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Developing nanoscale analysis techniques for microscopy

This project is a nexus of materials engineering, microscopy and scientific computing. Using advanced microscopy techniques, you will delve into the rich nanostructures and atomic-s more...

Supervisor(s): Ceguerra, Anna (Dr)

Investigating the role of a novel RNA binding protein in telomerase activity

We have identified a role for a novel RNA binding protein in telomerase biogenesis and recruitment to telomeres. We aim to investigate how this protein functions in this context usi more...

Supervisor(s): Pickett, Hilda (Associate Professor)

Understanding how leaves develop

Plants utilize "boundaries" of genes expression to help decide where to position and how to shape leaves. This project will investigate how these boundaries control plant developmen more...

Supervisor(s): Heisler, Marcus (Associate Professor)

Telomere deprotection and cancer

Genome stability in human cells is maintained through the coordinated functions of the DNA damage response. We study these processes with particular interest in the pathways that re more...

Supervisor(s): Cesare, Tony (Dr)

The DNA replication stress response

Genome integrity in human cells is maintained through the coordinated functions of the DNA damage response. We study these processes with particular interest in the pathways that re more...

Supervisor(s): Cesare, Tony (Dr)

Heart Failure, Oxygen and HIF

This project will investigate the physiological and metabolic changes seen in the heart in models of obstructive sleep apnoea. more...

Supervisor(s): Cook, Kristina (Dr), Farnham, Melissa (Dr)

Evolution of vertebrate pregnancy

Our lab, within the School of Life and Environmental Sciences, focuses on understanding the evolution of viviparity, placentae, and reproductive complexity, using a variety of model more...

Supervisor(s): Whittington, Camilla (Dr), Thompson, Michael B. (Emeritus Professor)

HUMAN MINIBRAINS GROWN FROM STEM CELLS

This project will involve CRISPR genome editing strategies combined with human stem cell derived mini-brains to investigate new neuronal factors that control development, cognitive more...

Supervisor(s): Neely, Greg (Professor)

Pharmacological targeting of sphingosine 1-phosphate receptors to promote remyelination in Alzheimer’s disease and multiple sclerosis

In this project you will investigate a new molecular pathway that is required for normal myelin formation, and the therapeutic potential of targeting this pathway to promote remyeli more...

Supervisor(s): Don, Anthony (Associate Professor)

Using Gene editing to cure genetic neurological disorders

This project is an opportunity for a PhD student who is interested in genetic disorders of the brain and who is prepared to work at the cutting edge of technology. Genetic neurologi more...

Supervisor(s): Gold, Wendy (Dr)