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contribute to sustainable solutions to some of the world’s biggest problems within the areas of soil, plants, animals, humans, and the environment. We want to make a difference by contributing to both
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the areas of soil, plants, animals, humans, and the environment. We want to make a difference by contributing to both fundamental knowledge generation and the attainment of sustainable production systems via
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resources. We offer an international and multi-disciplinary environment with strong expertise in the proposed research fields. The group consists of approximately 17 members at different levels of seniority
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different physico-chemical environments to drive self-organisation processes, like condensates, that shape mesoscale structures enabling tissue function. As a Postdoctoral Researcher at the Rosalind Franklin
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disease into specific subclasses. You will develop AI algorithms to train models that predict if individuals (from which we create circuits) are prone to develop disease and to identify conditions that have
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shapes (shovel, spade, keel, and round), thought to be adapted to different burrowing strategies. To study the skeletal adaptation, we will examine the chemical composition and nanostructure of skull
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duties will be the following: Manipulate and culture different types of primary and stem cells (including induced pluripotent stem cells) and tissue constructs, particularly at the genetic level, and
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courage to contribute both to the development and application of new methods to investigate the dynamics and consequences of hypoxia in vivo in the context of different pathologies Excellent oral and
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antibacterial substances. The selected proteins are represented by bacteria from different phyla, such as proteobacteria and bacteroidetes. The present study will be performed using a blend of X-ray
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: advancing science to make a difference in patients’ life. Humanitas research is guided by unmet clinical needs and it leverages high-end technologies to dissect the molecular and cellular mechanisms