Thrilled to share our recently published work with Kinneret Keren, @Ashwini76690549, & N. Ierushalmi on how size controls a transition in actomyosin contraction patterns in cell-like droplets with rapid turnover: from steady contractile flow to *waves* !!
https://t.co/I0rXpzVNH6
Applications are open for our upcoming workshop, Mathematical Modeling, Computational Methods, and Biological Fluid Dynamics: Research and Training!
Apply today to join us as we delve into the development and analysis of mathematical models, numerical methods, computational simulations, theoretical fluid dynamics, and the integration of biological experimental data into modeling, simulations, and data analysis
https://t.co/WFoMZ9xhB7
Excited to see everyone at #CellBio2024 ! I'll be there to share our work with Carlos Carmona-Fontaine's group on how tumor cell clusters coattract via the ECM 👀
Details below 👇
Not sure what to do tomorrow morning? Stop by the Theoretical Mechanobiology from Single Cell to Multicellular Level Subgroup to hear about our recent work on mechanically driven tumor cluster coattraction!
(9:15am Room 28C)
Excited to see everyone at #CellBio2024 ! I'll be there to share our work with Carlos Carmona-Fontaine's group on how tumor cell clusters coattract via the ECM 👀
Details below 👇
Excited to see everyone at #CellBio2024 ! I'll be there to share our work with Carlos Carmona-Fontaine's group on how tumor cell clusters coattract via the ECM 👀
Details below 👇
Catch me in either the
Theoretical Mechanobiology from Single Cell to Multicellular Level Subgroup on *Monday* at 9:15am (Room 28C)
Poster session on *Tuesday* at Board B148 (P2540)
On my way to #CellBio2024 in San Diego! I will talk in the "Physical Biology of the cytoplasm" subgroup on saturday at 12.15pm in Room 33B! Come if we want to hear about our last results on competitive networks!
Dear Twitter,
The NYU Biology and Physics Departments have a joint tenure-track position open. Please re-post and pass the info along to anyone that might be interested to apply!
https://t.co/dI1Or7DdW5
How myosin-I enhances pushing of branched actin networks, with Mengqi Xu, Michael Ostap and colleagues at UPenn, and modeling by David Rutkowski now published https://t.co/checNWCbKx
How can the weak survive in this competitive world?
This beautiful movie shows the fierce competition between actin networks for scarce resources. A central rule of biological ecosystems captured by a minimal reconstituted system.
Congratulations to @cguerin38 and @acoli12 !
New study out on bioRxiv! We have studied how resources are shared between actin networks competing for a limited pool of components.
https://t.co/UM4o1FMWuJ
At the airport on the way to #SIAMLS24 -- Excited to connect with colleagues and friends!
Wednesday morning in MS35 I will be presenting our recent work on modeling stress fibers embedded in actomyosin networks. Come by for some mechanics, immersed boundary method, and cell bio!
All the talks are going to be fantastic! Huge thanks to organizers @ChrisEMiles and @v_ciocanel for putting together this excellent minisymposium program 🤩
At the airport on the way to #SIAMLS24 -- Excited to connect with colleagues and friends!
Wednesday morning in MS35 I will be presenting our recent work on modeling stress fibers embedded in actomyosin networks. Come by for some mechanics, immersed boundary method, and cell bio!
Wednesday 11am-11:25am, Pavillion East Plaza level
"Modeling the Mechanics of Actomyosin Structures"
MS35: Data-driven Modeling of Spatial Subcellular Processes