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the theme of Healthy Living, this project aims to understand how biologically active molecules, specifically venom-derived peptides targeting pain pathways, interact with cell membranes and therapeutically
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behaviour of protein solutions under varied conditions of both temperature and pressure and aims to observe the effect of these conditions upon physical attributes which are linked to natural function
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of protein quality control and stress signaling. Specifically, the project focuses on elucidating how cells ensure the faithful production of one of the most well-expressed cellular proteins, the translation
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research pushes the boundaries of protein- and DNA-focused biomolecular and bioinformatics research and engineering technologies. CMB educates and trains the next generation of medical biotechnology
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normal horses will be subjected to detailed characterisation of their protein “fingerprint.” Advanced statistical methods will be used to identify proteins that might be diagnostically useful
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compartments and ribozymes. The project: RNA and positively charged peptides cluster together to form coacervate droplets, which support internal reactions involving RNA and ribozymes. Coacervate compartments
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. Therefore, the overall goal of this project is to establish the molecular mechanisms underlying cell surface protein glycosylation driven cell-matrix adhesions and its impact on mechanobiology and melanoma
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and alkaloids, employing emerging concepts in photo- and electro-chemistry. The project is in close collaboration with other group members including protein biochemists and cell biologists
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unravel the molecular links between protein aggregation, nutrition/lifestyle, and the onset and progression of cognitive ageing and neurodegenerative disease in older adults. These methods will be applied