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employs a translational approach, applying insights from animal and cell models to humans, and vice versa. This requires a broad expertise in molecular techniques and high-throughput data analysis across
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the computational cost. This PhD project aims to develop a fast, accurate multiscale modeling paradigm that bridges continuum and molecular transport regimes. The goal is to create a Neuro Generalized Method of
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of Groningen to the University of Amsterdam. The group's mission is to explore the role of the microbiome in human health. Working alongside a team of microbiologists, molecular biologists, biochemists, and
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employs a translational approach, applying insights from animal and cell models to humans, and vice versa. This requires a broad expertise in molecular techniques and high-throughput data analysis across
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combining plant biology, simulation modelling, and artificial intelligence we aim to develop ‘smart breeding and cultivation’ methods to speed up breeding for complex resilience traits in different growing
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programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Are you interested in fundamentally understanding the molecular mechanisms that allow cancer cells
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incident conditions, i.e., mainly higher incidence energies, which requires the development and implementation of a new machine-learning model to represent the tensorial electronic friction coefficients
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(including preclinical models) is essential. Affinity with data collection and mining, data analysis, and data gathering with readouts in, e.g., histology, molecular cell biology, immunohistochemistry, and
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modelling of the human microcirculation by merging vascular cell biology with computational science In this project, we will study the molecular basis of endothelial integrity in the context of acute and
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by making next generation complex organ-on-a-chip or organoid models. We are looking for a biomedical researcher trained in molecular cell biology with an excellent track record in innovative iPSC