Mechanical regulation of glycolysis via cytoskeleton architecture | Nature https://t.co/CBCfD75mOD
RT @RJDLab: Congratulations Jin and @gdanuser1!!!! Awesome watching this story unfold from Jin, a phenomenal grad student in the Danuser la…
RT @RJDLab: Congratulations Jin and @gdanuser1!!!! Awesome watching this story unfold from Jin, a phenomenal grad student in the Danuser la…
RT @CRI_UTSW: New research out today from @gdanuser1 & @RJDLab in @nature found mechanical forces regulate epithelial cell metabolism. Sti…
Nice work, Jin!
RT @RJDLab: Congratulations Jin and @gdanuser1!!!! Awesome watching this story unfold from Jin, a phenomenal grad student in the Danuser la…
Very cool!
Maybe one reason why i see cells respond to nutrients in media differently in confluent vs nonconfluent conditions
RT @CRI_UTSW: New research out today from @gdanuser1 & @RJDLab in @nature found mechanical forces regulate epithelial cell metabolism. Sti…
RT @RJDLab: Congratulations Jin and @gdanuser1!!!! Awesome watching this story unfold from Jin, a phenomenal grad student in the Danuser la…
Congratulations Jin and @gdanuser1!!!! Awesome watching this story unfold from Jin, a phenomenal grad student in the Danuser lab Mechanical regulation of glycolysis via cytoskeleton architecture https://t.co/1HzRK8tXKA
New research out today from @gdanuser1 & @RJDLab in @nature found mechanical forces regulate epithelial cell metabolism. Stiff matrix=⬆️glycolysis, soft matrix=⬇️glycolysis, and cancer cells were glycolytic regardless – they ignore mechanical cues. ht
RT @wyssinstitute: New research published in @nature from Wyss Associate Faculty member Chris Chen, "Mechanical regulation of glycolysis vi…
RT @wyssinstitute: New research published in @nature from Wyss Associate Faculty member Chris Chen, "Mechanical regulation of glycolysis vi…
New research published in @nature from Wyss Associate Faculty member Chris Chen, "Mechanical regulation of glycolysis via cytoskeleton architecture" https://t.co/zF729S82TQ