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months. The project involves developing and applying a novel integrated platform to study the chemical molecular mechanisms and signalling consequences of reactive small-molecule metabolites in organ
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gene-silencing and gene-editing technologies targeting the underlying causes of genetic heart diseases. The successful candidate will work closely with chemists, molecular biologists, and clinicians
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humanised mouse models with the same mutations as patients, all of which are currently available in the laboratory. Minimum qualifications are PhD and/or MD with expertise in molecular and cellular biology
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) are interested in molecular organisation of cell interfaces in the epithelial tissue and glycobiology. We use super-resolution STED microscopy, CryoET, in combination with biophysics and chemical biology, to
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We are looking for an enthusiastic and highly motivated Postdoctoral Researcher to join our dynamic research team in the exciting, interdisciplinary field of plasma catalysis. This is a unique
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of human infections. Our research bridges our strengths in laboratory-based enquiry using molecular genetics, metagenomics, biochemistry, cell biology, bioinformatics and structural biology, with rich
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have recently highlighted the importance of the FAT1 gene during carcinogenesis (Lu et al, Nature Cell Biology 2025; Lu and Kanu, Nature Cell Biology 2025). We strive to understand the molecular
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amino acids and growth factors. You will hold a PhD/D.Phil. or be near completion* in microbiology, molecular biology, cell biology or closely related area together with relevant experience and have
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students to understand the pathogenic mechanisms, diagnosis and treatment of human infections. Our research bridges our strengths in laboratory-based enquiry using molecular genetics, metagenomics
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archaeal genomes, characterizing core and accessory gene dynamics across diverse phylogenetic scales. A key focus will be developing transformer models to capture patterns of prokaryotic evolution, including