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intervention trials (e.g., diet, FMT), and ex vivo gut models enabling advanced multi-omics analyses of these samples. In addition the lab also maintains a large culture collection, partially linked to genomic
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currently exploring a range of exciting topics at the intersection between computational neuroscience and probabilistic machine learning, in particular, to derive mechanistic insights from neural data. We
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researcher to study the complexity and heterogeneity of both mouse and human microglia in neurodevelopment and neurodegeneration. By using state of the art spectral flow cytometry you will develop advanced
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temperature signalling in plants, such as the model plant Arabidopsis thaliana and the crop plants wheat and soybean. To unravel this, we focus on dynamic changes in protein phosphorylation status, since
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researcher to study the complexity and heterogeneity of both mouse and human microglia in neurodevelopment and neurodegeneration. By using state of the art spectral flow cytometry you will develop advanced
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metastasis and novel metabolic pathways. We exploit mouse models, genetic engineering, metabolomics and single cell & spatial multi-omics analysis to gain groundbreaking insights into metabolism as a driving