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endosymbiotic interactions between soil microbes and crops. The overall aim of the project is to characterize novel signalling processes that enable plant root endosymbiosis. The role: Working as part of a team
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and Trust (SnT) at the University of Luxembourg is a leading international research and innovation centre in secure, reliable and trustworthy ICT systems and services. We play an instrumental role in
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to create a space where scientific discovery in cancer research is transformed into benefits for human health. The Division of Signaling and Functional Genomics, headed by Prof. Dr. Michael Boutros
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Postdoc in Decoding Biological Nitrification Inhibition (BNI) in Cereals: Integrating Metabolomic...
as possible thereafter. You will be part of a research environment focusing on sustainable crop production, nitrogen use efficiency and plant–soil–microbiome interactions. You will be contributing
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disseminated tumor cells before metastatic outgrowth remain largely unavailable. Building on our recently published work in Nature Cancer (doi: 10.1038/s43018-025-00963-w), this position offers the opportunity
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patients can be treated more successfully. Every contribution counts – whether in research, administration or infrastructure. This is what makes our daily work so meaningful and exciting. The Division
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various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
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capitalizing on this insight. A similar system as described above for ammonia has also been established for or CO2 hydrogenation where we also have a long tradition for work on both the fundamental level as
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and educational issues with the common goal of contributing to an inclusive, open and resourceful society. Your role The Postdoctoral researcher will be working in the Institute of Teaching and Learning
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lab is looking for motivated individuals interested in using innovative in vivo and molecular approaches to address how the organization and function of norepinephrine neural circuits in animal models