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How the red blood cell loses its nucleus. This project aims to provide insights into erythroid enucleation, the process by which red blood cells extrude their nucleus so that they can circulate through the microvasculature. Although the enucleated character of mammalian red blood cells has been known for more than 150 years, the mechanism underlying this process is virtually unknown. This project will use a live imaging approach to characterise in vivo the cellular interactions and molecular pat ....How the red blood cell loses its nucleus. This project aims to provide insights into erythroid enucleation, the process by which red blood cells extrude their nucleus so that they can circulate through the microvasculature. Although the enucleated character of mammalian red blood cells has been known for more than 150 years, the mechanism underlying this process is virtually unknown. This project will use a live imaging approach to characterise in vivo the cellular interactions and molecular pathways required for enucleation. The project will provide a molecular and cellular road map of enucleation that may be utilised to enhance the bulk therapeutic in vitro production of red blood cells for veterinary and human purposes.Read moreRead less
Advancing the visualisation and quantification of nephrons with MRI. . This project aims to characterise key components of nephrons, the glomeruli and tubules, using magnetic resonance imaging without contrast agents, in combination with Deep Learning and super-resolution techniques. Nephrons, the basic functional unit of the kidney, are critical to the maintenance of the body’s homeostasis. Their number and architecture are critical determinants of kidney function. The expected outcomes are inn ....Advancing the visualisation and quantification of nephrons with MRI. . This project aims to characterise key components of nephrons, the glomeruli and tubules, using magnetic resonance imaging without contrast agents, in combination with Deep Learning and super-resolution techniques. Nephrons, the basic functional unit of the kidney, are critical to the maintenance of the body’s homeostasis. Their number and architecture are critical determinants of kidney function. The expected outcomes are innovative semi-automated nephron visualisation and quantitation tools that enable efficient renal phenotyping. Techniques tailored to widely accessible preclinical research scanners are expected to accelerate research into genetic and environmental factors affecting kidney microstructure in embryonic and post-natal life.Read moreRead less