We study channel transport across biomembranes. We propose a model that couples the diffusive dynamics with the gating process via a two-state ratchet mechanism. This gating process is governed by ATP binding and hydrolysis, and the process exhibits Michaelis-Menten enzymatic kinetics. The particle flow and permeability of the channel are studied both analytically and numerically in the steady-state regime, while working between fixed concentrations. The results are compared with simpler models and with experimental data. Also, a simulation framework, that allows high flexibility in parameter exploration, is introduced
AbstractBrownian dynamics simulations have been carried out to study ionic currents flowing across a...
AbstractThe transmembrane fragment of the influenza virus M2 protein forms a homotetrameric channel ...
AbstractIon channels assist and control the diffusion of ions through biological membranes. The cond...
Màster en Biofísica Part II, 2008-2009. Part I la trobareu a: http://hdl.handle.net/2445/5801We expl...
103 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.Exchange of materials and inf...
Màster en Biofísica Part I, curs 2007-2008. Part II la trobareu a: http://hdl.handle.net/2445/6722...
The problem of transport through nanochannels is one of the major questions in cell biology, with a ...
The problem of transport through nanochannels is one of the major questions in cell biology, with a ...
Molecular Dynamics simulations were used to study a variety of biophysical systems. The first of the...
Here we study a pumping device capable of maintaining a density gradient and a flux of particles acr...
We consider a model for voltage-dependent gating of channels in which the gating charges are on the ...
Ion channels are membrane proteins that facilitate ion permeation across the membrane down the conce...
AbstractMechanosensitive channels are a class of ubiquitous membrane proteins gated by mechanical st...
The 25 amino acids long, transmembrane fragment of the Influenza virus M2 protein forms a homotetram...
Ionic channels are gated aqueous pores whose conformational changes are driven by the electric field...
AbstractBrownian dynamics simulations have been carried out to study ionic currents flowing across a...
AbstractThe transmembrane fragment of the influenza virus M2 protein forms a homotetrameric channel ...
AbstractIon channels assist and control the diffusion of ions through biological membranes. The cond...
Màster en Biofísica Part II, 2008-2009. Part I la trobareu a: http://hdl.handle.net/2445/5801We expl...
103 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.Exchange of materials and inf...
Màster en Biofísica Part I, curs 2007-2008. Part II la trobareu a: http://hdl.handle.net/2445/6722...
The problem of transport through nanochannels is one of the major questions in cell biology, with a ...
The problem of transport through nanochannels is one of the major questions in cell biology, with a ...
Molecular Dynamics simulations were used to study a variety of biophysical systems. The first of the...
Here we study a pumping device capable of maintaining a density gradient and a flux of particles acr...
We consider a model for voltage-dependent gating of channels in which the gating charges are on the ...
Ion channels are membrane proteins that facilitate ion permeation across the membrane down the conce...
AbstractMechanosensitive channels are a class of ubiquitous membrane proteins gated by mechanical st...
The 25 amino acids long, transmembrane fragment of the Influenza virus M2 protein forms a homotetram...
Ionic channels are gated aqueous pores whose conformational changes are driven by the electric field...
AbstractBrownian dynamics simulations have been carried out to study ionic currents flowing across a...
AbstractThe transmembrane fragment of the influenza virus M2 protein forms a homotetrameric channel ...
AbstractIon channels assist and control the diffusion of ions through biological membranes. The cond...