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I am a medicinal chemist and postdoctoral research fellow at the University of Queensland, Australia, where I obtained my BSc (Hons) with a major in organic chemistry in 2011. Following this, I worked at the Institute for Future Environments and later the Centre for Tropical Crops and Biocommodities at QUT, where I gained experience in analytical chemistry, as well as molecular biology and genetics. In 2015, I returned to UQ to begin my PhD in the design and synthesis of novel antifungals targeting invasive infection under the supervision of Prof. Craig Williams and Prof. Luke Guddat, which I completed in 2019. My combined experience in synthetic chemistry - particularly in the synthesis of heterocyclic small molecules - and molecular biology has since led to my current position at UQ under the supervision of Prof. Avril Robertson, where my focus is once again on the design and synthesis of novel antifungals. Broadly, my research interests lie in the pursuit of drug design and development campaigns addressing difficult or under-researched clinical concerns, and in particular, the use of novel bioisosteric approaches to improve drugability and drug efficacy.

More recently, I have developed an interest in Australian mushroom species. Very little recorded knowledge on our endemic mushrooms species exists. My research in this space seeks to characterise the genetic and molecular features of Australian wood rot mushrooms, which are critical players in maintaining and restoring the health of our unique forests ecosystems. With this information we aim to better understand our fungal biodiversity and the ecological roles they play, and to explore their potential uses in several industries. We are also investigating the biological activity of extracts and molecules derived from these mushrooms against models of human diseases, such as Alzheimer's, cancer, and drug-resistant microbial infections.

Dr Fernanda Cardoso is a Brazil-born Australian researcher interested in venom peptide-based biodiscovery and therapeutics development. Cardoso was awarded an MSc in Molecular Pharmacology and a PhD with an emphasis in Biochemistry and Immunology and is part of the Institute for Molecular Bioscience, where she develops novel therapies for complex neurological diseases. Cardoso has interdisciplinary training in the fields of neuropharmacology, medicinal chemistry and chemical biology and a strong background in drug discovery, which provides the skills to identify naturally occurring or synthetic bioactive molecules and to study their effects in human physiology with applications in neurologic disorders such as chronic pain, irritable bowel syndrome (IBS), and motor neuron disease (MND). Please see Dr Cardoso’s Grants and Publications list for more details.

Before joining the University of Queensland, Dr Cardoso was part of the Queensland Institute for Medical Research, holding a prestigious CAPES Postdoctoral Fellowship. During this period, Cardoso developed unique high-throughput screen platforms for discovering protein and peptide targets of novel therapies to combat infectious diseases and novel helminth-derived bioactives with anti-inflammatory properties. Please see Dr Cardoso’s Publications list for more details.

Dr Cardoso is currently part of the Centre for Drug Discovery and manages several industry and academic projects studying ion channel modulators derived from natural repertoires, particularly venoms, and developing novel, effective drugs to treat neurological disorders.

Biography

Jeffrey Mak (PhD) is an organic chemist at the Institute for Molecular Bioscience. His publications cover a range of disciplines such as biological and medicinal chemistry, total synthesis, and physical organic chemistry. Dr Mak was selected as a Rising Star of Chemistry by the Australian Journal of Chemistry (2022).

Jeffrey Mak was awarded the Harriett Marks Bursary and a UQ University Medal before undertaking doctorate studies in natural product total synthesis with Prof. Craig Williams. This culminated in the first total synthesis of two caged diterpenes, (−)-neovibsanin G and (−)-14-epi-neovibsanin G. Next, he joined Prof. David Fairlie's group at the Institute for Molecular Bioscience. He is currently active in the fields of chemical biology and drug development. He is recognised for his development of ligands that modulate mucosal associated invariant T (MAIT) cells, which are a newly characterised subset of immune cells important in antibacterial defence (Accounts of Chemical Research, 2021). In 2014, he was part of an Australian team that discovered the identity of the ligands that activate MAIT cells, as published in Nature, playing a key role in the chemical synthesis and characterisation of the unstable and structurally unprecedented ligands (Nature Communications, 2017). He was selected as a CAS SciFinder Future Leader by the Chemical Abstract Service (a division of the American Chemical Society, 2017). In 2018, Dr Mak was chief investigator on a UQ Early Career Researcher Grant for developing new drug leads that target MAIT cells. Other recent awards include RSC Twitter Poster Conference (Chemical Biology) 1st Prize (2018), and a CASS Travel Award (2018).

