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activity. These losses can occur through sweating, red blood cell haemolysis from repetitive foot strike and/or blood vessel compression during exercise, inflammatory/iron regulation hormone (hepcidin
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supportive and friendly team, you will learn how to design and perform experiments that interrogate the molecular and cellular mechanisms regulated by ADAM15 and ADAM12 in glioma, employing cellular
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the Department of Infectious Disease at the Hammersmith Hospital Campus, working in a supportive research lab. Your role will involve hands-on lab work using a range of techniques in immunology, cell biology
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sequencing, bulk and single-cell RNA-seq. These methodologies will be refined and later applied to Welsh genomic resources (SAIL/AWMGS) to identify patient subgroups, uncover disease-driving mechanisms, and
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and NMC electrodes using thin-film coating techniques, with a focus on solvent compatibility, film uniformity and adhesion. Separator-Free Cell Development – Assemble lab-scale coin cells using PIM
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and commissioning bespoke X-ray spectroscopy reactor cell, which will be used to characterise alkali catalysts under reaction conditions. You will have the opportunity to share your results within
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to modulate pathological cell behaviour in vitro, with potential for progression to in vivo testing in a rodent model of glaucoma. Candidate Profile Applicants should hold (or expect to obtain) a 1st or 2:1
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PhD Studentship: Dissecting the Molecular Architecture and Function of LMTK3 as a Therapeutic Target
; University of Sussex | The City of Brighton and Hove, England | United Kingdom | about 1 month agomechanisms underpinning LMTK3's multifaceted role in cancer biology. By employing a multidisciplinary approach combining structural biology, biochemistry, and cell biology, this research aims to provide novel
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properties using advanced testing techniques. The materials will be evaluated using in vitro cell culture and will be tested for biofilm prevention, aiming to improve wound closure, device safety, and
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and synthesis of new materials. For the DED-LB additive manufacturing, the lab has a house-developed Laser-Kuka cell with a 16kW IPG laser and wire/powder feeding systems. The lead supervisor, Dr Yuze