Antal Well apparently 8000 genetically modified mice are derived from 129 ESCs... cell.com/immunity/fullt…

Only 8K? possible to screen all of these quickly, in ....decades. Would there be grant money to finance such massive katharsis?

🚀 New Postdoc Position 🚀 We offer a 3-year postdoc position to investigate how vascular #aging impacts #immunecell function. 🔬 We’d be grateful if you could help spread the word! 🙏 Queen Mary University of London William Harvey Research Institute 👉qmul-jobs.tal.net/vx/mobile-0/ap… #Postdoc #AcademicTwitter #ResearchOpportunity

Poorly validated antibodies fuel the reproducibility crisis. YCharOS shares a protocol for antibody validation using KO cell lines tinyurl.com/NP-article tinyurl.com/NP-comment Glad that our study is cited as an example for improving data quality tinyurl.com/CSC-Letter

Dime un jugador del Real Madrid así

A preclinical study uncovers a metabolic pathway that offers a target in neuropathic pain, scientists discover how chemokines can support red blood cell production in mice, and more this week in #ScienceSignaling. scim.ag/3HEv8no

Proud to share that our recent publication in Science Signaling has been featured on the Science website today! 🧬🔬 It’s a great feeling to see our work reach a broader audience. Many thanks to all collaborators Check out the feature here: science.org #Science

CXCL12-stimulated intracellular and nuclear CXCR4 signaling mediates erythroblast enucleation to generate red blood cells Science Signaling Julia Christine Gutjahr Antal science.org/doi/10.1126/sc…

Open access link can be found here: bitg.ch/eBITg_site/de_…

Although chemokines are known for their role in cell migration, new work in mice shows that CXCL12 also promotes the differentiation of #erythroblasts by promoting CXCR4 signaling and activity in the nucleus. Johan Duchene Julia Christine Gutjahr William Harvey Research Institute scim.ag/446wONU

Not all chemokine signaling is about cell migration! In mouse erythroblasts, CXCL12-bound CXCR4 enters the nucleus to control gene transcription, trigger calcium bursts, and drive red blood cell formation—especially enucleation. 🔗 science.org/doi/10.1126/sc… #chemokine #CXCR4

science.org/doi/10.1126/sc… We describe the hitherto overlooked expression of CXCR4 in erythroblasts, which do not migrate in response to CXCR4 ligation by CXCL12. Instead, CXCR4 localises to the nucleus and mediates alternative responses in erythroblast maturation and enucleation

A team finds that the #chemokine CXCL12 can support the production of #RedBloodCells in mice, suggesting that this pathway could be investigated for the treatment of disorders related to red blood cells. Johan Duchene Julia Christine Gutjahr William Harvey Research Institute scim.ag/446wONU

In a new study, researchers find that the chemokine CXCL12 can support the production of red blood cells in mice, suggesting that this pathway could be investigated for the treatment of disorders related to red blood cells. Learn more in @SciSignal: scim.ag/4kTxFZz

In a new study, researchers find that the chemokine CXCL12 can support the production of red blood cells in mice, suggesting that this pathway could be investigated for the treatment of disorders related to red blood cells. Learn more in @SciSignal: scim.ag/4kTxFZz

#FluorescenceFriday & Erythroblast Erythroblast stimulated with CXCL12, stained for CXCR4 (green) and nuclei (blue). Captured via Correlative Light & Electron Microscopy by Jemima Burden Learn more: scim.ag/4kTxFZz Julia Christine Gutjahr Antal Science Magazine Science Signaling

Un joli erythroblaste. Un érythroblaste est une cellule jeune de la lignée des globules rouges, présente dans la moelle osseuse. Elle contient encore un noyau, ce qui la distingue des globules rouges matures (érythrocytes), qui en sont dépourvus.

A team finds that the #chemokine CXCL12 can support the production of #RedBloodCells in mice, suggesting that this pathway could be investigated for the treatment of disorders related to red blood cells. Johan Duchene Julia Christine Gutjahr William Harvey Research Institute scim.ag/446wONU