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. This exciting project will focus on designing, constructing, and testing synthetic cells with multiple sub-compartments. Just like their living counterparts (i.e. eukaryotic cells), synthetic cells with different
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, sample and data analysis and write-up of results for scientific publication are part of the PhD process – a journey to become an independent researcher! Throughout the project, there will be multiple
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the interaction between network exposure and resource allocation. In this context, your main focus will be to: - Investigate network exposure mechanisms related to 5G core network functions and network
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University Hospital, Duke Regional Hospital, Duke Raleigh Hospital, Duke Health Integrated Practice, Duke Primary Care, Duke Home Care and Hospice, Duke Health and Wellness, and multiple affiliations
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molecular interactions between ICB and γδ T cells. Position 2 will focus on the potential role of γδ T cells in immune related adverse effects (irAEs). Both positions will be in close collaboration with
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Geography (IfL) Leibniz Institute for the History and Culture of Eastern Europe (GWZO) Zentrum für Interdisziplinäre Regionalstudien (ZIRS), Martin-Luther-Universität IMPRS "Global Multiplicity: A Social
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. The successful candidate will work on field-based experiments, data collection, and analysis, focusing on understanding the interaction between floral resources, pollinator activity, and apple yield outcomes
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these institutional arrangements influence public space outcomes such as accessibility, safety, social value, and sustainability. Key questions include: How can governance structures better coordinate the multiple
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Leibniz Institute of Ecological Urban and Regional Development (IOER) • | Dresden, Sachsen | Germany | about 13 hours ago
Leibniz Association. Our subject is the sustainable development and transformation of cities and regions in the context of the global human-ecological crisis. We investigate dynamic interactions between
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, their molecular movements, and their interaction with other proteins within the cell membrane. We propose that understanding of single molecular movements will allow us to gain further insight in the receptor