The translocation process of a globular protein (ubiquitin) across a cylindrical nanopore is studied via molecular dynamics simulations. The ubiquitin is described by a native-centric model on a CR carbon backbone to investigate the inßuence of protein-like structural properties on the translocation mechanism. A thermodynamical and kinetic characterization of the process is obtained by studying the statistics of blockage times, the mobility, and the translocation probability as a function of the pulling force F acting in the pore. The transport dynamics occurs when the force exceeds a threshold Fc depending on a free-energy barrier that ubiquitin has to overcome in order to slide along the channel. Such a barrier results from competition of...
Transport of molecules across membranes is an essential mechanism for life processes. These molecule...
International audienceWe investigate a model of chaperone-assisted polymer translocation through a n...
Reimann P, Meyer A, Getfert S. On the Lubensky-Nelson Model of Polymer Translocation through Nanopor...
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 progress of molecular manipulation technology has made it possible to conduct controlled experim...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
The transport of a biomolecule through a nanopore occurs in many biological functions such as, DNA o...
Coarse-grained simulations of protein translocation across narrow pores suggest that the transport i...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
With the recent completion of the Human Genome Project and the announcement of the $1000 Genome Race...
We study the translocation of the ubiquitin molecule (Ubq) across a channel with a double section wh...
The detection of linear polymers translocating through a nanoscopic pore is a promising idea for the...
Transport of molecules across membranes is an essential mechanism for life processes. These molecule...
International audienceWe investigate a model of chaperone-assisted polymer translocation through a n...
Reimann P, Meyer A, Getfert S. On the Lubensky-Nelson Model of Polymer Translocation through Nanopor...
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 progress of molecular manipulation technology has made it possible to conduct controlled experim...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
The transport of a biomolecule through a nanopore occurs in many biological functions such as, DNA o...
Coarse-grained simulations of protein translocation across narrow pores suggest that the transport i...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
With the recent completion of the Human Genome Project and the announcement of the $1000 Genome Race...
We study the translocation of the ubiquitin molecule (Ubq) across a channel with a double section wh...
The detection of linear polymers translocating through a nanoscopic pore is a promising idea for the...
Transport of molecules across membranes is an essential mechanism for life processes. These molecule...
International audienceWe investigate a model of chaperone-assisted polymer translocation through a n...
Reimann P, Meyer A, Getfert S. On the Lubensky-Nelson Model of Polymer Translocation through Nanopor...