Add to ORKG[[abstract]]The abrupt elongation of the contour length of a double-stranded DNA under a stretching force, during its transition from the B-form to S-form, is investigated in the framework of a model with basepair interactions and bending: Using a classical mechanica[[notice]]補正完畢[[incitationindex]]SC
Recent single-molecule experiments indicate that a double-stranded DNA increases in length if put un...
[[abstract]]A novel finite element model with equivalent meso-mechanics theory is proposed herein to...
We report a structural polymorphism of the S-DNA when a canonical B-DNA is stretched under different...
[[abstract]]When a DNA in its nature double-helical state is stretched by an external force, its len...
[[abstract]]When a DNA in its nature double-helical state is stretched by an external force, its len...
[[abstract]]The abrupt extension of the contour length and the self-unwinding of the double helix in...
Abstract: We have used internal coordinate molecular mechanics calculations to study how the DNA dou...
Single-molecule experiments on double-stranded B-DNA stretching have revealed one or two structural ...
The effect of electrostatic interactions on the stretching of DNA is investigated using a simple wo...
Single-molecule experiments on single- and double-stranded DNA have sparked a renewed interest in th...
Molecular modelling with Jumna is used to study extreme stretching of the DNA double helix. The resu...
ABSTRACT: Many proteins interact with and deform double-stranded DNA in cells. Single-molecule exper...
Structural deformation of DNA has a central role in many biological processes. It occurs, for exampl...
The twisting deformation of mechanically stretched DNA molecules is studied by a coarse grained Hami...
In cells, DNA is constantly twisted, bent and stretched by numerous proteins mediating genome transa...
Recent single-molecule experiments indicate that a double-stranded DNA increases in length if put un...
[[abstract]]A novel finite element model with equivalent meso-mechanics theory is proposed herein to...
We report a structural polymorphism of the S-DNA when a canonical B-DNA is stretched under different...
[[abstract]]When a DNA in its nature double-helical state is stretched by an external force, its len...
[[abstract]]When a DNA in its nature double-helical state is stretched by an external force, its len...
[[abstract]]The abrupt extension of the contour length and the self-unwinding of the double helix in...
Abstract: We have used internal coordinate molecular mechanics calculations to study how the DNA dou...
Single-molecule experiments on double-stranded B-DNA stretching have revealed one or two structural ...
The effect of electrostatic interactions on the stretching of DNA is investigated using a simple wo...
Single-molecule experiments on single- and double-stranded DNA have sparked a renewed interest in th...
Molecular modelling with Jumna is used to study extreme stretching of the DNA double helix. The resu...
ABSTRACT: Many proteins interact with and deform double-stranded DNA in cells. Single-molecule exper...
Structural deformation of DNA has a central role in many biological processes. It occurs, for exampl...
The twisting deformation of mechanically stretched DNA molecules is studied by a coarse grained Hami...
In cells, DNA is constantly twisted, bent and stretched by numerous proteins mediating genome transa...
Recent single-molecule experiments indicate that a double-stranded DNA increases in length if put un...
[[abstract]]A novel finite element model with equivalent meso-mechanics theory is proposed herein to...
We report a structural polymorphism of the S-DNA when a canonical B-DNA is stretched under different...