acowan

Getz et al., 2019

acowan 2019-07-11T15:21:08+00:00 June 15th, 2019|publication, publication-2019|

A predictive computational model reveals that giv/girdin serves as a tunable valve for egfr-stimulated cyclic amp signals.
Getz, M., L. Swanson, D. Sahoo, P. Ghosh, and P. Rangamani
Mol Biol Cell. 2019 30: 1621-1633.
PUBMED:31017840
doi:10.1091/mbc.E18-10-0630
VCell BioModels referenced in publication:
user: mgetz, model name: A predictive computational model reveals that GIV/Girdin serves as a tunable valve for EGFR-stimulated Cyclic AMP Signals

biomodel-156134818

acowan 2019-07-11T15:13:14+00:00 June 15th, 2019|biomodel|

Name: “A predictive computational model reveals that GIV/Girdin serves as a tunable valve for EGFR-stimulated Cyclic AMP Signals”
Saved: Apr 30, 2019
vcell identifier: biomodel-156134818
Owned by: “mgetz”

download model (.vcml)

Dreyer et al., 2019

acowan 2019-07-12T18:59:20+00:00 June 12th, 2019|publication, publication-2019|

Nutrient exchange in arbuscular mycorrhizal symbiosis from a thermodynamic point of view.
Dreyer, I., O. Spitz, K. Kanonenberg, K. Montag, M.R. Handrich, S. Ahmad, S. Schott-Verdugo, C. Navarro-Retamal, M.E. Rubio-Melendez, J.L. Gomez-Porras, J. Riedelsberger, M.A. Molina-Montenegro, A. Succurro, A. Zuccaro, S.B. Gould, P. Bauer, L. Schmitt, and H. Gohlke
New Phytol. 2019 222: 1043-1053.
PUBMED:30565261
doi:10.1111/nph.15646
VCell BioModels referenced in publication:
user: idreyer, model name: AMF Symbiosis with SWEET

biomodel-147699816

acowan 2019-04-19T17:14:13+00:00 April 19th, 2019|biomodel|

Name: “Surve_et_alRAF1”
Saved: Wed, 20 Apr 2005
vcell identifier: biomodel-147699816
Owned by: “pmyers1995”

download model (.vcml)

biomodel-136977463

acowan 2019-07-12T18:50:08+00:00 April 12th, 2019|biomodel|

Name: “AMF Symbiosis with SWEET”
Saved: Jul 30, 2018
vcell identifier: biomodel-136977463
Owned by: “idreyer”

download model (.vcml)

biomodel-145545992

acowan 2019-03-07T17:25:47+00:00 March 7th, 2019|biomodel|

Name: “Kruse_Kohout_Hille_CiVSP”
Saved: Wed, 20 Apr 2005
vcell identifier: biomodel-145545992
Owned by: “mkruse”

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Kruse et al., 2019

acowan 2019-05-21T14:12:15+00:00 March 7th, 2019|publication, publication-2018|

Reinterpretation of the substrate specificity of the voltage-sensing phosphatase during dimerization
Kruse, M., S.C. Kohout, and B. Hille
J Gen Physiol. 2019 151(2): 258-263.
PUBMED:30622132
doi:10.1085/jgp.201812260
VCell BioModels referenced in publication:
user: mkruse, model name: Kruse_Kohout_Hille_CiVSP

Karvinen et al., 2019

acowan 2019-07-11T18:18:12+00:00 March 1st, 2019|publication|

Characterization of the microstructure of hydrazone crosslinked polysaccharide-based hydrogels through rheological and diffusion studies
Karvinen, J., T.O. Ihalainen, M.T. Calejo, I. Jönkkäri, and M. Kellomäki
Materials Science and Engineering: C.2019; 94:1056-1066.
doi:10.1016/j.msec.2018.10.048

Surve et al., 2019

acowan 2019-05-21T14:32:54+00:00 February 25th, 2019|publication, publication-2019|

Localization dynamics of endogenous fluorescently labeled raf1 in egf-stimulated cells
Surve, S. V., Myers, P. J., Clayton, S. A., Watkins, S. C., Lazzara, M. J., and Sorkin, A.J Gen Physiol. 2019; 30(4): 506-523.
PUBMED:30586319 doi:10.1091/mbc.E18-08-0512
VCell BioModels referenced in publication:
user: pmyers1995, model name: Surve_et_al_RAF1

VCell model of RAF1 membrane dynamics published

acowan 2019-05-21T13:40:57+00:00 February 20th, 2019|News, NRCAM publication|

2019-02-14. A VCell spatial model created to identify mechanisms regulating membrane abundance of the small Gprotein RAF1 at the plasma membrane has been published in Molecular Biology of the Cell. Visit our published models page for links to the paper and to the VCell Biomodel.

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