Exploration and exploitation of microbes
The Waterloo Centre for Microbial Research (WCMR) promotes research and education in the application of microbiological principles and techniques to address environmental, industrial, economic, and human health challenges.
Through the WCMR, members with diverse research interests and varying academic backgrounds come together to engage in collaborative research in which microbes, as part of aquatic, terrestrial, engineered and host-associated environments, are explored through:
- computational analysis of sequence data
- identification of constituent species
- annotation and identification of novel molecular activities
- development of synthetic biology applications
- engineering of microbial processes for industrial applications
- participation in international sharing
- standardization of big data
- understanding the role of microbes in society.
As a group, the Waterloo Centre for Microbial Research plans to unify, catalyze, and promote multidisciplinary research which explores and exploits microbes at the University of Waterloo. The WCMR also supports partnerships between students, researchers, and external partners through networking events, collaborative projects and science communication. As of 2017, the WCMR is an official centre of the University of Waterloo.



News
Scientists discover a new type of Botox
Scientists have discovered a new type of Botox.
A new source of the botulinum neurotoxin was discovered by Canadian and American scientists including WCMR member Andrew Doxey in a strain of animal gut bacteria known as Enterococcus faecium. The neurotoxic protein is known for its paradoxical ability to remove wrinkles yet cause botulism, a potentially fatal illness associated with food poisoning.
Shannon Majowicz awarded grant on antimicrobial resistance
Shannon Majowicz, member of the WCMR and professor in the school of Public Health and Public Health Systems, has been awarded funding within the 5th Joint Programming Initiative on Antimicrobial Resistance (JPIAMR).
Survival of the fattest: Understanding the role of polyesters in root nodule bacteria
Even Sinorhizobium meliloti suffers from a weight gain once in a while.