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Postdoctoral Research Associate in Molecular Mechanisms of DNA Interstrand Crosslink Repair Department of Biochemistry Pay Scale: STANDARD GRADE 7 Salary (£): £36,024-£44,263 per annum Location
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We are seeking a full-time Postdoctoral Research Assistant in Hydrogen Production Chemical Reaction Mechanisms to join Torr Vision Group at the Department of Engineering Science (central Oxford
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Pay Scale: STANDARD GRADE 7 Salary (£): £36,024 - £44,263 per annum Location: Department of Biochemistry, South Parks Road, Oxford Contract type: Fixed Term Contract for up to 3 years Hours: Full Time (37.5 hours per week) About the role We are seeking to appoint a Postdoctoral Research...
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About the role The Carvalho Lab is recruiting postdoctoral researchers to investigate the mechanisms of protein degradation using cell biology, biochemistry and structural biology approaches. You
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formulation within an explicit scheme to account for various strengthening and relaxation mechanisms including slip and twinning, hardening, thermal softening, and rate dependence, amongst others. As part of
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. The position is part of a newly awarded Cancer Research UK Discovery Research Programme, focused on deciphering tissue-specific mechanisms that impede the anti-tumour T cell response in colorectal cancer
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Mortimer, combines modelling and experimental approaches to understand the mechanisms underpinning how spiders use vibrations for information. About you This research assistant post is available to join the
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of Oxford. The main interest of the laboratory is to investigate the mechanisms underlying the function of non-canonical nucleic acid structures (R-loops) in health and diseases. The post-holder will manage a
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Lab to drive our research in understanding the molecular mechanisms underpinning cellular trafficking within the secretory pathway. The lab undertakes a multidisciplinary approach spanning structural
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group that the cryptochromes regulate voltage gated sodium channels in pain sensory nerves. Through better understanding of the mechanism, we aim to progress to development of drugs that can safely reduce