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Course Criteria
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3.00 Credits
Study of the fate, transport, and distribution of chemicals in the environment. The chemistry of the atmosphere, hydrosphere, and geosphere will be covered, highlighting effects of inorganic and organic pollutants. Topics such as global warming, stratospheric ozone depletion, acid rain, photochemical smog, and groundwater contamination will be discussed in detail. Three lecture hours per week. Prerequisite(s): Chemistry 205 or permission of instructor. Unit(s): 1
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3.00 Credits
Inorganic chemistry embraces the chemistry of all of the elements. This course will focus on the synthesis and behavior of inorganic materials. As such, it will include certain aspects of thermodynamics, atomic and molecular bonding theories, kinetics, and electrochemical processes as they pertain to inorganic compounds and materials. Three lecture and four laboratory hours per week. Prerequisite(s): Chemistry 206. Unit(s): 1
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3.00 Credits
Laboratory research experience with a faculty member. Unit(s): 0.5-1
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3.00 Credits
Regular attendance in departmental seminar program. Normally taken in the junior year. One class hour per week. Prerequisite(s): Chemistry 206. Unit(s): 0
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3.00 Credits
Structure and chemistry of biologically important macromolecules and chemical processes involved in cellular synthesis degradation, and assembly of these macromolecules. Three lecture hours a week. (Same as Biology 326.) Prerequisite: Chemistry 206. 3 sem. hrs. Date Approved: July 1, 2002; revised Spring 2006.
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3.00 Credits
Structure and chemistry of biologically important macromolecules and chemical processes involved in cellular synthesis degradation, and assembly of these macromolecules. Three lecture and three laboratory hours per week. (Same as Biology 327.) Prerequisite(s): Chemistry 206. Unit(s): 1
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3.00 Credits
Advanced topics in protein structure, function, and biophysics. Commences with brief treatment of essential elements of kinetics, thermodynamics, and quantum mechanics necessary for a thorough understanding of topics to be presented later and continues with detailed coverage of enzyme kinetics and ligand binding, chemical modification, site-directed mutagenesis, x-ray crystallography, spectroscopic techniques used to investigate conformation, and the folding of proteins, including Circular Dichroism, Fluorescence and NMR; and computational approaches used to compute and visualize both structure and reaction. Second half of course focuses on three classes of proteins and associated themes: 1) kinases, phosphatases, and regulation, 2) proteases and processes and 3) oligomeric enzymes and allosteric models. Three lecture and three laboratory hours per week. (Same as Biology 329.) Prerequisite(s): Chemistry/Biology 326 or 327. Unit(s): 1
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3.00 Credits
Topics include fundamental physical organic concepts, organic reaction mechanisms, examples of syntheses from recent literature, and design of synthetic approaches to target molecules of interest. Three lecture hours per week. Prerequisite(s): Chemistry 206. Unit(s): 1
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3.00 Credits
Provides basic principles of the drug discovery process. Topics include general considerations, mode of action, quantitative structure activity relationships, absorption, distribution, metabolism, and inactivation of medicinal agents. In addition, major drug classes will be presented along with specific case studies for each category. Three lecture hours per week. Prerequisite(s): Chemistry 206. Unit(s): 1
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3.00 Credits
(See Physics 309-310.) Unit(s): 1-1
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