This course is intended for students with significant research experience to work closely with their faculty mentors to prepare a manuscript for publication or write a proposal for external funding. Students will devote significant time to writing, revision and peer review. A submission-quality manuscript or proposal is expected at the end of the semester.

This course allows students to assist in a class or laboratory for which they have previously earned credit. The student will assist the instructor in the operation of the course. Assistance by the student may include fielding questions, helping in workshops, and assisting in review sessions. In the case of labs, students may also be asked to help with supervising safety practices, waste manifestation, and instrumentation.

This course is a faculty-directed student project or research in chemistry that could be considered of an original nature.

This course is a faculty-directed student project or research involving laboratory work, computer modeling, or theoretical calculations that could be considered of an original nature. The level of study is appropriate for students in their final two years of study.

Chemistry project accomplished by the MS student for an appropriate topic as arranged between the candidate and the project advisor.

Dissertation research by the candidate for an appropriate topic as arranged between the candidate and the research advisor.

This course is a faculty-directed tutorial of appropriate topics that are not part of the formal curriculum. The level of study is appropriate for a masters-level student.

This course will focus on the application of biochemical knowledge to the field of medicine. Students will learn the basic functions of water, carbohydrates, lipids, proteins, and nucleic acids in humans, then explore implications of this knowledge in nutrition and metabolism and its relationship to health and disease.

This course introduces the structure and function of biological macromolecules and their metabolic pathways. The relationship between the three-dimensional structure of proteins and their function in enzymatic catalysis will be examined. Membrane structure and the physical laws that apply to metabolic processes will also be discussed.

This course will focus on advanced topics in biochemistry, using hands-on activities, in-class discussions, and review of relevant literature to explore the theory and applications behind current biochemical methods and concepts.

An introduction to the theory and practice of modern experimental biochemical laboratory techniques and concepts. The weekly two-hour lecture provides a theoretical framework for the course and includes a discussion of the properties of biomolecules and how those properties are exploited in the separation and characterization of the molecules. Practical laboratory techniques include the preparation of buffers, centrifugation, chromatography, electrophoretic methods, and UV-visible spectrophotometry as applied to the isolation and characterization of proteins and nucleic acids. The manipulation of genetic material in E. coli will also be executed. This course will be offered in a writing intensive format where the students will write and submit the different sections found in scientific papers (abstract, introduction, materials and methods, results, discussion, conclusions, references, figures, tables) in an iterative fashion that will include regular feedback from the instructor.

This course is a faculty-directed student project or research in biochemistry that could be considered of an original nature.

This course is a faculty-directed student project or research involving laboratory work, computer modeling, or theoretical calculations that could be considered of an original nature. The level of study is appropriate for students in their final two years of study.

This course is a faculty-directed tutorial of appropriate topics that are not part of the formal curriculum. The level of study is appropriate for student in their final two years of study.

This is a general chemistry course for students in the life and physical sciences. College chemistry is presented as a science based on empirical evidence that is placed into the context of conceptual, visual, and mathematical models. Students will learn the concepts, symbolism, and fundamental tools of chemistry necessary to carry on a discourse in the language of chemistry. Emphasis will be placed on the relationship between atomic structure, chemical bonds, and the transformation of these bonds through chemical reactions. The fundamentals of organic chemistry are introduced throughout the course to emphasize the connection between chemistry and the other sciences.