Proud to be part of the team behind the fantastic work published on @NatureCVR showing that Yes-mediated tyrosine phosphorylation is critical for VE-cadherin’s constitutive internalization and junctional plasticity in endothelial cells. #vascular
https://t.co/wmP0XqEeEj
@MicheleTavecchio has joined Asgard Therapeutics as Senior Scientist to work on the In vivo validation of cell reprogramming technologies. Michele is a successful scientist with international acquired experience in the fields of Cancer Pharmacology and Therapy.
@AsgardThx announced today that the US Patent and Trademark Office has granted Asgard’s foundational patent related to the method of reprogramming cells towards dendritic cell fate.
#trojanDC#Immunotherapy#Patentapproval
https://t.co/2oeuVtYnq2
@AsgardThx is thrilled to introduce Fritiof Åkerström, a current master's student at the University of Lund. Fritiof is currently working on the in vitro validation of different viral delivery platforms for our lead product TrojanDC.
https://t.co/Px23hNnzO4
Invest in Skåne interviews our CEO @_CristianaPires about the support of @investinskane in the initial stages of @Asgardthx, leading to an almost mythical seed capital funding round, which closed in late 2021 at 6 million euros!
https://t.co/r0dGc4tCym
Very happy finally share this from our lab. The puzzle of how endothelial cells coordinate their behaviour to control connectivity and vessel shape has another piece in place. https://t.co/Nwlw1QyBD3
WASp controls oriented migration of endothelial cells to achieve functional vascular patterning
An Open Access Research Article from André Rosa @andreangeloo, Holger Gerhardt @holger_gerhardt and colleagues
https://t.co/ayZ0ar0ebV
#OpenAccess#ReadandPublish
How proliferation and directed endothelial cell migration control vessel morphology and how WASp is involved and much more on https://t.co/xM9X5mupwr our latest publication @Dev_journal
We're excited to show our latest work on differential EC dynamics during vascular development in zebrafish from the Gerhardt lab, side-by-side with phenomenal work from @matfrancois1 lab led by Keyi Jiang
1/2: Two new studies using genetic tools and time-lapse to study vessel development in zebrafish and showing differential EC migration and proliferation between veins and arteries. 1st (François lab @UQscience) uses endothelial cell specific brainbow
https://t.co/PcsyxXQnUw