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PhD Studentship: Subcortical brain development and disorders, funded PhD at the University of Exeter
transcriptomics approaches combined with bioinformatics analyses. The project will focus on the emergence of diverse cell-type at critical points of brain development and identify molecular mechanisms underlying
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, modeling and Remote-sensing to Transform carbon budgets, CLARiTy’ (https://www.schmidtsciences.org/vicc/) will reduce the persistently high land flux uncertainties in GCB by an order of magnitude. To achieve
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, modeling and Remote-sensing to Transform carbon budgets, CLARiTy’ (https://www.schmidtsciences.org/vicc/) will reduce the persistently high land flux uncertainties in GCB by an order of magnitude. To achieve
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these could be developed into biomarkers. The student will sequence small RNAs from blood samples of healthy controls and individuals with DLB or AD. Using advanced bioinformatics, they will analyse small RNA
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of light. [1][2] This emerging technology holds enormous potential, offering routes towards new forms of highly parallelised information processing (optical computing), point-of-care diagnostics, next
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, thermal, electromagnetic or kinetic), are critical for the sustainable operation of wireless IoT devices and remote sensors. The world can reduce reliance on batteries and fossil-fuel-derived power if more