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Field
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scientific boundaries and overcome hurdles. They will have experience in stem cell culture, imaging, molecular biology, genetic engineering and/or bioinformatics analysis. This will enable new approaches
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and testing new bioinformatic pipelines to analyse important public health pathogens. The team comprises research software engineers, bioinformatic engineers, biostatistical researchers, clinical
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fungal pathogens from the WHOs fungal priority pathogen list. In the second part of the PhD, you will build scalable, user-friendly bioinformatics pipelines for rapid genome analysis, tested using samples
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in mass spectroscopy, expertise in the use of bioinformatics tools (such as Geneious, R, Pipebio, or development of new computational pipelines for data analysis) and experience of aseptic technique
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, you will lead the development and application of bioinformatics pipelines for DNA sequencing, contribute to innovative cancer research, and collaborate with a diverse team of scientists and external
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with spatial biology or immunohistochemistry Experience with RNAseq or microbiome data analysis Basic knowledge of R programming, bioinformatics or machine learning Attributes and Behaviour Independent
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advanced technologies in some of the following areas: immunology, biochemistry, molecular biology, proteomics, bioinformatics, genomics and other important areas related to vaccine development. The promising
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at the intersection of machine learning, bioinformatics, and computational pathology. Project Overview: Integrating histopathological imaging with omics (e.g., transcriptomics, genomics, proteomics) holds tremendous
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The Durbin Group in the Department of Genetics is seeking a postdoctoral Research Associate with strong expertise in genomic bioinformatics, phylogenetics and ancient sedimentary DNA analysis
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The Durbin Group in the Department of Genetics is seeking a postdoctoral Research Associate with strong expertise in genomic bioinformatics, phylogenetics and ancient sedimentary DNA analysis