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future generations. The Department comprises more than 25 research groups, working at every level of biological organization from genes to ecosystems. We are keen to increase diversity in our academic
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to an exciting new effort to accelerate and miniaturise micro-elasticity imaging systems for in-vivo and clinical applications. You will be part of a dynamic, interdisciplinary team aiming
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. This group uses state-of-the-art Earth observation data and advanced computer techniques to study the Polar regions. We specialise in using Synthetic Aperture Radar (SAR) and altimetry satellite data
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is one of the top 80 universities in the world. We have a truly global community, with more than 39,000 students from 170 different countries and over 9,000 staff of 100 different nationalities
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studies, and sustainable development. With over 18,000 students and a strong international community, CZU is a dynamic and modem institution committed to excellence in research, innovation, and education
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essential for the development of targeted therapeutics. Using interdisciplinary approaches, we have identified and characterised atypical E3 ligases such as MYCBP2 and RNF213. MYCBP2 is a key regulator of
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work with the Cambridge-GSK Translational Immunology Collaboration (https://www.med.cam.ac.uk/cg-tic ). This is a new interdisciplinary partnership between the University of Cambridge and GSK, bringing
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molecular and structural mechanisms is essential for therapeutic development. Using E3 activity-based chemical probes, we have substantially expanded the known landscape of E3 ligase subtypes—effectively
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, driven by a passion for advancing knowledge and making a meaningful contribution to the field of Childhood Studies. With a collaborative mindset, you thrive in a dynamic, interdisciplinary environment
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seeking a collaborative team player who thrives in a high-pressure, dynamic environment and is passionate about media production and education. If you're adaptable, technically skilled, and eager to inspire