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collaboration. The Choudhary lab conducts research using interdisciplinary, state-of-the-art technologies, including quantitative proteomics, next-generation nucleic acid sequencing, advanced microscopy, CRISPR
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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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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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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
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methane concentrations Bioelectrochemical systems Sensitive oxygen measurement methods, including electrochemical microsensors and optodes Transcriptomic sequencing and bioinformatic analysis
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: Experience with bioinformatics and statistical analyses of whole genome sequencing or other genomic data A strong conceptual background in evolutionary biology and population genetics Good writing skills and
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collaboration. The Choudhary lab conducts research using interdisciplinary, state-of-the-art technologies, including quantitative proteomics, next-generation nucleic acid sequencing, advanced microscopy, CRISPR
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research environment with multiple state-of-the-art facilities in protein biochemistry, cell biology, and quantitative proteomics. The successful candidate will receive strong mentoring and career
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across molecular biology, ecology, bioinformatics, and environmental science. The taxonomic scope is broad and inclusive: we aim to collect comprehensive data across multiple taxonomic groups to support a