RT @EpiMechFC: Xue, X., Sun, Y., Resto-Irizarry, A. M., Yuan, Y., ... Weng, S., Shao, Y., Chai, Y., Studer, L., & Fu, J. (2018). Mechanics-…
RT @EpiMechFC: Paper 2: Xufeng Xue and colleagues from Jianping Fu lab discovered that neural fates are patterned mechanically, and stretc…
RT @EpiMechFC: Paper 2: Xufeng Xue and colleagues from Jianping Fu lab discovered that neural fates are patterned mechanically, and stretc…
RT @EpiMechFC: Paper 2: Xufeng Xue and colleagues from Jianping Fu lab discovered that neural fates are patterned mechanically, and stretc…
Paper 2: Xufeng Xue and colleagues from Jianping Fu lab discovered that neural fates are patterned mechanically, and stretching completely changes such organization https://t.co/pOdSY4T4so https://t.co/xv8k3nwKaK
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @CarmeloFerrai: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
RT @EpiMechFC: Xue, X., Sun, Y., Resto-Irizarry, A. M., Yuan, Y., ... Weng, S., Shao, Y., Chai, Y., Studer, L., & Fu, J. (2018). Mechanics-…
Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/4B5r8UF19k
Xue, X., Sun, Y., Resto-Irizarry, A. M., Yuan, Y., ... Weng, S., Shao, Y., Chai, Y., Studer, L., & Fu, J. (2018). Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. Nature Materials #EpithelialMechanics htt
Interesting article from University of Michigan. Human embryonic stem cells can be guided to become the precursor tissue of the central nervous system. https://t.co/0dqEELj39I
RT @AssafZaritsky: Mechanical regulation of cell-fate pattern formation in an in vitro embryonic development model. Signaling gradients are…
RT @JCRnEDITORS: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. | Nature Materials | htt…
RT @JCRnEDITORS: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. | Nature Materials | htt…
Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. | Nature Materials | https://t.co/ocbOTE9Fhz
RT @AssafZaritsky: Mechanical regulation of cell-fate pattern formation in an in vitro embryonic development model. Signaling gradients are…
RT @MTewary: Our commentary on the very nice work from the Fu lab https://t.co/bUbQarZFWg is out in @NatureMaterials. It was a great pleasu…
RT @AssafZaritsky: Mechanical regulation of cell-fate pattern formation in an in vitro embryonic development model. Signaling gradients are…
Mechanical regulation of cell-fate pattern formation in an in vitro embryonic development model. Signaling gradients are induced by cell size and contractile force in geometrically confined hPSCs colonies Paper https://t.co/inNGDC0qcg (free!) Nice preview
RT @MTewary: Our commentary on the very nice work from the Fu lab https://t.co/bUbQarZFWg is out in @NatureMaterials. It was a great pleasu…
RT @MTewary: Our commentary on the very nice work from the Fu lab https://t.co/bUbQarZFWg is out in @NatureMaterials. It was a great pleasu…
Biomechanical activation of BMP mediated developmental patterning. https://t.co/7aAv9nFlPS
Our commentary on the very nice work from the Fu lab https://t.co/bUbQarZFWg is out in @NatureMaterials. It was a great pleasure to write it! https://t.co/MkTRmETTjH @PZandstra
#mechanobiology using mechanical paterning to direct cell fate. https://t.co/Tt3RfVBknD
Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/FT6PVu8bdK
#STEMCELL Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/HKvQmQOwTt
RT @ESC_iPSC_News: Mechanics-Guided Embryonic Patterning of Neuroectoderm Tissue from Human PSCs @UMich @NatureMaterials https://t.co/Ei1L…
Mechanics guide neuroectoderm tissue formation. https://t.co/JOaakzc2y0
RT @ESC_iPSC_News: Mechanics-Guided Embryonic Patterning of Neuroectoderm Tissue from Human PSCs @UMich @NatureMaterials https://t.co/Ei1L…
RT @ESC_iPSC_News: Mechanics-Guided Embryonic Patterning of Neuroectoderm Tissue from Human PSCs @UMich @NatureMaterials https://t.co/Ei1L…
Mechanics-Guided Embryonic Patterning of Neuroectoderm Tissue from Human PSCs @UMich @NatureMaterials https://t.co/Ei1LCRsqHE https://t.co/dSNHhonsRI
RT @elveflow: How mechanics, as an integral driver of development, is involved in controlling #tissue-scale cell fate patterning 🤔? Take a…
RT @elveflow: How mechanics, as an integral driver of development, is involved in controlling #tissue-scale cell fate patterning 🤔? Take a…
How mechanics, as an integral driver of development, is involved in controlling #tissue-scale cell fate patterning 🤔? Take a look to the latest paper in @NatureMaterials Materials https://t.co/6kuq84Y6nk 👨🎓 #cellbiology #cellstretching #microfluidics @U
RT @NatureMaterials: Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co…
https://t.co/lQhUbPt23N An excellent paper aiming in vitro neuroectoderm regionalization mimicking, the process after neural plate formation in vivo, by using micropatterned PSCs.
RT @umichme: #UMichME professor Jianping Fu's research on neural plates has been featured in @NatureMaterials! https://t.co/47AdGXVTfu http…
RT @NatureMaterials: Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co…
RT @NatureMaterials: Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co…
RT @NatureMaterials: Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co…
RT @NatureMaterials: Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co…
Article | Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells https://t.co/sKBHITPD9s (free view) https://t.co/GUecoXHlBQ (£) https://t.co/hH9m2Sn0Lp
Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. https://t.co/AXVl1YnB2z
RT @OMID_MASH: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells @NatureMaterials https://t.c…
Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells @NatureMaterials https://t.co/xkNhay64Ap
RT @umichme: #UMichME professor Jianping Fu's research on neural plates has been featured in @NatureMaterials! https://t.co/47AdGXVTfu http…
#UMichME professor Jianping Fu's research on neural plates has been featured in @NatureMaterials! https://t.co/47AdGXVTfu https://t.co/Df1fwWZwaT