Modelling DNA at the mesoscale: a challenge for nonlinear science?
From MaRDI portal
Publication:3507956
DOI10.1088/0951-7715/21/6/T02zbMath1162.92308arXiv0808.0799OpenAlexW3100316377WikidataQ57966763 ScholiaQ57966763MaRDI QIDQ3507956
Guillaume James, Michel Peyrard, Santiago Cuesta-López
Publication date: 24 June 2008
Published in: Nonlinearity (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0808.0799
Related Items (12)
Lie symmetry analysis of a stochastic gene evolution in double-chain deoxyribonucleic acid system ⋮ On the multiple explicit exact solutions to the double‐chain DNA dynamical system ⋮ Fractional formalism to DNA chain and impact of the fractional order on breather dynamics ⋮ Nonlinear dynamics of DNA -- Riccati generalized solitary wave solutions ⋮ Travelling wave solutions of nonlinear dynamical equations in a double-chain model of DNA ⋮ Modeling DNA thermal denaturation at the mesoscopic level ⋮ Fractional nonlinear dynamics of DNA breathing ⋮ Continuation of discrete breathers from infinity in a nonlinear model for DNA breathing ⋮ Thermal properties of a DNA denaturation with solvent interaction ⋮ Self-organised criticality in base-pair breathing in DNA with a defect ⋮ Microscopic description of DNA thermal denaturation ⋮ Base pairs opening and bubble transport in damped DNA dynamics with transport memory effects
This page was built for publication: Modelling DNA at the mesoscale: a challenge for nonlinear science?
