Penney M. Gilbert, Ph.D.
Affiliations: | 2006 | University of Pennsylvania, Philadelphia, PA, United States |
Area:
Cell Biology, Molecular BiologyGoogle:
"Penney Gilbert"Parents
Sign in to add mentorValerie M. Weaver | grad student | 2006 | Penn | |
(The role of HoxA9 in breast cancer progression.) |
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Publications
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Nguyen J, Wang L, Lei W, et al. (2024) Culture substrate stiffness impacts human myoblast contractility-dependent proliferation and nuclear envelope wrinkling. Journal of Cell Science |
Jacques E, Kuang Y, Kann AP, et al. (2022) The mini-IDLE 3D biomimetic culture assay enables interrogation of mechanisms governing muscle stem cell quiescence and niche repopulation. Elife. 11 |
Moyle LA, Davoudi S, Gilbert PM. (2021) Innovation in culture systems to study muscle complexity. Experimental Cell Research. 411: 112966 |
Nguyen CT, Ebrahimi M, Gilbert PM, et al. (2021) Electrophysiological analysis of healthy and dystrophic 3D bioengineered skeletal muscle tissues. American Journal of Physiology. Cell Physiology |
Ebrahimi M, Lad H, Fusto A, et al. (2021) De novo revertant fiber formation and therapy testing in a 3D culture model of Duchenne muscular dystrophy skeletal muscle. Acta Biomaterialia |
Girardi F, Taleb A, Ebrahimi M, et al. (2021) TGFβ signaling curbs cell fusion and muscle regeneration. Nature Communications. 12: 750 |
Moyle LA, Cheng RY, Liu H, et al. (2020) Three-dimensional niche stiffness synergizes with Wnt7a to modulate the extent of satellite cell symmetric self-renewal divisions. Molecular Biology of the Cell. mbcE20010078 |
Afshar ME, Abraha HY, Bakooshli MA, et al. (2020) A 96-well culture platform enables longitudinal analyses of engineered human skeletal muscle microtissue strength. Scientific Reports. 10: 6918 |
Thavandiran N, Hale C, Blit P, et al. (2020) Functional arrays of human pluripotent stem cell-derived cardiac microtissues. Scientific Reports. 10: 6919 |
Moyle LA, Jacques E, Gilbert PM. (2020) Engineering the next generation of human skeletal muscle models: From cellular complexity to disease modeling Current Opinion in Biomedical Engineering. 16: 9-18 |