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Transitions of Self-Organized Embryonic Systems Gastrulation is a crucial stage of embryonic development, during which an initially homogeneous tissue organizes into distinct cellular layers. Our team recently
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Position: Our laboratory is recruiting a postdoctoral fellow to investigate how senescent cells shape tissue function in vivo, particularly its interplay with cellular plasticity/reprogramming
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aimed at understanding the cellular mechanisms regulating lipid metabolism. The work will focus on the dynamics, synthesis, and storage of lipids within cellular organelles, particularly lipid droplets
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elucidating the molecular and cellular mechanisms of the late phase of long-term potentiation (LTP), a key process in learning and memory. The project is based on the development and use of an innovative
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the job funded through the EU Research Framework Programme? Horizon Europe - ERC Is the Job related to staff position within a Research Infrastructure? No Offer Description All eukaryotic cell
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potential therapeutic targets and biomarkers. An ambitious technological development in the team focuses on single cell proteomics analysis to access tumor heterogeneity in patient-derived organoids and
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Collective cell migration, a key process in living systems, remains largely underexplored in the intermediate-density subconfluent regime, where cell clusters coexist with isolated cells, as is often the case
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Strasbourg on a joint project between CNRS (Team STREINTH, UMR7242, Biotechnology and Cell Signaling, ESBS) and Inserm (Group GP-SMIT, U1260, Nanomedicine, CRBS), starting in 2026. The postdoctoral project
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at understanding developmental programs that are hijacked during early pediatric glioma oncogenesis, leading to a disruption of cellular fate, and to identify window(s) for early therapeutic intervention
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motivated postdoctoral researcher to develop and apply imaging-based and computational approaches to identify predictive nuclear signatures of cell fate. The project combines experimental and quantitative