Parasitology
Parasites can infect humans, animals and plants causing severe problems such as Malaria and reduced crop production.

About

A website for Orientation week.

Groups

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Behm Group - Nematode molecular biology

We use powerful biological resources provided by C. elegans to study aspects of nematode biochemistry, molecular biology and behaviour, and control methods.

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A digital molecular model showing a complex protein embedded within a cellular membrane, surrounded by blue and red molecules, with chemical structures displayed below.

Brock Group - Membrane Structural & Synthetic Biology

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!

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Kiaran Kirk

Kirk Group - Membrane transport in parasites

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Lehane Group - Antimalarial drug action and resistance

We study membrane transport processes in the Plasmodium parasites that cause malaria.

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Maier group

Maier Group - Molecular mechanisms of malaria pathogenesis

The Maier Group focusses on the identification of molecules involved in malaria pathogenesis and transmission.

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Fluorescent microscopy image showing a red-stained filamentous structure with a detailed blue-highlighted component at the top, all set against a dark background.

Mathesius Group - Root microbe interactions - symbionts to parasites

We are interested in the molecular mechanisms controlling nodule development in legumes, and how this is linked to other aspects of root architecture.

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Logo for ANU Bee Lab featuring a stylized bee above the letters "ANU" with "BEE LAB" in a yellow rectangle.

Mikheyev Group - Evolutionary genomics

Our research actually spans may study systems and research questions. But the evolution of honey bee parasites and diseases and is a major focus.

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A close-up of a mosquito feeding on human skin, with a droplet of blood visible.

Saliba Group - Physiology and biochemistry of the malaria parasite

The Saliba Group is investigating vitamin utilisation pathways in the red blood cell stage of the human malaria parasite Plasmodium falciparum.

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van Dooren Group - Cell biology and metabolism of apicomplexan parasites

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.

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Projects

Transport mechanisms and drug resistance in malaria transporters

Understanding the basic function of membrane transporter in malaria and how they are targeted by drugs

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Student intake

Open for Honours, Master, PhD students

People

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Vitamin utilisation by malaria parasites

The malaria parasite has been shown to require an extracellular supply of several nutrients in order to survive during its intraerythrocytic stage.

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Student intake

Open for Bachelor, Honours, PhD students

People

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News

Professor Kiaran Kirk elected Fellow of the Academy of Health and Medical Sciences

The Research School of Biology (RSB) welcomes the election of Professor Kiaran Kirk as a Fellow to the Australian Academy of Health and Medical Sciences.

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Characterising a new drug target in the malaria parasite

Although significant advances in malaria control have been made in the past few decades, resistance to our current antimalarial drug repertoire threatens control efforts.

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Five new Future Fellows, and a NHMRC Early Career Fellow at RSB

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New international graduate school crosses boundaries in malaria research

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ANU scientists exploit malaria's Achilles' heel

One of the malaria parasite's best weapons against drug treatments turns out to be an Achilles' heel, which could be exploited to cure the deadly disease.

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Beating malaria: All guns to bear

Groups of scientists across ANU are teaming up to fight one of the world's most deadly diseases.

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