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in the development of diagnostic technologies for viral, bacterial and fungal diseases. Functional knowledge of molecular techniques such as: PCR; real-time PCR; PCR primer/probe design and DNA
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with Dr Matthias Fellner in the Department of Biochemistry. This research project aims to develop new antibiotic compounds for the bacterial pathogen Klebsiella pneumoniae. As part of a large
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in metabolic engineering, synthetic biology, microbial biotechnology, biochemical engineering, or a closely related field. Demonstrated expertise in bacterial genetic engineering (ideally Pseudomonas
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of bacteriophages for the treatment of pathogenic bacterial infections is currently recognised as urgently desired by clinicians for tackling antimicrobial resistance (AMR). Bacteriophages can help minimising
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, or a related field). Preferred skills: Favorable research experiences may include those involving: fungal, bacterial or viral plant pathogens, microbial community characterization, plant tissue culture
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used to design precise delivery systems for cytostatics. The approach will also be used to design a lipid nanoparticle-based antibiotic delivery system to bacterial membranes. The candidate is expected
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malignant cells. These data will be used to design precise delivery systems for cytostatics. The approach will also be used to design a lipid nanoparticle-based antibiotic delivery system to bacterial
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Biology Core Facility at Blindern, Oslo. Job description The project focuses on biochemical and structural biology aspects of a protein redox network that is important for bacterial defense and survival e.g
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Project title: “Novel drivers of antibiotic resistance in oral streptococci” Oral streptococci are among the most predominant and influential bacterial species inhabiting the oral environment
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(I) Cavitands for Catalytic Small-Molecule Activation SF 2026-06 EP Prof. Emilio Palomares: Materials for Energy SF 2026-07 BP Prof. Beatriz Prieto: Multi-functional sensors to monitor bacterial