Basic Information
Bio-separation Processes of Biologically-active Materials# The Physico-chemical Basis, Chromatographic Processes - Principles,theory And Practical Use. Ligand-receptor Interactions# Binding Model, Methods For Determining Binding Affinities, Equilibrium Dialysis, Percipitationy, and The Lattice Theory, Immunodifusion. Principles And Analytical Methods in Protein Identification, Characterization And Quantitation - Electrophoresis, Mass Spectometry, Databases. Enzyme Immobilization - Preparation and Characterization. Fluorescence-based Methods in Biotechnology, Immuno-based Methods, Chemistry of Immuno-labeling, Fluorescent Cell Sorting (facs). Learning Outcome# Course Graduates Will Learn The Basic Principles And Processes Involved With The Separation and Analysis of Biomolecules As a Diagnostic, Research and Practical Tool, Including# 1. Separation Methods and Analyses Based On Chromatography Electrophoresis, Elisa and Mass Spectrometry. 2. Immuno-based Methodes Including Antibody Production, Antigen-antibody Interactions And Determination of Association Constants. 3. Methods For Immobilization of Biomolecules and For The Determination Of Parameters Affecting The Process and Molecules Activity, 4. Theoretical and Practical Aspects of Flow Cytometry Including Data Analysis.
Faculty: Biomedical Engineering
|Graduate Studies
Pre-required courses
Course with no extra credit
336405 - Engineering Principles in Biology and Biotechnology