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these influence immune function and disease. The project combines biochemistry, molecular and cellular biology, and in vivo models to deliver a comprehensive picture of immuno-metabolic function during inflammation
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the opportunity to work at the forefront of cardio-oncology science, combining sophisticated small animal radiation models, single-cell transcriptomics and state-of-the-art echocardiography. The successful
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the opportunity to work at the forefront of cardio-oncology science, combining sophisticated small animal radiation models, single-cell transcriptomics and state-of-the-art echocardiography. The successful
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pathogens. The successful candidate will make extensive use of a range of in vivo models of fungal infection and will have access to the wide range of transgenic tools and in vivo immunology techniques
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of photochemistry. Experience of molecular photoelectron spectroscopy. Basic programming skills for data analysis modeling. As a founding signatory of the Athena SWAN charter, and holder of a silver award, we’re
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basis. The successful applicant will investigate the structure, dynamics, and mechanism of the bacterial Type IV pilus (T4P) machinery in the model organism Thermus thermophilus. The project will employ a
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of photochemistry. Experience of molecular photoelectron spectroscopy. Basic programming skills for data analysis modeling. As a founding signatory of the Athena SWAN charter, and holder of a silver award, we’re
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area. Preferred Knowledge, Skills, and Abilities: Experience in the field of photochemistry. Experience of molecular photoelectron spectroscopy. Basic programming skills for data analysis modeling. As a
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research aims to unpick the cellular and molecular mechanisms responsible for uncontrolled bleeding following a traumatic injury. You will join the laboratory of Dr Gael Morrow within the School of Pharmacy
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pathogens. The successful candidate will make extensive use of a range of in vivo models of fungal infection and will have access to the wide range of transgenic tools and in vivo immunology techniques