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models using induced pluripotent stem cell (iPSC)-derived kidney organoids. A key aspect of this work will involve integrating bioprinting and organ-on-chip technologies to create mature and
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of RNA therapeutics for the brain. The successful candidate will work at the interface of molecular biology, cell models of the blood–brain barrier, and advanced human in vitro systems such as induced
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investigates fundamental mechanisms regulating heart development and disease, with particular emphasis on how heart rhythm is established at the cellular and molecular levels. We use state-of-the-art model
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dimension of plant immunity, which has remained mostly unexplored to date, is the fascinating topic of this GreenTE position. The textbook model postulates that plant receptors recognize pathogen-derived
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, and process modelling. The position is available immediately, with a start date as soon as possible. Where to apply Website https://www.academictransfer.com/en/jobs/357300/postdoc-position-in-microbial
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H5N1 influenza A viruses adapt to mammalian hosts. In this postdoc project, you will dissect HA–NA functionalities, study viral evolution across species, and help reveal the molecular basis of host jumps
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fundamental mechanisms regulating heart development and disease, with particular emphasis on how heart rhythm is established at the cellular and molecular levels. We use state-of-the-art model systems including
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data in the context of multigenerational families. · (Co-)developing predictive models based on very large registry, medical, social/environmental, and molecular data, aimed at predicting health
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opportunity for you. HYDRA-EO focuses on the multi-scale detection of biotic and abiotic stress in Mediterranean crops using UAV hyperspectral and thermal imagery, radiative transfer modelling, agronomic field
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of functional glycans in situ and development of advanced infection model systems to study the role of functional receptors. These models will include (genetically engineered) stem cell-derived 2D and 3D