Add to ORKGABSTRACT: A theoretical framework is presented to model ion and DNA translocation across a nanopore confinement under an applied electric field. A combined Grand Canonical Monte Carlo Brownian Dynamics (GCMC/BD) algorithm offers a general approach to study ion permeation through wide molecular pores with a direct account of ion−ion and ion−DNA correlations. This work extends previously developed theory by incorporating the recently developed coarse-grain polymer mode
Ion channels are part of nature???s solution for regulating biological environments. Every ion chann...
AbstractWe have investigated the role of electrostatic interactions in the transport of nucleic acid...
Single polymer passage through geometrically confined regions is ubiquitous in biology. Recent techn...
A theoretical framework is presented to model ion and DNA translocation across a nanopore confinemen...
A Brownian dynamics (BD) approach including explicit atoms called BRODEA is presented to model ion p...
The translocation of a macromolecule through a nanometer-sized pore is an interesting process with i...
ABSTRACT A computational algorithm based on Grand Canonical Monte Carlo (GCMC) and Brownian Dynamics...
AbstractA computational algorithm based on Grand Canonical Monte Carlo (GCMC) and Brownian Dynamics ...
In this dissertation, I discuss various aspects of the dynamics of charged particles in nanopore sys...
This is the published version. Copyright 2000 by Elsevier B. V.A computational algorithm based on Gr...
Ion channels are pore-forming proteins that regulate the flow of ions across biological cell membran...
We introduce an implicit solvent Molecular Dynamics approach for calculating ionic fluxes through na...
Protein nanopores show great potential as low-cost detectors in DNA sequencing devices. To date, res...
Behaviour of electrolytes confined in cylindrical and slit pores are studied by computer simulations...
In this dissertation, I examine ion transport in nanopores, which has been met with increased intere...
Ion channels are part of nature???s solution for regulating biological environments. Every ion chann...
AbstractWe have investigated the role of electrostatic interactions in the transport of nucleic acid...
Single polymer passage through geometrically confined regions is ubiquitous in biology. Recent techn...
A theoretical framework is presented to model ion and DNA translocation across a nanopore confinemen...
A Brownian dynamics (BD) approach including explicit atoms called BRODEA is presented to model ion p...
The translocation of a macromolecule through a nanometer-sized pore is an interesting process with i...
ABSTRACT A computational algorithm based on Grand Canonical Monte Carlo (GCMC) and Brownian Dynamics...
AbstractA computational algorithm based on Grand Canonical Monte Carlo (GCMC) and Brownian Dynamics ...
In this dissertation, I discuss various aspects of the dynamics of charged particles in nanopore sys...
This is the published version. Copyright 2000 by Elsevier B. V.A computational algorithm based on Gr...
Ion channels are pore-forming proteins that regulate the flow of ions across biological cell membran...
We introduce an implicit solvent Molecular Dynamics approach for calculating ionic fluxes through na...
Protein nanopores show great potential as low-cost detectors in DNA sequencing devices. To date, res...
Behaviour of electrolytes confined in cylindrical and slit pores are studied by computer simulations...
In this dissertation, I examine ion transport in nanopores, which has been met with increased intere...
Ion channels are part of nature???s solution for regulating biological environments. Every ion chann...
AbstractWe have investigated the role of electrostatic interactions in the transport of nucleic acid...
Single polymer passage through geometrically confined regions is ubiquitous in biology. Recent techn...