Friday, 29 September 11:00am – 12:00pm

This seminar will be delivered in Chemistry Lecture Theatre 4

Speaker: Dr Heng Chooi, University of Western Australia

Host: Dr Constance Bailey

Title: Fun with Fungi: Linking genes to natural products and functions.

Abstract: Specialised metabolites are one of the major means of how microbes and sessile organisms defend themselves and affect their environment to gain selective advantage. These metabolites, also known as natural products, are shaped by billions of years of evolution, and have been serving as a reservoir of bioactive molecules for discovery of development of drugs and agrochemicals. A paradigm that has emerged for microbial ecology and natural product discovery in the genomics era is that there are far more biosynthetic genes (or gene clusters) that encode the production of these specialised metabolites than we previously assumed based on the chemical diversity we obtained from microbes growing in the laboratory. The discovery of these cryptic biosynthetic genes in the microbial genomes generated new questions: what chemical diversity do these cryptic biosynthetic genes encode? How do they evolve? Are they responsible for extended phenotypes that confer selective advantage to the organisms or, to the genes themselves? Connecting the biosynthetic genes (genotype) to the specialised metabolites (chemotype) would not only allow us to address some of these fundamental questions including their biological functions (phenotype) but allow us to harness the biosynthetic machineries and their bioactivities for potential applications.

My group at UWA develops and uses synthetic biology tools to override the genetic controls of specialised metabolic pathways to access the chemical diversity encode by the cryptic biosynthetic genes in fungi. Reconstructing biosynthetic pathways heterologously in a bottom-up manner allow us to understand how these metabolites are made. One of the main reasons that many of the microbial biosynthetic pathways are cryptic is because they are conditionally expressed in response to varying biotic and abiotic factors in the environment. Inspired by this, we harness fungal biotic interactions and ecological genomics to guide our investigation into the cryptic chemical ecology of fungal plant and human pathogens with the aim to harness the knowledge and molecules for disease management and agrochemical/pharmaceutical applications. We also use molecular taxonomy to guide our genome mining efforts to uncover novel bioactive metabolites from the unique Australian biodiversity and seek to expand the natural chemical diversity via enzyme and metabolic pathway engineering. Here, I will discuss several of our recent research related to these topics.

Bio: A/Prof Yit-Heng Chooi completed his PhD at RMIT University in Melbourne in 2009. He was a postdoc in University of California, Los Angeles (UCLA) in USA from 2009-2013. He moved back to Australia to take up an ARC Discovery Early Career Research Award (DECRA) Fellow at Research School of Biology, Australian National University in 2013. In 2015, he joined the faculty at The University of Western Australia and took up a lectureship in the School of Molecular Sciences. In 2016, he was awarded an ARC Future Fellowship. His current research is focusing on biosynthesis of specialised metabolite in fungi, understanding secondary metabolite roles in plant and animal fungal disease development, and enzyme and drug discovery via genome mining. His work spans the field of genomics and genetics, synthetic biology, chemical biology and natural product chemistry. With increasing collaborations with industries, Dr Chooi has recently been awarded the inaugural ARC Mid-Career Industry Fellowship.