Matthew Wook Chang is a Korean American synthetic biologist based in Singapore. He is a Provost's Chair Professor at the Yong Loo Lin School of Medicine, National University of Singapore. Chang's research centers on engineering microorganisms and synthetic genetic systems for biomedical and biomanufacturing applications.
Chang received his B.S. in Chemical and Biological Engineering from Seoul National University and his PhD in Chemical and Biomolecular Engineering from the University of Maryland.
After completing his PhD, Chang worked as a postdoctoral research associate at the Office of Pesticide Programs of the U.S. Environmental Protection Agency. He later served as a research assistant professor at the University of Maryland Biotechnology Institute's Center for Biosystems Research. He subsequently joined Nanyang Technological University (NTU) as an Assistant Professor and later moved to the National University of Singapore (NUS).
At NUS, Chang serves as Director of the NUS Synthetic Biology for Clinical and Technological Innovation (SynCTI), which is the university's focal synthetic biology research program. Concurrently, he also serves as the WilmarâÂÂNUS Corporate Laboratory (WIL@NUS), a research partnership between NUS and the agribusiness company Wilmar International Limited, and the Singapore Consortium for Synthetic Biology (SINERGY), an initiative that promotes research collaborations across academia, industry, and government. He serves as Executive Director of the National Centre for Engineering Biology (NCEB), Singapore.
Chang's research focuses on engineering microorganisms and synthetic genetic systems to develop autonomous, programmable cells capable of performing defined functions in complex biological environments. He developed engineered Escherichia coli capable of detecting and eliminating Pseudomonas aeruginosa, demonstrating programmable pathogen-targeting bacteria. He subsequently reported engineered commensal E. coli capable of inhibiting Clostridioides difficile infection, a leading cause of healthcare-associated infectious diarrhoea worldwide.
Beyond infectious disease, Chang and his colleagues have engineered commensal bacteria that selectively target colorectal cancer cells by converting a compound naturally found in cruciferous vegetables into a bioactive anticancer agent.
In 2025, Chang and colleagues reported engineered nasal commensals capable of transporting therapeutic payloads from the nasal cavity to the brain, demonstrating a microbial platform for targeted nose-to-brain drug delivery.
He co-founded the Asian Synthetic Biology Association (ASBA) and the Global Biofoundry Alliance (GBA). He served as Co-Chair of the World Economic Forum's Global Future Council on Synthetic Biology (2023âÂÂ2025) and currently serves as Co-Chair of its Global Future Council on Generative Biology.