Phosphatidylinositol 4,5-bisphosphate is regenerated by speeding of the PI 4-kinase pathway during long PLC activation.
Myeong, J.; de la Cruz, L.; Jung, R.; Yeon, J.-H.; Suh, B.-C.; Koh, D.-S.; Hille, B.
J Gen Physiol. 2020. 152 (12): e202012627.
PUBMED:33186442
doi:10.1085/jgp.202012627
VCell BioModels referenced in publication:
user: Myeong, model name: PI cycle Figure 4 & S4
user: Myeong, model name: PI cycle Figure 6, 7 & S9
Name: “PI cycle Figure 6,7 & S9”
Saved: Sep 18, 2020
vcell identifier: biomodel-189512756
Owned by: “Myeong”
Name: “PI cycle Figure 4 & S4”
Saved: Sep 18, 2020
vcell identifier: biomodel-189513183
Owned by: “Myeong”
2020-11-30. Announcing the release of VCell 7.3! VCell 7.3 adds capabilities for multiple trajectories for non-spatial stochastic simulationss, interchange with the Open Modeling EXchange format (.omex), and automatic assignment of catalysts in the reaction diagram as well as numerous additional improvements and bug fixes.
2020-11-16. A new publication from the Lambert lab investigates the mechanisms that set the dynamic range of agonist-induced signaling using fluorescence imaging coupled with VCell modeling. Visit our published models page for links to the paper and to access the VCell model.
Name: “5HT7_Jan_2020”
Saved: Sep 16, 2020
vcell identifier: biomodel-189512756
Owned by: “wojang”
An inactive receptor-G protein complex maintains the dynamic range of agonist-induced signaling.
Jang, W.; Adams, C.E.; Liu, H.; Zhang, C. Levy; F.O.; Andressen, K.W.; Lambert, N.A.
Proc Natl Acad Sci U S A. 2020. 1172 (48): 30755-30762.
PUBMED:33199589
doi:10.1073/pnas.2010801117
VCell BioModel referenced in publication:
user: wojang, model name: 5HT7_Jang_2020
Breast cancer cells and macrophages in a paracrine-juxtacrine loop.
Onal, S.; Turker-Burhan, M.; Bati-Ayaz, G.; Yanik, H.; D. Pesen-Okvur, D.
Biomaterials. 2021. 267:120412.
PUBMED:33161320
doi:110.1016/j.biomaterials.2020.120412
Cell shape regulates subcellular organelle location to control early Ca2+ signal dynamics in vascular smooth muscle cells.
Calizo, R.C.; Bell, M.K.; Ron, A.; Hu, M.; Bhattacharya, S.; Wong, N.J.; Janssen, W.G.M.; Perumal, G.; Pederson, P.; Scarlata, S.; Hone, J.; Azeloglu, E.U.; Rangamani, P.; Iyengar, R.
Sci Rep. 2020 10:17866.
PUBMED:33082406
doi:10.1038/s41598-020-74700-x
2020-10-20. A new publication from the Rangamani and Iyengar labs using VCell modeling to explore how cell shape affects calcium dynamics in vascular smooth muscle cells. Visit our published models page for links to the paper.
