2011
DOI: 10.1371/journal.pcbi.1002049
|View full text |Cite
|
Sign up to set email alerts
|

Brownian Dynamics Simulation of Nucleocytoplasmic Transport: A Coarse-Grained Model for the Functional State of the Nuclear Pore Complex

Abstract: The nuclear pore complex (NPC) regulates molecular traffic across the nuclear envelope (NE). Selective transport happens on the order of milliseconds and the length scale of tens of nanometers; however, the transport mechanism remains elusive. Central to the transport process is the hydrophobic interactions between karyopherins (kaps) and Phe-Gly (FG) repeat domains. Taking into account the polymeric nature of FG-repeats grafted on the elastic structure of the NPC, and the kap-FG hydrophobic affinity, we have … Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1

Citation Types

4
99
1

Year Published

2013
2013
2020
2020

Publication Types

Select...
7
2

Relationship

1
8

Authors

Journals

citations
Cited by 78 publications
(104 citation statements)
references
References 84 publications
4
99
1
Order By: Relevance
“…A definitive transport mechanism remains elusive because directly visualizing FG-Nups and the kap-cargo complex within individual NPCs is at the limits of current single-molecule tracking technology (15)(16)(17); therefore, theory (18,19) and computer simulations (20)(21)(22) have been used in an attempt to elucidate the essential features of the translocation process. In a recent coarsegrained molecular dynamics (MD) simulation, the kap-FG interaction was found to be highly dynamic and the FG-Nups formed a layer on the pore walls (20). The kap-cargo complex particle interacts with the FG residues in this layer as it diffuses through the channel.…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…A definitive transport mechanism remains elusive because directly visualizing FG-Nups and the kap-cargo complex within individual NPCs is at the limits of current single-molecule tracking technology (15)(16)(17); therefore, theory (18,19) and computer simulations (20)(21)(22) have been used in an attempt to elucidate the essential features of the translocation process. In a recent coarsegrained molecular dynamics (MD) simulation, the kap-FG interaction was found to be highly dynamic and the FG-Nups formed a layer on the pore walls (20). The kap-cargo complex particle interacts with the FG residues in this layer as it diffuses through the channel.…”
mentioning
confidence: 99%
“…Until recently, it was believed that hydrophobic interactions were solely responsible for the selectivity of the translocation process (11,14,20,23,24). According to this view, water-soluble proteins generally present a hydrophilic surface and are repelled by the hydrophobic domains of the FG-Nups, but hydrophobic patches on the surface of kaps interact attractively with the FGNups.…”
mentioning
confidence: 99%
“…Current models include the Entropic Gate model (Rout et al, 2003;Zilman et al, 2007), Selective Phase models (Bickel and Bruinsma, 2002;Kustanovich and Rabin, 2004;Ribbeck andGorlich, 2001, 2002), Dimensionality Reduction model (Peters, 2005), and the Polymeric Brush model (Lim et al, 2007(Lim et al, , 2006. A number of computational models and molecular-based simulations are also being developed (Grunwald and Singer, 2011;Moussavi-Baygi et al, 2011). Here we will review the first two types of model in a little more detail.…”
Section: E Nuclear Transportmentioning
confidence: 99%
“…It has been proposed that the flexible polypeptide chains of FG-Nups form a meshwork via hydrophobic interactions between hydrophobic residues (mainly phenylalanine) (Frey et al, 2006;Mohr et al, 2009;Moussavi-Baygi et al, 2011;Ribbeck and Görlich, 2002). This meshwork prevents the passage of large proteins, but allows diffusion of proteins smaller than the mesh size (Mohr et al, 2009).…”
Section: Stress-dependent and Independent S-s Bond Formation Within Nupsmentioning
confidence: 99%