The course focuses on the molecular and genetic tools used to analyze and modify genetic material and to modify organisms to produce desired molecules and proteins. Topics will include sequencing techniques, PCR, cloning vectors and hosts, DNA and protein microarrays, directed mutagenesis, and the manipulation of expression (and its levels) of particular gene products. Special attention will be directed to study biological systems utilized for the large scale production of recombinant autologous or heterologous proteins, focusing on advantages and disadvantages of each system, to allow students to evaluate and solve problems related to the expression of recombinant proteins. Furthermore, during the course, the major applications of genetic engineering in health care, forensics and agriculture will be presented. Historical overview will help students to understand present day technologies. Lectures on protein engineering will focus on screening of new proteins by bioinformatic analysis, rational design of proteins by computer modeling, construction of modified proteins by site-directed mutagenesis and directed evolution and characterization of modified proteins by biochemical and biophysical techniques.