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Mouse models of liver cancer

This project will use mouse models to investigate the role of adiponectin and T-cadherin in models of liver cancer. more...

Supervisor(s): Hebbard, Lionel (Dr), Qiao, Liang (Dr)

Stem Cells in Liver Disease

The role of stem cells in progressive liver injury. more...

Supervisor(s): Shackel, Nicholas (Dr)

The Role of Extracellular Matrix Metalloprotease Inducer (EMMPRIN) in Liver Disease

The role of the hepatocyte in progressive liver injury. more...

Supervisor(s): Shackel, Nicholas (Dr)

The Role of PPAR gamma in thyroid cancer

Differentiation therapy for thyroid cancer by targeting the fusion gene PAX8-PPARgamma. more...

Supervisor(s): Clifton-Bligh, Roderick (Dr)

Prostate cancer metabolism – investigating the role of lipid metabolism and the microenvironment

This project aims to investigate potential interaction the different cell types near the prostate gland and how changes in androgen signalling alters this relationship. It also aims more...

Supervisor(s): Hoy, Andrew (Dr)

Adiponectin and its role in wound healing

This project will use mouse models to investigate the role of adiponectin and its receptors in liver fibrosis. more...

Supervisor(s): Hebbard, Lionel (Dr)

Biology of Dipeptidyl Peptidase IV and related proteins

Research projects centre on mouse models of liver disease and obesity and on the delineation of inhibitors, substrates, biochemistry and in vivo expression and function of the Dipep more...

Supervisor(s): Gorrell, Mark (Associate Professor)

Role of Vitamin D and other compounds in protection of skin cells from UV

This study examines how vitamin D compounds protect skin from sun or UV-induced DNA and other damage. more...

Supervisor(s): Mason, Rebecca (Professor)

Structure-based drug design with Soluble Epoxide Hydrolase

Soluble Epoxide Hydrolase (sEH), and more importantly its inhibition, may form the basis of a number of therapies due to anti-inflammatory more...

Supervisor(s): Church, W Bret (Dr)

Amino acid sensing mechanisms in human biology.

Amino acid sensing mechanisms determine how dietary protein regulates appetite and satiety, how feeding influences endocrine responses and how nutrition can direct cell fate in brea more...

Supervisor(s): Conigrave, Arthur (Professor)