Discussion, oral presentations, problem solving, and reading of current literature pertinent to research interests of one or more faculty. For chemistry graduate students doing research.

Description not available at this time

Description not available at this time

Description not available at this time

This course will survey the current picture in pharmaceutical research, including how targets are selected, how the rational and combinatorial methods are harnessed, as well as how the industry is evolving in the post-genomic era. The instructors will provide background and introduce various topics, which will be discussed by a series of invited lecturers who are active in drug design and discovery. Prerequisites: One BIOCHEM class and one year of Organic Chemistry required.

Not available at this time

Discussion, oral presentations, problem solving, and reading of current literature pertinent to research interests of one or more faculty. For chemistry graduate students doing research.

A continuation of CHEM 265. Primary focus on reactions of the principal functional groups, and synthetic transformations between functional groups, including multi-reaction synthetic sequences. Includes some basic introduction to more complex organic systems such as carbohydrates, peptides, nucleic acids.

A one-semester introduction to chemistry of organic compounds: alkanes, alkenes, alkynes, aromatic compounds, alkyl halides, alcohols, ethers, aldehydes and ketones, carboxylic acids and their derivatives, phenols, amines, fats, amino acids, carbohydrates. Emphasizes nomenclature, structure, synthesis, stereochemistry, mechanisms of organic reactions. Prerequisite: CHEM 110 or 111 or equivalent.

Introduction to the macromolecules and networks of reactions of living cells, with emphasis on underlying chemical principles. Topics include structure of proteins and nucleic acids, mechanisms of enzyme catalysis, metabloic reaction networks, transfer of genetic information, and recombinant DNA technology.