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molecular level. You’ll achieve this using a new, unique facility at the John Innes Centre to study physiology, development and gene expression in simulated future climates. By joining us for a PhD, you’ll
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-funded 4-year PhD research project supported by the UKRI Medical Research Council in microbiology and microbial bioinformatics. Our unique and comprehensive training programme empowers students to feel
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requirement is 2:1 (Hons) in Chemistry, Biological Sciences, Biochemistry, Synthetic Biology. Start date October 2024 Mode of study Full-time This PhD studentship is funded for 4years and funded by Big C Cancer
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. The project will provide a detailed understanding of their cellular modes of action and which factors impact entry into the bacterial cell. This PhD project is highly interdisciplinary and will involve training
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the immune system and colonises to cause invasive disease. This PhD will develop a new understanding of how streptococci resist intoxication by metals, a major antimicrobial effector of the human innate immune
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these clusters, using both native and heterologous expression systems. Environment Our lab is focussed on applying structural biology methods to understand the molecular basis of how bacteria interact with
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potentially reduce future biological N2O emissions, allowing recovery of the ozone layer and help reduce global climate change while continuing to feed expanding global populations. This PhD project will
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-of-the-art techniques in cell biology, genetics, molecular biology and proteomic, this project aims at characterizing a novel signalling pathway modulating root nodule symbiosis. The insights gained from
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these processes. To do this, the PhD student will learn in vivo techniques including animal handling, as well as isolation of samples from humans. The student will receive training in cellular biology methodologies
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PhD Studentship: The Role of the Extracellular Matrix in Cardiomyocyte Developmental (SMITH_U24DTP1)
. Training will be provided in the areas of stem cell biology, cardiac biology, differentiation, advanced flow cytometry, single cell sorting, RT-qPCR, and CRISPR/Cas9-based genome editing. As