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the ERC Starting Grant research project “Exploiting Nanopore sequencing to discover what microbes eat (NanoEat)” with the aim to combine state-of-the-art metagenome sequencing with state-of-the-art data
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the ERC Starting Grant research project “Exploiting Nanopore sequencing to discover what microbes eat (NanoEat)” with the aim to combine state-of-the-art metagenome sequencing with state-of-the-art data
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the Oxford Nanopore sequencing platform and improve genome recovery from metagenomes by developing new binning algorithms based on machine learning. The postdoc will be part of the Microbial Metagenomics group
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networks driving aging and inflammation using cutting-edge molecular and genomic technologies. The project integrates single-cell and spatial transcriptomics, epigenome and whole-genome sequencing, and
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members. You will collaborate closely with immunology research groups and external stakeholders to align the yeast engineering with direct applications and emerging needs in immunological research
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facilities (e.g., sequencing, proteomics and imaging) and extensive expertise in functional genomics, gene-regulatory mechanisms and cancer biology. This international, well-equipped, highly ambitious and
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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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include molecular data generation via DNA and RNA extractions followed by sequencing of both the host genome and associated metagenome. The next phase will be to jointly analyse these data in a hologenomic
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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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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