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Field
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The burgeoning field of synthetic biology offers promising avenues for engineering artificial cells with tailored functionalities for diverse biomedical applications. This PhD project aims
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human induced pluripotent stem cells. The successful candidate will be trained in relevant methods and procedures, including cell culture, cardiac electrophysiology, molecular biology/protein isolation
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the electrophysiology of our nerves and muscles, wound healing, organ development, and cancer.You'll be developing a bioelectronics platform and working with cancer biology specialists to investigate
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antimicrobial coatings. To undertake this research, we are seeking a highly motivated candidate with established hands-on experience in materials, nanotechnology, chemistry, or biology.
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the urgent need for deeper insights into GIST biology. Single cell RNA sequencing studies have identified immune cells present within the GIST tumour microenvironment (TME) that vary between KIT/PDGFRA mutant
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based on the UKRI rate (£19,237 for 2024/25). This project intends to leverage the power of engineering biology / synthetic biology to contribute innovative solutions for climate change mitigation
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on the structural biology, microbiology, and infection of an important antimicrobial-resistant superbug – C. difficile. This unique opportunity allows you to work with leading experts in the UK and Australia
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Award Summary 100% Home fees covered, and a minimum tax-free annual living allowance of £19,237 (2024/25 UKRI rate) Overview This PhD project intends to leverage the power of engineering biology to
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Funding providers: Swansea University Subject areas: Immunology, Metabolism, Cell biology, Kidney Disease Project start date: 1 July 2024 (Enrolment open from mid-June) Project description
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PhD studentship in the Groups “Numerical Analysis and Scientific Computing” and “Mathematics Applied to Biology” at the University of Sussex (UK). PhD project Statistical inference has proved to be