Margaret L. Gardel, Ph.D.
Affiliations: | 2004 | Harvard University, Cambridge, MA, United States |
Area:
condensed matter, colloidal dispersions, rheologyGoogle:
"Margaret Gardel"Mean distance: 14.38
Parents
Sign in to add mentor| David A. Weitz | grad student | 2004 | Harvard | |
| (Elasticity of F -actin networks.) | ||||
Children
Sign in to add trainee| Jonathan D. Stricker | grad student | 2012 | Chicago |
| Michael Murrell | post-doc | 2009-2013 | Chicago (BME Tree) |
| Shiladitya Banerjee | post-doc | 2013-2016 | Chicago |
BETA: Related publications
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Publications
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| Redford SA, Colen J, Shivers JL, et al. (2024) Motor crosslinking augments elasticity in active nematics. Soft Matter |
| Schmitt MS, Colen J, Sala S, et al. (2024) Machine learning interpretable models of cell mechanics from protein images. Cell. 187: 481-494.e24 |
| Jorgenson TD, Baboolall KD, Suarez C, et al. (2024) Highly flexible PEG-LifeAct constructs act as tunable biomimetic actin crosslinkers. Soft Matter. 20: 971-977 |
| Suarez C, Winkelman JD, Harker AJ, et al. (2023) Reconstitution of the transition from a lamellipodia- to filopodia-like actin network with purified proteins. European Journal of Cell Biology. 102: 151367 |
| Redford SA, Colen J, Shivers JL, et al. (2023) Motor crosslinking augments elasticity in active nematics. Arxiv |
| Sakamoto R, Banerjee DS, Yadav V, et al. (2023) Author Correction: Membrane tension induces F-actin reorganization and flow in a biomimetic model cortex. Communications Biology. 6: 470 |
| Sakamoto R, Banerjee DS, Yadav V, et al. (2023) Membrane tension induces F-actin reorganization and flow in a biomimetic model cortex. Communications Biology. 6: 325 |
| Schmitt MS, Colen J, Sala S, et al. (2023) Zyxin is all you need: machine learning adherent cell mechanics. Arxiv |
| Lynch AM, Zhu Y, Lucas BG, et al. (2022) TES-1/Tes and ZYX-1/Zyxin protect junctional actin networks under tension during epidermal morphogenesis in the C. elegans embryo. Current Biology : Cb |
| Cavanaugh KE, Staddon MF, Chmiel TA, et al. (2022) Force-dependent intercellular adhesion strengthening underlies asymmetric adherens junction contraction. Current Biology : Cb. 32: 4779 |