267 structural-engineering "https:" "https:" "https:" "https:" "UCL" "UCL" "UCL" Postdoctoral research jobs at Nature Careers
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molecular biology and immunology techniques along with multi-omics approaches, including sc-RNA-seq, bulk RNAseq, epigenomics, metabolomics, proteomics, CRISPR screens and genetically engineered mouse models
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related to software-based and network attacks. Technology transfer: Work with industrial and governmental partners to transfer the group's research results into functional prototypes and technology
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. However, progress is constrained by the scarcity of high-quality, well-characterized in vitro T-cell immunogenicity data. In this project, we will leverage expertise and technology in peptide T-cell
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offers a unique research and development network in medicine, life sciences and medical technology in Germany. The Alliance provides funds for two-year postdoctoral positions at Alliance institutions with
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Postdoctoral Research Associate- Training in the Design & Development of Infectious Disease Therapeu
including small molecule and vaccine candidates. Postdoctoral preceptors associated with the program are drawn from the departments of Infectious Diseases, Structural Biology, Chemical Biology & Therapeutics
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discovery programs. Your key responsibilities will be to: design and execute wet‑lab experiments supporting neurological therapeutic development perform molecular biology and cloning, including construction
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, bioinformatics, systems biology, bioengineering, chemical engineering, or a related discipline Knowledge and experience in the analysis of metagenomics, untargeted metabolomics, or other biological high-throughput
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during cell state transitions in health and disease; (ii) how RNA/DNA secondary structures contribute to DNA repair. Using CRISPR screening, we have identified novel RNA/DNA helicase effectors of DSB
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Two postdoctoral positions (3-year) in Experimental Evolution of Methanogenic Microbiomes in Bioe...
project at the interface of directed experimental evolution, microbial ecology, and bioelectrochemical engineering. The project combines laboratory evolution approaches with omics-based analysis
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& Systems Biology program at MSK. Our long-term goal is to enable rational engineering of cell state: using large-scale functional genomics to build predictive models of how cells respond to perturbations