Add to ORKGPreliminary results on twisting and folding mechanisms of supercoiled filaments are presented. We examine competing kinematic models for single and multiple coil formation, starting from a plane circle and we evaluate the effects of curvature on writhing and packing rates. The analysis is performed by using a simple thin filament model under conservation of linking number. Time-dependent evolutions of epicycloid curves are used to perform transition from twist to writhe. These results may find useful applications in modelling natural phenomena, from magnetic field dynamos in astrophysical flows to compaction mechanisms of DNA in cell biology
The conformations and dynamics of semiflexible filaments subject to a homogeneous external (gravitat...
This PhD is devoted to the mechanics and statistical mechanics of biofilaments and their most widesp...
The large deflection theory of circular cross-section elastic rods is used to consider the writhing ...
AbstractIn this paper we introduce and analyze a set of equations to study geometric and energetic a...
New kinematic equations are used to model DNA supercoiling. These equations govern the simultaneous ...
AbstractIn this paper we introduce and analyze a set of equations to study geometric and energetic a...
Exploiting the “natural” frame of space curves, we formulate an intrinsic dynamics of a twisted elas...
Many interesting problems in cellular biophysics involve the dynamics of filamentary elastic objects...
We consider a macroscopic analog model for the locomotion of prokaryotic bacteria with a single flag...
The helical kink instability of a twisted magnetic flux tube has been suggested as a trigger mechani...
The equilibrium shapes of biological structures as diverse as plant tendrils and bacterial filaments...
The equilibrium shapes of biological structures as diverse as plant tendrils and bacterial filaments...
The mechanics of DNA super-coiling is a subject of crucial importance to uncover the mechanism and k...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
The conformations and dynamics of semiflexible filaments subject to a homogeneous external (gravitat...
This PhD is devoted to the mechanics and statistical mechanics of biofilaments and their most widesp...
The large deflection theory of circular cross-section elastic rods is used to consider the writhing ...
AbstractIn this paper we introduce and analyze a set of equations to study geometric and energetic a...
New kinematic equations are used to model DNA supercoiling. These equations govern the simultaneous ...
AbstractIn this paper we introduce and analyze a set of equations to study geometric and energetic a...
Exploiting the “natural” frame of space curves, we formulate an intrinsic dynamics of a twisted elas...
Many interesting problems in cellular biophysics involve the dynamics of filamentary elastic objects...
We consider a macroscopic analog model for the locomotion of prokaryotic bacteria with a single flag...
The helical kink instability of a twisted magnetic flux tube has been suggested as a trigger mechani...
The equilibrium shapes of biological structures as diverse as plant tendrils and bacterial filaments...
The equilibrium shapes of biological structures as diverse as plant tendrils and bacterial filaments...
The mechanics of DNA super-coiling is a subject of crucial importance to uncover the mechanism and k...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
The conformations and dynamics of semiflexible filaments subject to a homogeneous external (gravitat...
This PhD is devoted to the mechanics and statistical mechanics of biofilaments and their most widesp...
The large deflection theory of circular cross-section elastic rods is used to consider the writhing ...