by Stéphanie Portet, Jany Vassy, Christopher W V Hogue, Julien Arino and Ovide Arino
Abstract:
We propose two systems of ordinary differential equations modeling the assembly of intermediate filament networks. The first one describes the in vitro intermediate filament assembly dynamics. The second one deals with the in vivo evolution of cytokeratin, which is the intermediate filament protein expressed by epithelial cells. The in vitro model is then briefly analyzed in a simplified case.
Reference:
Intermediate filament networks: in vitro and in vivo assembly models. (Stéphanie Portet, Jany Vassy, Christopher W V Hogue, Julien Arino and Ovide Arino), In Comptes Rendus Biologies, volume 327, 2004.
Bibtex Entry:
@ARTICLE{Portet2004,
author = {Stéphanie Portet and Jany Vassy and Christopher W V Hogue and Julien
Arino and Ovide Arino},
title = {Intermediate filament networks: in vitro and in vivo assembly models.},
journal = {Comptes Rendus Biologies},
year = {2004},
volume = {327},
pages = {970--976},
number = {11},
month = {Nov},
abstract = {We propose two systems of ordinary differential equations modeling
the assembly of intermediate filament networks. The first one describes
the in vitro intermediate filament assembly dynamics. The second
one deals with the in vivo evolution of cytokeratin, which is the
intermediate filament protein expressed by epithelial cells. The
in vitro model is then briefly analyzed in a simplified case.},
institution = {The Samuel Lunenfeld Research Institute, Room 1060, Mount Sinai Hospital,
600 University Avenue, Toronto, Ontario, Canada. sportet@mshri.on.ca},
keywords = {Animals; Intermediate Filaments, physiology/ultrastructure; Keratins,
physiology; Models, Biological},
language = {eng},
medline-pst = {ppublish},
owner = {sportet},
pmid = {15628219},
timestamp = {2013.11.13}
}