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Brian T. Driscoll

Image by Alex Tran.

Associate Professor (Microbiology); Departmental Chair

Specialization Coordinator for the Life Sciences (Multidisciplinary) Specialization

T: 514-398-7887听 |听听brian.driscoll [at] mcgill.ca (Email)听 |听 Macdonald-Stewart Building MS3-038

Degrees

BSc听(McMaster University)
PhD听(McMaster University)

Short Bio

Growing up in Dundas, ON, Driscoll discovered his love of science and agriculture at a young age, thanks to the influence of two uncles - one an organic chemistry professor and the other an apple grower. Through stints as a lifeguard and swimming instructor, he discovered that teaching was something he excelled at and enjoyed. While at McMaster University, Brian became interested in molecular microbiology. He found the Rhizobium-legume symbiosis to be a fascinating area of exploration, as it allowed him to feed his interests in both agriculture and science. Driscoll came to Macdonald in 1996 as an Assistant Professor of Microbiology in the Department of Natural Resource Sciences; he teaches courses in Microbial Ecology and Bacterial Molecular Genetics. He has supervised or co-supervised more than 30 graduate students, and published extensively in peer-reviewed journals. Driscoll was part of the team that developed the Faculty鈥檚 new majors, integrating fundamental science with multidisciplinary studies, as well as being instrumental in the establishment of the Life Sciences Major for which he served as Program Director. He has been Chair of the Department of Natural Resource Sciences since September 2016.

Research Interests

Rhizobia (such as Sinorhizobium meliloti) are bacteria that can form a symbiotic relationship with legume plants, including crops such as soybean and alfalfa, which are of great economic importance to Canada: symbiotic nitrogen fixation. During symbiosis, S. meliloti invades nodules that it induces on the roots of specific host plants. Within these nodules, the bacteria undergo many changes, and develop into a form known as bacteroids. Bacteroids supply the host plant with a nitrogen source, which is very important in N-poor soils or in the absence of N fertilizer. In return the plant provides the bacteria with an energy source, primarily organic acids, such as malate, which are intermediates of the tricarboxylic acid (TCA) cycle. The TCA cycle allows S. meliloti to generate the large amounts of energy required for effective symbiosis. In bacteroids, the enzymes of most of the TCA cycle enzymes appear to be expressed at much higher levels than in free-living cells.

Current Research

Research is focused on understanding the exchange of nutrients that occurs between plants and bacteria during symbiotic nitrogen fixation. We are currently investigating the regulation of genes encoding enzymes involved in carbon metabolism in Sinorhizobium meliloti, the nitrogen-fixing symbiont of alfalfa. We are also interested in other aspects of microbial physiology, genetics and ecology. In my lab, we use genetic, biochemical, and molecular biological methods to answer our questions.

Courses

MICR 331 Microbial Ecology 3 Credits
    Offered in the:
  • Fall
  • Winter
  • Summer


MICR 338 Bacterial Molecular Genetics 3 Credits
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 643 M.Sc. Proposal Seminar 1 Credits
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 644 M.Sc. Update Seminar 1 Credits
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 651 M.Sc. Final Seminar 1 Credits
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 751 PhD Research Proposal
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 752 Teaching Experience
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 753 PhD Research Progress Report
    Offered in the:
  • Fall
  • Winter
  • Summer


NRSC 754 PhD Final Research Report
    Offered in the:
  • Fall
  • Winter
  • Summer

Publications

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