The progress of molecular manipulation technology has made it possible to conduct controlled experiments on translocation of polynucleotide and polypeptide chains across alpha-Hemolysin channels and solid-state nanopores. To study the translocation process we combined Molecular Dynamics at coarse-grained level and appropriate drift-diffusion Smoluchowski equations as an integrated statistical physics approach. In particular, we performed simulations of the passage across a cylindrical nanopore of Ubiquitin described by a coarse-grained native-centric model to investigate the influence of protein structural properties on translocation mechanism. The kinetic characterization of the process is achieved by studying the statistics of blockage ti...
We study the translocation of the ubiquitin molecule (Ubq) across a channel with a double section wh...
The transport of molecules through nanoscale confined space is relevant in biology, biosensing, and ...
L'alpha-hémolysine est un nanopore protéique qui permet le transport de molécules ou d'ions à traver...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
The progress of molecular manipulation technology has made it possible to conduct controlled experim...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
AbstractNanopore translocation experiments are increasingly applied to probe the secondary structure...
Using Langevin dynamics simulations, we investigate the influence of polymer-pore interactions on th...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
AbstractWe revisit the one-dimensional stochastic model of an earlier study by D. K. Lubensky and D....
Dynamic Monte Carlo simulation of a bead-spring model of flexible macromolecules threading through a...
Transport of molecules across membranes is an essential mechanism for life processes. These molecule...
We study the translocation of the ubiquitin molecule (Ubq) across a channel with a double section wh...
The transport of molecules through nanoscale confined space is relevant in biology, biosensing, and ...
L'alpha-hémolysine est un nanopore protéique qui permet le transport de molécules ou d'ions à traver...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
The progress of molecular manipulation technology has made it possible to conduct controlled experim...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
AbstractNanopore translocation experiments are increasingly applied to probe the secondary structure...
Using Langevin dynamics simulations, we investigate the influence of polymer-pore interactions on th...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
AbstractWe revisit the one-dimensional stochastic model of an earlier study by D. K. Lubensky and D....
Dynamic Monte Carlo simulation of a bead-spring model of flexible macromolecules threading through a...
Transport of molecules across membranes is an essential mechanism for life processes. These molecule...
We study the translocation of the ubiquitin molecule (Ubq) across a channel with a double section wh...
The transport of molecules through nanoscale confined space is relevant in biology, biosensing, and ...
L'alpha-hémolysine est un nanopore protéique qui permet le transport de molécules ou d'ions à traver...