659 computer-programmer-"https:"-"UCL" "https:" "https:" "https:" "https:" "https:" "https:" "Univ" uni jobs at University of Sheffield
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medicine in neuroscience and neuromuscular research and development. Moreover, you will be embedded within the vibrant, multi-disciplinary Integrative Musculoskeletal Biomechanics (IMSB, https
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, prepare and circulate the agenda and papers, prepare and circulate minutes and provide follow up on actions. Plan and organise individual and School Office team activity over short, medium and long-term
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services for health, maximising person centred care) is a research and innovation programme to transform care for people with multiple long term conditions. It represents a partnership between systems
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training in molecular plant-microbe interactions, epigenomics, and computational biology. You will gain hands-on experience in plant disease phenotyping, genetic transformation, and high-throughput
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& professional services) Essential Application/Interview Excellent organisational skills with the ability to prioritise demands, manage your own resource requirements and plan and progress work activities in
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: https://sheffield.ac.uk/smph/people/academic/clinical-medicine/faith-howard For informal enquiries about this job contact Dr Faith Howard, Project Lead atf.howard@sheffield.ac.uk Next steps in
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and information is provided to colleagues in Finance. Maintain accurate data on research programmes / schemes and organisations involved in research projects. Create and maintain electronic files and
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objectives and experimental programmes. Work with project managers and senior research staff to plan resources, structure datasets, analyse machining performance and part quality, report research findings
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working groups or initiatives as required, taking an active role in the implementation of any changes Plan and review workload allocations across the team, ensuring all objectives and deadlines are achieved
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. In a landmark study published in Nature Microbiology (https://rdcu.be/eI3cz), we showed that Pseudomonas aeruginosa cells in biofilms sense chemical gradients in a completely different way from any