We use powerful biological resources provided by C. elegans to study aspects of nematode biochemistry, molecular biology and behaviour, and control methods.
The Brock lab loves membrane proteins; looking at them in atomic detail, discovering new drug molecules, and engineering them to create new biosensors. Join us!
We study the basic biology of parasites, with the hope that such knowledge can be used in developing new treatment options against these formidable foes.
Plant pathogens grow in the extracellular spaces of plant issues. Many fungal and oomycete pathogens, including stripe rust, form specialized feeding structures known as haustoria that penetrate host cell walls. Project: Characterising the genomes of wheat stripe rust. Project: Protein function in plant immunity
Advances in malaria research are hindered by the limited inventory of available molecular tools. Culturing and genetic manipulation are quite demanding and cumbersome in comparison to other organisms. Major discoveries very often go hand in hand with the application and development of new techniques. We strive to make a contribution to the repertoire of available techniques.
The future of parasite research in Australia will be in safe hands as 16 young Australian scientists converged for an intensive 2-week workshop with world-leading biologists to study worms, protozoans, ticks, fleas, lice and more.
Scientists have released details of a raft of new chemicals with potent anti-malarial properties which could open the way to new drugs to fight the disease.
An anti-malarial treatment that lost its status as the leading weapon against the deadly disease could be given a new lease of life, with new research indicating it simply needs to be administered differently.