mdx stem cell dysfunction is driven by p38/PI3K signalling, unlike healthy MuSCs, leading to precocious differentiation and loss of stemness.
Bravo Liza, Brendan and colleagues for the elegant work on multiple live imaging strategies to untangle mechanisms of muscular dystrophy! www.nature.com/articles/s41...
This two-week course combines lectures and practical sessions that incorporate leading edge technologies to address questions in stem cell biology in the context of organogenesis and regeneration in different organisms.
@tajbakhshlab.bsky.social
@zenlabpasteur.bsky.social @stemdevevo.bsky.social
Students are always appreciative of the course, the amount of academic knowledge and practical lab experiences gained across multiple organisms, and the difference strategies used to build a living entity. Please advertise. Thank you!
First dynamic in vivo analysis of dystrophic MuSCs. Identifies niche dysfunctions and points to strategies to restore stem cell function in DMD.
Our 2021-2022 ASCB participants are now part of a worldwide research network.
@tajbakhshlab.bsky.social
@zenlabpasteur.bsky.social
@devstempasteur.bsky.social
@stemdevevo.bsky.social
@pasteuredu.bsky.social
Cross-grafting experiments uncouple MuSC behaviours: Migration is dictated by the myofibre niche, fate decisions are fibre-independent, and symmetric cell divisions are disrupted. Resolves some long-standing debates in the field.
š Happy 2026 from #ASCBcourse!
Thanks to all former participants, speakers & future applicants! š
One highlight: tracking stem cell-like behaviors in chick embryos during #gastrulation š£
Apply now š shorturl.at/PyUHi
š June 22-July 3 @institutpasteur
#StemCells
@tajbakhshlab.bsky.social
Great project!
šØ JOB OFFER in our lab at Institut Pasteur šØ
We are looking for a research technician! Please repost š