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project that combines cutting-edge approaches including state-of-the-art imaging techniques, pluripotent stem cell models, in vivo mouse models of neurological disorders, drug (brain) delivery and nanobody
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communication skills, with an ability to work independently and collaboratively. Desirable skills Experience with Spectral flow cytometry Experience with myeloid cells biology Basic/intermediate programming
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-ray videocystometry in awake mice, and optogenetic modulation of urothelial cells. The candidate will design and conduct experiments exploring mechanosensitive ion channels (e.g. TRPV4, PIEZO1/2) and
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to identify and characterize these compounds. Additionally, microbial cell factories will be engineered for metabolite production through pathway engineering and dynamic pathway control. The postdoctoral
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identity and establish proper connectivity with brain targets during development. To this end, Esther and her team use advanced technologies like single-cell and spatial transcriptomics and connectomics
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single-cell and spatial multi-omics datasets. The primary focus of this role is to delve deeper into the molecular mechanisms driving intra-tumor heterogeneity, plasticity, and therapy resistance
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and/or comparable expertise (e.g from industry). Demonstrated expertise in omics data analysis, for example with (meta)genomics, transcriptomics, proteomics, metabolomics, single cell and/or genotyping