acowan

VCell model of PLC/PKC signaling

acowan 2020-05-19T17:04:33+00:00 April 7th, 2020|News|

2020-04-07. A new spatial model of the PLC/PKC pahtway created in VCell was used to explore chemotactic sensing in fibroblasts in a new publication by Nosbisch et al from the Haugh lab. Visit our published models page for links to the paper and the VCell model.

Nosbisch et al., 2020

acowan 2020-05-19T15:58:45+00:00 April 7th, 2020|publication, publication-2020|

Mechanistic Models of PLC/PKC Signaling Implicate Phosphatidic Acid as a Key Amplifier of Chemotactic Gradient Sensing.
Nosbisch, J.L., A. Rahman, M. Krithika, T.C. Elston, J.E. Bear, and J. M. Haugh
PLoS Comput. Biol. 16(4):e1007708
PUBMED:32255775
doi:10.1371/journal.pcbi.1007708
VCell BioModels referenced in publication:
user: jnosbis, model name: Nosbisch chemotaxis 2020

biomodel-172076998

acowan 2020-05-19T15:47:51+00:00 April 7th, 2020|biomodel|

Name: “Nobisch chemotaxis 2020”
Saved: Jan 30, 2019
vcell identifier: biomodel-172076998
Owned by: “jnosbis”

download model (.vcml)

biomodel-169993006

acowan 2020-03-11T14:24:44+00:00 March 11th, 2020|biomodel|

Name: “Monkeyflower_pigmentation_v2”
Saved: Nov 13, 2019
vcell identifier: biomodel-169993006
Owned by: “colreeze”

download model (.vcml)

Ding et al., 2020

acowan 2020-03-11T14:10:40+00:00 March 11th, 2020|publication, publication-2020|

Two MYB Proteins in a Self-Organizing Activator-Inhibitor System Produce Spotted Pigmentation Patterns.
Ding, B., E.L. Patterson, S.V. Holalu, J. Li, G.A. Johnson, L.E. Stanley, A.B. Greenlee, F. Peng, H.D. Bradshaw, M.L. Blinov, B.K. Blackman, and Y.-W. Yuan
Current Biology. 30:802-814.e8
PUBMED:32155414
doi:10.1016/j.cub.2019.12.067
VCell BioModels referenced in publication:
user: colreeze, model name: Monkeyflower_pigmentation_v2

New VCell model of pattern formation system

acowan 2020-05-19T16:54:06+00:00 March 9th, 2020|News|

2020-03-09. A new VCell model is used to explore how MYB proteins form an activator-inhibitor system that defines the spot pattern in mokeyflower petals. Visit our published models page for links to the paper and the VCell model.

VCell model of transport in plants

acowan 2020-05-19T16:42:28+00:00 January 30th, 2020|News|

2020-01-30. A VCell model is used in a new paper by Dreyer and Michard to re-examine the concept of high- and low-affinity nutrient uptade systems in plants. Visit our published models page for links to the paper.

Dreyer & Michard, 2020

acowan 2020-05-19T17:06:30+00:00 January 30th, 2020|publication, publication-2020|

High- and Low-Affinity Transport in Plants From a Thermodynamic Point of View.
Dreyer, I., and E. Michard
Front. Plant Sci. 10: 17497.
PUBMED:32082350
doi:10.3389/fpls.2019.01797

VCell 7.2 Released

acowan 2019-12-10T18:33:39+00:00 December 10th, 2019|News|

2019-12-10. VCell 7.2 has been released. See the Release Notes for a full list of the many new features in VCell 7.2 including new functionality to store identifiers and text annotations for model components, a service linking VCell simulation with ImageJ image analysis functions, rate rules and assignment rules in ODE applications, improved SBML import along with several other improvements.

Vujovic et al., 2020

acowan 2020-05-20T17:23:51+00:00 October 22nd, 2019|publication, publication-2019|

Notch Pathway: A Bistable Inducer of Biological Noise?
Vujovic, F.; Hunter, N.; Farahani, R. M.
Cell Communication and Signaling 2019, 17 (1), 133.
PUBMED:31640734
DOI:10.1186/s12964-019-0453-0

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