大发彩票平台

大发彩票平台.CA / Department of Chemistry / Faculty

James Gleason

大发彩票平台

Jim GleasonProfessor

B.Sc. (大发彩票平台, 1989)
Ph.D. (University of Virginia, 1994)
NIH postdoctoral fellow (California Institute of Technology)
Phillip Morris Graduate Fellowship (1989-1990)
DuPont Graduate Fellowship (1990-1991)
Pratt Graduate Fellowship (1990-1992)
National Institutes of Health Postdoctoral Fellowship (1994-1996)
Bio-Mega/Boehringer Ingelheim Young Investiagtor Award (1996)
Research Innovation Award (Research Corporation) (1997)

Contact Information

Office: Otto Mass 309A
Phone: (514)398-5596
Email: Jim.Gleason [at] 大发彩票平台.ca
Lab: Otto Maass 300
Lab Phone: (514)398-6225
Web Page:聽

Research Themes

  • Chemical Biology聽
  • Synthesis/Catalysis

Research Description

Our research is focused on several areas of organic chemistry, including synthetic methods development, total synthesis of natural products and medicinal chemistry

Synthetic Methods Development

We are continually interested in development of new methods for synthesis. We have previously developed methods for stereoselective quaternary carbon synthesis based on reductive functionalization of bicyclic thioglycolate lactams, catalytic asymmetric homoaldol reactions, and C-H activating cycloisomerizations of 1,6-enynes and allyl propargyl ethers. Current interests are the development of catalytic asymmetric pericyclic reactions such as the Cope and Claisen rearrangements.

Total Synthesis of Natural Products

The total synthesis of natural products is a challenging endeavor that allows us to both test current synthetic methods as well as develop novel methods and strategies. Targets of synthetic interest include palau'amine, CP-225,917, puraquinonic acid and virosaines.

Medicinal Chemistry - Multi Action Drugs

Our group has pioneered the development of novel hybrid drugs that combine structural features of nuclear receptor ligands (1,25-dihydroxyvitamin D, retinoids, antiestrogens and antiandrogens) with histone deacetylase inhibitors. These molecules take advantage of known synergy of these classes of molecules towards cancer cell lines and in many cases show improved antiproliferative activity compared to normal combination therapies. An example is triciferol, a molecule which combines the structural features of 1,25-dihydroxyvitamin D with trichostatin A and which is highly antiproliferative in MCF-7 breast cancer.

Currently Teaching

CHEM 532. Structural Organic Chemistry.

Note: For information about Fall 2025 and Winter 2026 course offerings, please check back on May 8, 2025. Until then, the "Terms offered" field will appear blank for most courses while the class schedule is being finalized.

Credits: 3
Offered by: Chemistry (Faculty of Science)
This course is not offered this catalogue year.

Description

A practical course on the application of modern spectroscopic methods for the determination of structures of complex organic and organometallic compounds.
  • Winter
  • Prerequisite: CHEM 302
  • Restriction: Not open to students who have taken CHEM 352
  • 3 hours lecture
  • 1 hour Drop-in lab

Most students use Visual Schedule Builder (VSB) to organize their schedules. VSB helps you plan class schedules, travel time, and more.

CHEM 621. Reaction Mechanisms in Organic Chemistry.

Note: For information about Fall 2025 and Winter 2026 course offerings, please check back on May 8, 2025. Until then, the "Terms offered" field will appear blank for most courses while the class schedule is being finalized.

Credits: 5
Offered by: Chemistry (Graduate Studies)
This course is not offered this catalogue year.

Description

A systematic survey of the mechanisms of the most common organic reactions from studies of reactions in the current literature.

Most students use Visual Schedule Builder (VSB) to organize their schedules. VSB helps you plan class schedules, travel time, and more.

罢补驳蝉:听
Gleason
James
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