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competency. This project has been conceived by the interdisciplinary collaboration of the Lin and Bagnaninchi labs. The Lin lab has generated a new Cabin1 infertile mouse line. Mutant oocytes show
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structures, demonstrating the ability to engineer the membrane shape. They will test the effect of using their structures in selected devices. The student will be trained in wet lab techniques and advanced
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.). Data from our lab has identified some overlapping changes induced by acute hypoxia exposure in young mice, with these ageing changes, including a skewing towards myelopoiesis and a reduction of
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expression and responsiveness. Training provided will cover a breadth of wet lab research techniques including: in vivo research and experimental design; immunological profiling including flow cytometry
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to work at the NQCC to apply their research within the national labs framework. This position is part of an annual NQCC cohort of 6 collaborative studentships, in which the projects have been co-developed
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labs framework. This studentship will include cohort-based training and activities, enabling students to gain wider skills and develop valuable personal and professional networks. Project Description
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dominant source of errors (Agarwal et al., Quant. Sci. Technol. 2024), so that for any verification approach to be useful it needs to go beyond widely employed Markovianity assumptions. This work, directly