This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study.

This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study.

This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study.

This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study.

Individual laboratory research project under supervision of a faculty member. Interested students should contact individual faculty members well in advance of beginning of classes to set up projects.

Contact department for description.

Advanced treatment of selected topics in biochemistry, with readings taken from the current literature. Emphasis on experimental approaches and problem solving. Topics include protein structure-function, protein folding and modification, enzyme kinetics, and the study of metabolic processes (pathways and their regulation) with a molecular genetic approach. Students enrolled in this course are expected to have taken at least a one-semester course in upper division biochemistry and BIOCHEM 642.

Advanced treatment of selected topics in biochemistry, with readings taken from the current literature. Emphasis on experimental approaches and problem solving. Topics include protein structure-function, protein folding and modification, enzyme kinetics, and the study of metabolic processes (pathways and their regulation) with a molecular genetic approach. Students enrolled in this course are expected to have taken at least a one-semester course in upper division biochemistry and BIOCHEM 642.

Not available at this time