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the lab. This work will explore the molecular mechanisms of DNA damage responses and mutagenesis, and how sensitivity and resistance arise in different cancer cells and genetic backgrounds in response
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"Coupled Magnetic Hybrids for Advanced Quantum Technologies", a collaboration with the City University of Hong Kong (CUHK). The aim of the role is to explore how nanomagnetic elements in proximity structures
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the cellular and molecular mechanisms driving tumour development. In this role, you will support a team of scientists using genetically engineered mouse models (GEMMs) and transplantable tumour models (e.g
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Are you excited by the mechanisms of neurotransmission and behaviour and looking for a new opportunity? We are looking for an enthusiastic, inquisitive and motivated post-doctoral researcher to join
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collaborative and internationally renowned research environment. The successful candidate will play a key role in advancing cutting-edge research focused on understanding the physiological mechanisms underlying
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mechanisms of DNA damage responses and how sensitivity and resistance arise in different cancer cells and genetic backgrounds in response to ionising radiation and clinically relevant drugs. The postholder
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neuroscience and plasticity questions, and is imbedded in the wider Cambridge neuroscience environment. The key ingredient is to be passionate about the questions of the lab, to be independent, and a background