Dr Mak has lectured in the undergraduate course Advanced Organic Chemistry (CHEM3001, 2017-2023). He has also served as a member of the UQ Cultural Inclusion Council, and as an ACS Wikipedia Fellow to systematically improve the chemistry and scientific content on Wikipedia (2018).

Student projects

Projects in medicinal chemistry, synthesis, and chemical biology are available (depending on lab space) for enthusiastic organic chemistry students at all levels (PhD, Masters, Honours, Undergraduate). These include the design and synthesis of:

1. Stable analogues of immunostimulating bacterial ligands towards vaccines and anti-cancer immunotherapies
2. Chemical biology tools for exploring MAIT cell activation
3. Highly selective histone deacetylase (HDAC) inhibitors as new drug leads

Previous student publications:

1. Mak JYW* et al. (2024) Potent Immunomodulators Developed from an Unstable Bacterial Metabolite of Vitamin B2 Biosynthesis. Angewandte Chemie, e202400632.
2. Mak JYW et al. (2021) HDAC7 inhibition by phenacetyl and phenylbenzoyl hydroxamates. Journal of Medicinal Chemistry, 64 (4), 2186-2204.
3. Awad W, Ler GJM et al. (2020) The molecular basis underpinning the potency and specificity of MAIT cell antigens. Nature Immunology, 21 (4), 400-411.
4. Ler GJM, Xu W, Mak JYW, Liu L et al. (2019) Computer modelling and synthesis of deoxy and monohydroxy analogues of a ribitylaminouracil bacterial metabolite that potently activates human T cells. Chemistry – A European Journal, 25 (68), 15594-15608.

Jared is a proud Yuwi man, pharmacist and early-career researcher with interests spanning from culturally safe and effective pharmacy practice through to new technologies for pharmaceutical development and delivery. After graduating from UQ with a Bachelor of Pharmacy (Honours) in 2012, he worked as a community pharmacist before returning to undertake a PhD in pharmaceutical sciences, focusing on discovering new drugs for Alzheimer’s disease. Throughout his PhD, Jared developed an interest in teaching and tutored for many pharmacy courses. Ultimately this led to his current role as a Lecturer with UQ School of Pharmacy upon finishing his PhD in 2021. Jared also works as a clinical and research pharmacist with the Institute of Urban Indigenous Health (IUIH).

Professor Mobli is a structural biologist and a group leader at the University of Queensland's Australian Institute for Bioengineering and Nanotechnology (AIBN). He is well known internationally for his contributions to the basic theory of multidimensional nuclear magnetic resonance and its applications to resolving the molecular structure of peptides and proteins, as well as studying their physiochemical properties and function. Mehdi's contributions to the field has been recognised by being appointed an Executive Editor of the AMPERE society's journal "Magnetic Resonance", and to the advisory board of the international Biological Magnetic Resonance Data Bank (BMRB) as well as serving on the board of directors of the Australia and New Zealand Society for Magnetic Resonance (ANZMAG). He is a former ARC Future Fellow and recipient of the ASBMB MERCK medal, the Australia Peptide Society's Tregear Award, the ANZMAG Sir Paul Callaghan medal and the Lorne Proteins Young Investigator Award (now Robin Anders Award).

Prof. Mobli's research group focuses on characterising the structure and function of receptors involved in neuronal signalling, with a particular focus on developing new approaches for the discovery and characterisation of modulators of these receptors through innovations in bioinformatics, biochemistry and and biophysics. This work has led to publication of more than 100 research articles attracting over 6,000 citations.

Megan O’Mara is a Professor and Group Leader at the Australian Institute for Bioengineering and Nanotechnology (AIBN), UQ. Her group uses multiscale modelling techniques to understand how changes in the biochemical environment of the cell membranes alters membrane properties and modulates the function of membrane proteins. She has research interests in multidrug resistance, computational drug design and delivery, biopolymers, and personalized medicine. Megan completed her PhD in biophysics at the Australian National University in 2005 before moving to the University of Calgary, Canada, to take up a Canadian Institutes of Health Research Postdoctoral Fellowship. In 2009, she returned to Australia to join University of Queensland’s School of Chemistry and Molecular Biosciences as a UQ Postdoctoral Fellow, before commencing an ARC DECRA in 2012 where she continued her computational work on membrane protein dynamics. In 2015, Megan joined the Research School of Chemistry, Australian National University in 2015 as Rita Cornforth Fellow and Senior Lecturer. In 2019 she was promoted to Associate Professor and was Associate Director (Education) of the Research School of Chemistry ANU in 2019-2021. In April 2022 she relocated to AIBN.

