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transfer activities, again reflecting your career stage. We offer: Access to cutting edge technologies through core facilities, including high-content screening, flow cytometry, next-gen sequencing
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sequencing, and genome-wide CRISPR functional screening in both mouse models and clinical samples. Working closely with computational biologists and clinicians, this interdisciplinary project offers
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including WGS, single-cell, and long-read sequencing together with chromatin conformation techniques to understand how cancers mutate and evolve, which we are applying to cancer patient material in close
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can use and combine various cutting-edge data modes such as single-cell ATAC-seq, single-cell RNA-seq, spatial gene expression, and whole-genome sequencing. The candidate will get the opportunity
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, next-generation sequencing such as long-read sequencing, and high-throughput analysis techniques. Primary tasks: Culture human T cells and cancer cells Design multiplexed CRISPR strategies Analyse
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Unit , an international, ambitious, and well-resourced working environment. We have access to state-of-the-art facilities for flow cytometry, next generation sequencing, spatial and single-cell
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flexible, meaning that the postdoc will have the opportunity to design studies, in coordination with the PI, which align with the researcher’s interests and methodological skillset. The postdoc will also
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and clinical outcome through comprehensive tumor profiling. The project integrates spatial transcriptomics, long-read sequencing, DNA methylation analysis, and microbiome profiling to gain a deeper
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ontologies and knowledge graphs that represent the data structures and processes across our facilities. A key part of your role will be to ensure alignment with best practices and existing community standards
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international quality, including publication. Single cell RNA sequencing and data analysis Characterization and production of monoclonal antibodies Flow cytometry Confocal microscopy qPCR In vitro cell cultures