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potent anti-cancer properties. Working under Dr Stephen Robinson (Quadram Institute/UEA) and Prof Lindsay Hall (University of Birmingham), you will combine large-scale bioinformatics (genome mining
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impacted by sewage release and is associated with significant flooding events. The student will combine experimental methods with metagenomics and bioinformatics to profile the threats associated with
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Nanopore sequencing, ChIP-seq, and Hi-C, to probe plant genomes and centromeres. The project will involve both wet-lab based functional genomics approaches, together with dry-lab based bioinformatics
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bioinformatic tools and focused on clear interpretation and communication of this data. This project is part of an exciting new Doctoral Training Programme in Microbial Genomics for Health Protection in
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leveraging cutting-edge genomic technologies and bioinformatic tools, this project will compare the systemic responses to sea lice across resistant and susceptible salmonid species and populations
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local clinical strategies for patient care. To do this, advanced molecular, sequencing and bioinformatic tools will be utilised alongside clinical data that will provide a link between genomic and
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expertise in microbiome research, host-microbe interactions, and metabolic disease mechanisms. You will receive training in anaerobic microbiology, molecular biology, bioinformatics, and cutting-edge
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receive training in complex methodologies including transposon directed insertion-site sequencing (TRADIS) and its analysis using bioinformatics tools. This extensive training will provide you with a series
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to reveal how bacteria can be used to predict the best treatment to receive and reveal new treatment possibilities to prevent or halt aggressive cancer. This is a combined bioinformatics and lab experiment
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. Whilst full training will be given, previous experience with tissue culture, analysis of genomics data, bioinformatics approaches or previous use of relevant platforms such as R, are desirable