I am a Principal Investigator (PI) and a senior research officer (SRO) at Mater research – UQ with excellent clinical and research laboratory skills and expertise in conducting and analyzing laboratory assays and resolving complex research and clinical laboratory problems. I can describe myself as determined, reliable, studious, conscientious, attentive, industrious, diligent, and focused on the timely, quality completion of all lab procedures. I am able to work well under pressure and time constraints within high-volume environments both independently and in collaboration within a team. I am also a highly self-motivated and career-oriented individual with a genuine interest in addressing cancer molecular mechanisms with the goal of developing novel cancer therapeutics and immunotherapy focusing on tumor microenvironment, immunoregulation and signaling pathways in cancer and metastasis.

My research interests are centred around the structure and function of venom and silk polypeptides produced by arthropods, and their use in biotechnology and medicine. I am a Postdoctoral Fellow in the King laboratory in the Institute for Molecular Bioscience, the University of Queensland, Australia. Currently, I am investigating the composition, function and evolution of neglected insect venoms produced by assassin bugs (Hemiptera: Reduviidae), robber flies (Diptera: Asilidae) and nettle caterpillars (Lepidoptera: Limacodidae).

Educated at the University of Copenhagen, Denmark, and the Australian National University, Canberra. Career at the Université de Lausanne, Switzerland, and the Universität Marburg, Germany. Professor and Chair of Organic Chemistry and Head of the Organic Chemistry Section, The University of Queensland from 1985. Emeritus professor from 2008. Chair of the National Committee for Chemistry of the Australian Academy of Science 2009-2014. Editor-in-Chief, Australian Journal of Chemistry 2008-15. Editor, Journal of Analytical and Applied Pyrolysis (Elsevier, IF 3.65) 2016-. Visiting Professor Université de Pau, France, 2011-19; Visiting Professor University of Kuwait 2014-18; Visiting Professor / Special Appointed Professor Hiroshima University 2014-18. Fellow of the Australian Academy of Science. Centenary Medal of the Australian Commonwealth 2003 for research in organic and physical chemistry. David Craig Medal of the Academy of Science 2014 for research in chemistry. JSPS Fellowship (Japan) 2014. Honorary doctorate, University of Pau, France, 2014. A.J. Birch Medal of the Royal Australian Chemical Institute (RACI) for ecellence in research in organic chemistry, 2014. Leighton Medal of the RACI 2018.

Research on Unusual Molecules and Reactive Intermediates: Synthesis and Reaction Mechanism. Heterocyclic chemistry. Pyrolysis reactions. Photochemistry

Research in the Wentrup group is concerned with the discovery of novel types of molecules with new and unusual bonding patterns. Such molecules are mostly highly reactive, and special methods are required both for their generation and for their detection. The group has developed these methods over many years and acquired world-class equipment for these purposes, including flash vacuum thermolysis apparatus, cryostats for matrix isolation of reaction products at cryogenic temperatures (down to 7 K), matrix and solution photochemistry equipment, infrared, UV and mass spectrometers, as well as modern computational facilities.

This research has resulted in the synthesis and characterization of many novel compounds, including extended cumulenes of the types RN=C=C=C=X, which themselves are used in the synthesis of many novel types of molecules, some of them of potential pharmaceutical interest (quinolone antibiotics; diazepines).

The research group has a world reputation in the field of carbene and nitrene chemistry, involving reactive intermediates with sextet carbon or nitrogen. These species are also very useful in synthesis, for example in the preparation of diazepines and diazepinones, a family of pharmaceutically interesting compounds. Numerous mechanistic studies and synthetic applications of ketenes have been carried out in our group.

Active collaborations are ongoing with scientists in Australia (UQ and CSIRO), China (Suzhou), France (Pau), Germany (Oldenburg), Japan (Hiroshima), Spain (Donostia - San Sebastian), and Portugal (Coimbra).