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Project supervisor - Dr Tom Hargreaves Tackling climate change and meeting Net Zero targets will demand substantial changes to people’s everyday lives. Many different visions of Net Zero energy
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of diverse clinical scans and the anatomical structure of the heart. The model can be fine-tuned for different clinical tasks without retraining the entire network, enabling an agile workflow for performing
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phagocytosis (LAP), remains poorly studied in this context. This project aims to define the mechanisms mediating the lipid update and metabolism in the liver in response to high fat diets. This will enable
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recent work of Gallinaro and Kirby shows that the complex field with all complex powers is quasiminimal – the definable subsets are countable or co-countable – so in particular the real field is not
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coordination capabilities essential for operations in complex urban environments. With advancements in 5G mobile networks, Artificial Intelligence (AI)-driven navigation, Internet of Things (IoT) connectivity
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from the fetal MRI scans. Additionally, mesh modelling techniques will be developed to create 3D Finite Element (FE) mesh models from the segmented fetal and maternal anatomy. These FE models will then
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Primary supervisor - Dr Penelope Pickers Background Current projections of the global land carbon sink are widely divergent, because there is currently no robust method to separate net ecosystem
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. Prion-like proteins (PrLPs) play major roles in age-associated neurodegeneration, but their physiological functions are often poorly understood. Defining these functions would increase our understanding
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, threatening global food security. We will identify the genetic and epigenetic changes associated with prolonged sub-culture of the blast fungus using comparative genome analysis and thereby define
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undertake fieldwork (optional) to collect samples and extend the fitness database, molecular work to sequence additional genomes, and bioinformatics to define mutation-effect scores, thus generating