Iron Metabolism and Chelation Program
Lab head: Des Richardson
Location: D06 - Blackburn Building
Iron is essential for life and growth. While it is well known that iron deficiency can lead to anaemia it is generally not appreciated that iron is critical for the growth of all cells, particularly cancer cells. The Iron Metabolism and Chelation Program is concerned with understanding the basic processes of how tumour cells utilise and transport iron. This knowledge will lead to the development of therapies that can selectively starve tumour cells of iron and inhibit their growth. In addition, we are studying the mechanisms involved in iron loading in the inherited diseases I2-thalassaemia and Friedreich's ataxia.
Lab members: Head: D Richardson; RFellows: D Kalinowski, D Lovejoy, Y Suryo Rahmanto, D Zhang, D Zhang; PFellows: C Austin, K Dixon, P Jansson, Z Kovacevic, D Lane, K Loh, M Lok, P Quach, V Richardson, Y Yu; RAssistant: S Bal, S Chikhani, M Huang, E Lim, P Obeidy, N Pantarat, F Saletta, D Sharp.
Funding: ARC, NHMRC, CINSW
The Role of Iron in the Pathogenesis of the Crippling Neurodegenerative Disease, Friedreich's Ataxia
Primary supervisor: Des Richardson
This project will use a combination of techniques that are used in biochemistry, physiology, pharmacology and molecular biology. Your project will be multi-faceted and will involve growing cells in tissue culture and the use of a unique knockout mouse model. A wide variety of techniques will be used including Western analysis, RT-PCR and microarray analysis. The lab has considerable experience in these cutting-edge techniques and you will be taught the intricacies of their use.
Feel free to contact Prof. Des Richardson or Dr. Michael Huang (email@example.com) to have a chat about whether the project matches your interests.
Co-supervisors: Michael Huang, Yohan Suryo Rahmanto
Keywords: Iron Metabolism, Neurodegeneration, Cardiovascular diseases