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Circuits Project description: Neuronal synapses are remarkably heterogeneous and dynamic structures that vary widely in molecular composition, nanostructure, and signaling strength. This rich variety
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carried out at the section Molecular and Cellular Neurobiology (MCN) . Recent studies have shown that in addition to neurons, glial cells play a major role in synaptic function. So far, it is unclear what
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remains a major scientific and technological challenge. Your job This collaborative project between the Alta and Thevenon groups aims to address this challenge by developing molecular additives
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options for sports and cultural activities . You can also tailor your employment conditions through our Terms of Employment Options Model. In this way, we encourage you to keep investing in your personal
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candidates working on related topics, including nanoparticle database curation, molecular dynamics-based transport modelling, and reinforcement learning for treatment optimization. Contribute to high-impact
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linked to transcriptome, translatome and phosphoproteome data to finally create an integrated model of seed germination. Within the team, you will be responsible for investigating how the mechanical
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resource scarcity. You will work on a commercially important species chickpea as well as the model plant Arabidopsis. Your project will entail resolving spatiotemporal gene regulatory networks of suberin
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, medical imaging, pathology, molecular biology, and biostatistics. The resulting international biobank of precisely characterised tumour samples provides the basis for countless research projects and opens
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will design a novel, highly coarse-grained model of the nanocarrier and use Brownian dynamics simulations to investigate its assembly and disassembly mechanisms in relation to nutrient loading capacity
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molecular ultrasound imaging using functionalized, monodisperse microbubbles. The project addresses a fundamental question: how does the acoustic response of a microbubble change when it binds to a molecular