2016-09-15 A new publication in Bioinformatics by Jim Schaff and Michael Blinov describes the new Rule-based modeling features in VCell 6.0. See Schaff et al., 2016. Rule-based modeling with Virtual Cell. BioInformatrics 23:2880-2882, PMID 27497444
New VCell model of PDE role in AMPAR trafficking
2016-09-10. A new publication in JBC describes a new VCell model used by Song et al. to study the role of PDE1 and PDE2 in AMPA receptor trafficking in medium spiny neurons. Link to the publication and view model details from our Published Models listing.
New VCell model of dendritic spines
2016-08-30 A recent publication in PNAS describes a VCell model developed as collaboration between the Rangamini group at UC Davis and the Oster lab at UC Berkeley. The model couples biochemical signaling machinery with actin remodeling events in the dendritic spine; view the details on our Published Models list.
New VCell models of chemotactic networks
2016-07-27 A new publication from Sayak Bhattacharya and Pablo Iglesias at Johns Hopkins University describes the step-by-step construction of dynamical models of chemotactic networks using VCell (Bhattacharya and Iglesias 2016. Methods Mol. Biol. 1407:397, PMID 27271916). Publically available VCell models associated with the paper can be found on our list of published models here.
New VCell models of cAMP domains
2016-07-15 VCell models were used to test possible mechanisms for maintenance of subcellular microdomains of cAMP in cardiomyocytes in a recent publication in PLoS Computational Biology by Yang et al. Find the publication and details of the models on our Published Models listing.
New VCell model of PAR2 desensitization
2016-03-15. A new VCell model of the mechanisms and kinetics of desensitization of the protease-activated receptor-2 (PAR2), a Gq-PCR, was published by Jung et al. in the Journal of General Physiology. Visit the Published Models listing to view the model details and link to the publication.
2016-02-02 Paul Michalski and Les Loew describe their new Spring SaLaD sofware for spatial, stochastic, particle-based modeling of biochemical systems at the mesoscale. See the publication Michalski and Loew, 2016. SpringSaLaD: A Spatial, Particle-Based Biochemical Simulation Platform with Excluded Volume. Biophysical Journal 110:523-529. PMID 26840718
biomodel-98150237
Name: “Brown et al 2011 Purkinje Biochem-Electrophysiol SCA”
Saved: Jan, 22 Mar 2016 01:17:08 GMT
vcell identifier: biomodel-98150237
Owned by: “Brown”