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cortex dysfunction leads to cognitive and planning impairment in psychosis. The project combines task-based fMRI in individuals with psychosis, online behavioural experiments, and cutting-edge natural
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experimental design (active learning) • Combining models and combining data / Realistic simulation of clinical trials • Developing LLMs to utilise ODEs and ProbML as tools; Code synthesis
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cortex dysfunction leads to cognitive and planning impairment in psychosis. The project combines task-based fMRI in individuals with psychosis, online behavioural experiments, and cutting-edge natural
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ultimately contributing to the development of new antiviral approaches. The project takes a cross-disciplinary approach, combining biochemical, biophysical, cell biological, and virological methods, including
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hundreds of samples from multiple independent marine transmissible cancer clones. The role provides an exciting opportunity to combine single-cell cancer genomics with molecular cytogenetics and statistical
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Drosophila oocytes. This is an excellent opportunity to lead an exciting project combining approaches including live-imaging microscopy, genetics, mass-spectrometry and biochemistry. The position is
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populations using patient samples and employing a combination of multi-modal techniques (scRNA-seq, scATAC-seq, ResolveOME) to develop novel assays for disease monitoring. The post is based at the Barts Cancer
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of lahars and debris flows using a combination of geophysical field measurements (e.g., seismic, acoustic, deformation, UAV) and numerical modelling. Specifically, we will address the hypothesis that key
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populations using patient samples and employing a combination of multi-modal techniques (scRNA-seq, scATAC-seq, ResolveOME) to develop novel assays for disease monitoring. The post is based at the Barts Cancer
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researcher to investigate the neural mechanisms underlying decision-making, using the fruit fly Drosophila melanogaster as a model system. Funded by the BBSRC, this project will combine innovative behavioural