155 molecular-modeling-or-molecular-dynamic-simulation positions at University of Cambridge
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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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fundamental research aimed at investigating the mechanisms responsible for cell fate specification and differentiation during petal development using Hibiscus trionum as a model system. The post holder will
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with both novel mouse models and human breastmilk samples to uncover the molecular mechanisms underpinning maternal-infant health. Strong hands-on experience with molecular techniques is essential
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Applications are invited to join a dynamic team led by Dr Richard Tyser at the Cambridge Stem Cell Institute, working to understand how the mammalian heart develops. This project is funded by
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project will delve into the molecular details of this regulatory system, its physiological roles, and its conservation across bacterial species. For more information please see here : https
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, BRCA2, and PALB2. Through advanced single cell genomics, in vivo modelling, and immune profiling, the team will study early molecular and cellular changes that occur in high-risk breast tissue. The team
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hundreds of samples from multiple independent marine transmissible cancer clones. The role provides an exciting opportunity to combine single-cell cancer genomics with molecular cytogenetics and statistical
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, and 2) to develop a physical model of cell shape dynamics during EMT. You should hold a PhD (or about to be awarded a PhD) in Biophysics or a related field and have extensive experience with cell and
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. This position offers an excellent opportunity for a graduate in Biochemistry or Molecular Biology who is keen to gain hands-on experience in advanced molecular and biophysical techniques, with a particular focus
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molecular biology to understand molecular mechanisms of immunity and immune suppression in cancer and inflammation. This research aims to uncover novel molecular and cellular mechanisms of tumour immunity and