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Scott Beatson is an Associate Professor and NHMRC Career Development Fellow at The University of Queensland (UQ). He specializes in bacterial pathogenomics: using whole-genome sequencing to investigate transmission, pathogenesis and antibiotic resistance in bacteria. Recent work from his group includes genomic analyses of pandrug resistant enterobacteriaceae and the multidrug resistant Escherichia coli ST131 pandemic clone. He was awarded a PhD from UQ for his work in bacterial pathogenesis in 2002 and developed his career in bacterial genomics in the United Kingdom with the support of fellowships from the Royal Commission for the Exhibition of 1851 (University of Oxford) and the UK Medical Research Council (University of Birmingham). Since returning to Australia he has held fellowships from both the NHMRC and ARC and has led a successful research group in the School of Chemistry and Molecular Biosciences at UQ since 2008. He is also a member of the Australian Infectious Diseases Research Centre and the Australian Centre for Ecogenomics. In 2016 he received the Frank Fenner Award from the Australian Society for Microbiology in recognition of his contribution to microbiology research in Australia.

Gabrielle Belz originally trained in veterinary medicine and surgery and received her PhD in understanding the organisation of lymphatics and lymphoid tissues at The University of Queensland. After a short stint in Canada to work on B cells, she moved to St Jude Children’s Research Hospital to work with Peter Doherty supported by an NHMRC CJ Martin Fellowship. Here she established a number of systems that now allow tracking of virus-specific T cells and established the paradigm changing notion that CD4 T cell help was required for generating antiviral responses. She returned to The Walter and Eliza Hall Institute of Medical Research and uncovered the identity of the key dendritic cells necessary for initiating antiviral infections. Subsequently she was awarded the Burnet Prize and NHMRC Elizabeth Blackburn Fellowship. Her research contributions have been recognized by a number of awards including a Wellcome Trust Overseas Fellowship, HHMI international fellowship, ARC Future fellowship, Doctor of Veterinary Science and the Gottschalk Medal (Australian Academy of Science). Her laboratory focuses on deciphering the key cellular and transcriptional signals of protective immunity particularly by T cells and in understanding how innate immune cells develop and make novel contributions to mucosal immune defence.

Dr. Bialasiewicz worked at the Royal Children's Hospital and the Children's Health Queensland HHS for over 18 years conducting translational research and clinical support centering on infectious disease (primarily viral and bacterial) molecular diagnostics, general microbiology and molecular epidemiology. In 2019, he became a group leader at The University of Queensland's Australian Centre for Ecogenomics, expanding on a growing interest in the microbial ecology of the human body, it's role in health and disease, and ways to manipulated to achieve desirable outcomes. One Health microbial ecology, where human health is interconnected with the health of animals (both livestock and wildlife), and the broader environment is also an area of active interest. His background in virology has influenced the work he does, meaning a key focus of his microbial ecology works centres around the interactions between all types of microorgansims (bacteria, archaea, viruses, fungi, and micro-eukaryotes).

Ongoing work includes:

- Leveraging of emerging technologies to explore the hidden microbial diversity and their interactions in the human body.

- Using the technology to develop microbial (e.g. phage)-based treatments or preventatives to complex diseases (e.g. Otitis Media, Chronic Rhinosinusitis, GvHD).

- Understanding the genetics of antibiotic resistance spread.

Dr Chan has a PhD in Genomics and Computational Biology from UQ. He underwent postdoctoral training at Rutgers University (USA) in algal genomics and evolution. He returmed to UQ in late 2011 as one of the inaugural Great Barrier Reef Foundation Bioinformatics Fellows.

Dr Chan joined the School of Chemistry and Molecular Biosciences in 2020 as a group leader at the Australian Centre for Ecogenomics (ACE). His group uses advanced computational approaches to study genome evolution and develop scalable approaches for comparative genomics.

Paul Dennis leads an exciting research group that applies cutting-edge technologies to understand the roles of microorganisms and their responses to environmental change.

He is also a passionate educator and public speaker who advocates for the importance of biological diversity and evidence-based environmental awareness. He has talked about his research on ABC Radio and a range of other media outlets.

His teaching covers aspects of ecology, microbiology, plant and soil science, and climatology. He considers these topics to be of fundamental importance for the development of more sustainable societies and takes pride in helping others to obtain the knowledge and skills they need to build a better future.

Paul's research has taken him to Antarctica, the Amazon Rainforest, high mountains and oceans. The approaches used in his lab draw on a wide range of expertise in molecular biology, ecology, statistics, computer science, advanced imaging and soil science. He applies these skills to a wide-range of topics and systems including plant-microbe interactions, Antarctic marine and terrestrial ecology, biogeography, pollution and human health.

I have a keen interest in the evolutionary relationships that underpin symbioses, particularly those involved in plant disease. There are countless examples of how diseases have impacted on different crops throughout history, and this is an ongoing issue that deleteriously impacts food security. My research involves developing a better understanding of the epidemiology of plant diseases and pests, and delivering improved diagnostics and field management. Working with collaborators and international experts, my work involves research on a broad range of plants that are affected by bacteria, fungi, oomycetes and viruses. I have a strong interest in the biotic factors that govern soil health and the methods by which we can promote the development of beneficial microbial communities.