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immediate biomedical relevance Access state-of-the-art labs and infrastructure at DTU Health Tech Collaborate with an interdisciplinary team of chemists, engineers and biologists Develop your academic career
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Postdoc "Interferometric SAR Data Processing and Analysis for Implementation in the 3D-ABC Founda...
The large collaborative project ‘3D-ABC’, funded for 3 years by the Helmholtz Foundation Model Initiative, will focus on the development of a Foundation Model combining large remote sensing and field datasets
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at IFReC for their research, including equipment for single-cell analysis. Furthermore, selected applicants can expect their research careers to develop immensely through invaluable guidance from
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Two year postdoc position at Aarhus University for single molecule FRET based investigations of l...
concerns an integrative effort where several cryo-EM structures are used to develop donor and acceptor labelled proteins and complexes to follow their large scale rearrangements by single-molecule
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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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research group study the genetic and epigenetic changes that drive the development of hematological malignancies by employing cutting-edge multi-omics approaches. The successful candidate will join a dynamic
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chemical biology will be expected to: Develop and execute independent research in phenotype-driven microbiome studies using chemical biology strategies Perform laboratory research using chemical biology
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, the candidate will develop new computational strategies to identify human genetic variation linked to cell fate changes in neurodevelopmental disorders and cancer. The candidate can use and combine single-cell
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occurrence and significance of dark oxygen production in natural systems remain unknown. The successful candidate will develop and employ experimental techniques for the detection and quantification of dark
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method development for discovery of rare cell states and their tumor microenvironment in relation to patient outcome. Your physical working location will be at the Department of Medical Genetics, Section