Unified treatment of the chemistry of the important classes of inorganic compounds and their reactions, with emphasis on underlying principles of molecular structure, symmetry, and bonding theory, including molecular orbital descriptions and reactivity. Prerequisite; CHEM 1420.

Introduces the components of biological macromolecules and the principles behind their observed structures. Examines the means by which enzymes catalyze transformations of other molecules, emphasizing the chemical principles involved. Topics include a description of the key metabolic cycles and pathways, the enzymes that catalyze these reactions, and the ways in which these pathways are regulated. Prerequisite: CHEM 2420

Introducing the components of biological macromolecules and the principles behind their observed structures. Prerequisites: CHEM 2420 or 2810

Covers three main areas: structure and function of biological membranes; complex biochemical systems and processes, including photosynthesis, oxidative phosphorylation, vision, neurotransmission, hormonal regulation, muscle contraction, and microtubules; and molecular biology, including DNA and RNA metabolism, protein synthesis, regulation of gene expression, and recombinant DNA methodology.

This course builds on the techniques learned in CHEM 4411 to study the structure/function relationship of a protein. Experiments are designed to determine the function of a protein and/or the effect of a mutation on function. Experimental methods include protein expression and purification, spectrophotometric kinetic methods and statistical analysis of data, and molecular visualization.Prerequisite: CHEM 4411 with a grade of C- or better.

Biochemistry study chemical processes within biological systems. When living systems are in chemical and energetic balance life thrives. However, distortion of balance caused by external or internal environment can lead to series of diseases and malfunctions of biological systems. In this course we will explore and learn how basic chemical and physical principles apply to macro-molecules that give rise to the complexity of life.

Student continues to build on their knowledge of the methods of research including the use of research literature and instruction in more advanced experimental and theoretical procedures and techniques. Students can conduct their research within the Dept of Chemistry or in a related science with approval. Under the supervision of faculty but may work closely with a Post-Doc or graduate student.

Student continues to build on their knowledge of the methods of research including the use of research literature and instruction in more advanced experimental and theoretical procedures and techniques. Students can conduct their research within the Dept of Chemistry or in a related science with approval. Under the supervision of faculty but may work closely with a Post-Doc or graduate student.

Systematic review and extension of the facts and theories of organic chemistry; includes the mechanism of reactions, structure, and stereochemistry. Prerequisite: One year of organic chemistry. In addition, one year of physical chemistry is recommended.

A comprehensive survey of synthetic organic reactions and their application to the design and execution of syntheses of relatively complex organic substances.