Martin Schmeing
McGill University, QUEBEC, Canada
- This delegate is presenting an abstract at this event.
Martin Schmeing received his B.Sc. from McGill University (1998), before obtaining his M.Sc. and Ph.D. with Dr. Thomas Steitz at Yale University (2002, 2004). He then carried out postdoctoral research with Dr. V. Ramakrishnan at the Laboratory of Molecular Biology, Cambridge, UK (2005-2010). He was appointed Assistant Professor at the Department of Biochemistry, McGill University in 2010, and was promoted to Associate Professor in 2016. He holds a Canadian Research Chair in Macromolecular Machines and serves as the Director of the Centre for Structural Biology, and Associate Director for the Facility for Electron Microscopy Research. The main focus of his research is on elucidating the structures and functions of nonribosomal peptide synthetases (NRPSs). NRPSs are large microbial enzymes that synthesize their products through amide bond formation between building block monomers (most commonly amino acids). The chemical and biological properties of these compounds often make them useful to society as therapeutics (antibiotics, antivirals, anti-tumours, and immunosuppressants) and as natural green chemicals (emulsifiers, siderophores, and research tools). Two aspects of particular focus in Dr. Schmeing’s research are the catalytic event which links substrate building blocks, and the manner in which NRPS domains and modules work together in a complicated and productive catalytic cycle. His work has been recognized with honours including the Young Investigator Award from Canadian Society for Molecular Biosciences, Joe Doupe Award from the Canadian Society for Clinical Investigation, Bhagirath Singh Early Career Award from the Canadian Institutes of Health Research, and a Career Development Award from the Human Frontier Science Program Organization.
Presentations this author is a contributor to:
Biosynthesis and use of the non-nonribosomal peptide cyanophycin (#92)
8:30 AM
Martin Schmeing
SESSION 16: Peptide biosynthesis