AbstractThe denaturation of the DNA is analyzed using an analytic model. The DNA molecules are described in the Primitive Model of Polyelectrolytes (PMP), where the polyelectrolyte molecules are cylinders with charged sites. We show that the DNA stabilization arises as the result of the competition between the electrostatic repulsion of the phosphate groups and the attractive forces of the H-bonds. We also show that the addition of salt in the system screens the electrostatic interactions and favors the double strand configuration
AbstractA mesoscale model of DNA is presented (3SPN.1), extending the scheme previously developed by...
© 2016 Author(s).We develop an analytical theory that accounts for the image and surface charge inte...
The dynamics of the DNA denaturation is studied using the Peyrard-Bishop-Dauxois model. The denatura...
The denaturation of the DNA is analyzed using an analytic model. The DNA molecules are described in ...
AbstractThe denaturation of the DNA is analyzed using an analytic model. The DNA molecules are descr...
The effects of salt concentration on the flexibility and charge distribution of a DNA chain are prob...
The structure and stability of biomolecules under molecular crowding conditions are of interest beca...
We develop a deterministic mathematical model to describe the wayin which polymers bind to DNA by co...
Double-stranded DNA immobilised through a thiol anchor at a gold electrode surface can be unwound an...
AbstractWe showed recently that the high-salt transition of poly[d(G-C)] · poly[d(G-C)] between B-DN...
Complexation of positively charged sites in a protein with the negative DNA phosphate groups shields...
Cylindrical cell model Poisson-Boltzmann (P-B) calculations are used to evaluate the electrostatic c...
Following Poland and Scheraga, we consider a simplified model for the denaturation transition of DNA...
Gaining knowledge and understanding of the structure and function of DNA, our genetic material, is c...
AbstractIn this work we study the effects of the solvent interaction on the nonlinear dynamical stru...
AbstractA mesoscale model of DNA is presented (3SPN.1), extending the scheme previously developed by...
© 2016 Author(s).We develop an analytical theory that accounts for the image and surface charge inte...
The dynamics of the DNA denaturation is studied using the Peyrard-Bishop-Dauxois model. The denatura...
The denaturation of the DNA is analyzed using an analytic model. The DNA molecules are described in ...
AbstractThe denaturation of the DNA is analyzed using an analytic model. The DNA molecules are descr...
The effects of salt concentration on the flexibility and charge distribution of a DNA chain are prob...
The structure and stability of biomolecules under molecular crowding conditions are of interest beca...
We develop a deterministic mathematical model to describe the wayin which polymers bind to DNA by co...
Double-stranded DNA immobilised through a thiol anchor at a gold electrode surface can be unwound an...
AbstractWe showed recently that the high-salt transition of poly[d(G-C)] · poly[d(G-C)] between B-DN...
Complexation of positively charged sites in a protein with the negative DNA phosphate groups shields...
Cylindrical cell model Poisson-Boltzmann (P-B) calculations are used to evaluate the electrostatic c...
Following Poland and Scheraga, we consider a simplified model for the denaturation transition of DNA...
Gaining knowledge and understanding of the structure and function of DNA, our genetic material, is c...
AbstractIn this work we study the effects of the solvent interaction on the nonlinear dynamical stru...
AbstractA mesoscale model of DNA is presented (3SPN.1), extending the scheme previously developed by...
© 2016 Author(s).We develop an analytical theory that accounts for the image and surface charge inte...
The dynamics of the DNA denaturation is studied using the Peyrard-Bishop-Dauxois model. The denatura...