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plant stem cell niches. We are seeking a candidate to study molecular mechanisms involved in how plants sense and respond to environmental signals. We are particularly interested in using hypoxia as a
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available for reasonable fieldwork expenses. Support and Research Environment Successful candidates will join a supportive and collaborative ERC-funded research environment. You will receive close
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econometric and machine learning frameworks to analyse the causal relationships between transport behaviour, residential energy consumption, and environmental outcomes in urban systems. The successful candidate
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, imagining. And through being nature positive we connect not just with the environment but with our ambitions for a sustainable future. At Trinity, we are committed to equality, diversity, and inclusion
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will join a vibrant, multidisciplinary research environment with an internationally collaborative network for translational immunology research. The PhD research projects will focus on dissecting
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ambitious, inquisitive and innovative individuals to join our multidisciplinary research team. As part of a dynamic and collaborative environment, you will contribute to breakthrough work that supports
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modification, synthetic chemistry, biochemical analysis and proteomics techniques. Research environment: You will work in a supportive interdisciplinary group in the Department of Chemistry. Our laboratory is
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must, and will never stop, imagining. And through being nature positive we connect not just with the environment but with our ambitions for a sustainable future. At Trinity, we are committed to equality
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being nature positive we connect not just with the environment but with our ambitions for a sustainable future. At Trinity, we are committed to equality, diversity, and inclusion. We welcome applications
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-immunomodulatory materials that would target the early immune environment, providing an innovative alternative path to treatment. PhD1 will aim to decipher the mechanisms of Mφ mechanotransduction with a particular