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and research across chemistry, biochemistry, molecular biology and genetics, with a strong focus on interdisciplinary, translational impact. Research and teaching span areas including chemical and
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we’ll help you get the best start to your academic career at one of Australia’s leading universities! The Wainwright laboratory focuses on using genomic, genetic and cell biology approaches to understand
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you get the best start to your academic career at one of Australia’s leading universities! The Wainwright laboratory focuses on using genomic, genetic and cell biology approaches to understand
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Professor Philip K. Ahring. This project focuses on investigating how genetic variants in voltage-gated sodium channels contribute to epilepsy. The research aims to elucidate the functional impact of
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our research discoveries have improved the genetic resistance of wheat, barley, canola and pulses providing enduring solutions for growers dealing with disease epidemics. The centre also brings together
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: electrophysiology, secretion experiments, small animal surgery, in vivo animal work, mouse behavioural analysis, molecular genetics, use or maintenance of transgenic mouse colonies, microscopy, immunohistochemistry
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brain state, maintain barrier integrity, and contribute to neurological disease, including brain cancer and stroke. The lab integrates advanced imaging, omics approaches, mouse genetics and flow cytometry
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for its pioneering work on Vibrio natriegens, including the development of advanced genetic toolkits, high-throughput engineering platforms, and systems-level optimisation strategies. The group works at
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, you’ll lead research into the genetic drivers of Bt resistance in Helicoverpa spp., developing new tools and frameworks to understand pest population dynamics across farming landscapes. As part of our
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in metabolic engineering, synthetic biology, microbial biotechnology, biochemical engineering, or a closely related field. Demonstrated expertise in bacterial genetic engineering (ideally Pseudomonas