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expression information in cancer cells, holds transformative potential for understanding cancer biology. However, its advancement is hindered by data scarcity, which restricts the application of advanced
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imaging techniques and structural biology analysis. The student will learn a variety of research techniques including CRISPR genome editing, molecular biology, biochemistry, advanced fluorescent imaging
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., Biology, Marine Biology, Environmental Science, Ecotoxicology or similar). Knowledge and experience in either Biology or Toxicology is desirable. Regrettably, for this studentship, we are unable to accept
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) reflects this, as PROMs provide essential insights into health, quality of life, and functional status, complementing biology-based health metrics. This research aims to develop next-generation technology
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subject and preferably a relevant masters qualification and/ or extended laboratory research experience (e.g. molecular biology, biochemistry, cell culture, confocal microscopy). A strong background in
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to rapidly test if bacteria are being killed by bacteriophages. This project will work across disciplines of biology, electronics and medicine to develop new approaches. Our team combines expertise in three
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antibiotic susceptibility assays is desirable as are skills in molecular biology, such as cloning, whole genome sequencing and/or RNA analyses. Enthusiasm for learning new analytical techniques is essential
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human induced pluripotent stem cells. The successful candidate will be trained in relevant methods and procedures, including cell culture, cardiac electrophysiology, molecular biology/protein isolation
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the urgent need for deeper insights into GIST biology. Single cell RNA sequencing studies have identified immune cells present within the GIST tumour microenvironment (TME) that vary between KIT/PDGFRA mutant
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have some relevant laboratory experience in at least one of the following disciplines (In vitro culture, immunology, cell biology, toxicology, analytical chemistry). As this is a multidisciplinary