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PhD studentship: Defining the role of the pioneer factor FOXA1 in hormone-dependent cancer Supervisor: Professor Jason Carroll Course start date: 1st October 2026 Project details For further
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dynamics and tissue morphogenesis during embryo development using cellular, molecular and mechanical approaches. Cell movements underlie tissue patterns and shapes. Using chick embryos as the model system
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Cambridge Institute (CRUK CI), to investigate the molecular mechanisms of small RNA-mediated chromatin silencing. As a whole, the Hannon laboratory has broad interests that range from discovery research
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of cancer, namely adenocarcinoma, which was driven by a transcriptional pathway that involves Androgen Receptor (AR) and a pioneer factor called FOXA1 that helps tether AR to the chromatin. Recent new
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Targeting Cardiometabolic Dysfunction in Heart Failure with Preserved Ejection Fraction (HFpEF): Mechanisms of Exercise-Induced Protection Overview Applications are invited for a fully funded 4-year
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details Our lab exploits both chemistry and biology to address fundamental mechanisms of genome function. While many genetic determinants of cancer are known, alternative nucleic acid secondary structures
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for matching novel protein targets with their optimal expression conditions. Altogether, this project will provide new insights into the mechanisms limiting expression of challenging proteins and how
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studies of a shortlist of identified targets. These studies may uncover mechanisms of cellular responses, potential biomarkers and additional therapeutic vulnerabilities that underlie the responses
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earlier as well as understand the mechanisms driving CIN. This project will aim to build upon previous work within the group developing computational methodologies to detect and deconvolute the mutational
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, Su J, Eldridge MD, Riedel A, Serrao E, Rodewald HR, Mack M, Shields J, Cohen ES, McKenzie ANJ, Goodwin RJA, Brindle K, Marioni JC, Halim TY. (2020) ILC2-driven innate immune checkpoint mechanism