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10th May 2024 Languages English English English Department of Biotechnology Postdoc in Novel Technology Solutions for Diagnostics of infection and Antimicrobial resistance Apply for this job See
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-parasite interaction between salmon and salmon lice. Among other things, this will be investigated using gene knock-down of relevant louse genes and infection trials. The knowledge should contribute
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and infection trials. The knowledge should contribute to enhance our understanding of these interactions which can inform the development of new and effective treatment methods against lice. Various
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communication pathways in cell biology - the “self-eating” process of autophagy. Autophagy protects us from infections, cancer and neurodegerative diseases and has been shown to promote longevity in model
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Atlantic salmon with collaborators from NMBU. Key aspects of the project will involve the characterization of NELO’s immune functions using infection models and Nanotechnologies, including mRNA vaccine
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infections in salmonid fish that can cause serious infectious diseases. The infections are problematic to treat by using antibiotics and there is a challenge in developing prophylactic measures. The project
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at the Department of Physics and Technology. The main objective of OH-AMR-Diag is to develop a proof-of-concept diagnostic system for rapid, accurate, sensitive, and on-site detection of bacterial infection, pathogen
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, sensitive, and on-site detection of bacterial infection, pathogen ID, characterization of its resistance profile and prediction of antibiotic susceptibility from a one-health perspective. The project
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from infections, cancer and neurodegerative diseases and has been shown to promote longevity in model organisms. The PhD work will involve theoretical and computational modelling, in collaboration with
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computational and immunological problem. Improving computational methods for antibody recognition is crucial for the development of personalized and precision medicine approaches such as next-generation infection