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Course Criteria
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3.00 Credits
Focuses on the analysis of biological molecules, which include nucleic acids, proteins, carbohydrates, lipids, and metabolites. Methods used for isolation, purification, and characterization of these molecules are discussed.
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3.00 Credits
Describes the application of instrumental methods for analyzing environmental samples for major, minor, and trace components of toxicological concern. Topics include sampling strategies for natural systems, determination of trace metals in natural waters and biologicals, determination of xenobiotics by GC, LC, GC-MS, and LC-MS, remote sensing of atmospheric pollutants, molecular biomarkers, and detection of protein and DNA adducts.
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3.00 Credits
Continues CHM U626. Surveys types of organic reactions including stereochemistry, influence of structure and medium, mechanistic aspects, and synthetic applications.
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3.00 Credits
Covers host-guest complexation by crown ethers, cryptands, podands, spherands, and so on; molecular recognition including self-replication; peptide and protein structure; coenzymes and metals in bioorganic chemistry; nucleic acid structure; interaction of DNA with proteins and small molecules including DNA-targeted drug design; catalytic RNA; and catalytic antibodies.
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1.00 Credits
Retired August 31, 2006. Offers additional advanced academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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1.00 Credits
Retired August 31, 2006. Offers additional advanced academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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1.00 Credits
Retired August 31, 2006. Offers additional advanced academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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3.00 Credits
Continues topics in CHM U637, which include many-electron atoms, simple diatomic molecules, conjugated pi-electron systems, the electronic structure of molecules, molecular modeling, and modeling of proteins and biological systems.
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3.00 Credits
Provides an overview of solid-state materials from a chemistry perspective. Specific perspectives are those of classification, characterization, and structure-property relationships, and synthesis and design of tailor-made materials to meet future technological needs. Relevant theory and practice of spectroscopic methods is included, as well as concepts of physics involved with structure-property relationships.
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3.00 Credits
Presents the physical principles underlying magnetic resonance spectroscopy including Fourier transform theory, classical and quantum-mechanical treatments of spin angular momentum, the Bloch equations, spin relaxation, and density matrix formalism applied to chemical and molecular dynamics. Different magnetic resonance methods are introduced, with emphasis on time-domain nuclear magnetic resonance (NMR) methods such as phase cycling, two-dimensional spectroscopy, and selective pulse sequences. A special topic may be included from among the following: magnetic resonance imaging (MRI), solid-state NMR (CP-MAS), or macromolecular structure.
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