cross-terms was performed using molecular dynamics simulat...
A systematic analysis of B-DNA elasticity cross-terms was performed using molecular dynamics simulat...
Wrapping, crossover, and braiding of DNA are the motifs of fundamental interest in genome packaging,...
An extensive analysis of structural databases is carried out to investigate the relative flexibility...
The mechanics of DNA structural fluctuations at room temperature is generally modelled with a simple...
DNA is a chiral semiflexible polymer, so its bending Hamiltonian may contain nonlinear terms couplin...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
Although mechanical properties of DNA are well characterized at the kilobase-pair range, a number of...
We conducted a study of various physical and geometric properties of single and double stranded DNA ...
The traditional mesoscopic paradigm represents DNA as a series of base-pair steps whose energy respo...
The structure of DNA in the nucleosome core particle is studied using an elastic model that incorpor...
AbstractThe sequence-dependent DNA deformability at the basepair step level was investigated using l...
The physical configuration of double-stranded DNA plays a significant role in the protection and exp...
The structure of DNA in the nucleosome core particle is studied using an elastic model that incorpor...
DNA displays directional asymmetry (5’→3’), a fundamental property associated with each strand of th...
A systematic analysis of B-DNA elasticity cross-terms was performed using molecular dynamics simulat...
A systematic analysis of B-DNA elasticity cross-terms was performed using molecular dynamics simulat...
Wrapping, crossover, and braiding of DNA are the motifs of fundamental interest in genome packaging,...
An extensive analysis of structural databases is carried out to investigate the relative flexibility...
The mechanics of DNA structural fluctuations at room temperature is generally modelled with a simple...
DNA is a chiral semiflexible polymer, so its bending Hamiltonian may contain nonlinear terms couplin...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
Although mechanical properties of DNA are well characterized at the kilobase-pair range, a number of...
We conducted a study of various physical and geometric properties of single and double stranded DNA ...
The traditional mesoscopic paradigm represents DNA as a series of base-pair steps whose energy respo...
The structure of DNA in the nucleosome core particle is studied using an elastic model that incorpor...
AbstractThe sequence-dependent DNA deformability at the basepair step level was investigated using l...
The physical configuration of double-stranded DNA plays a significant role in the protection and exp...
The structure of DNA in the nucleosome core particle is studied using an elastic model that incorpor...
DNA displays directional asymmetry (5’→3’), a fundamental property associated with each strand of th...