General Microbiology

Upon completion of this course, the successful student will be able to:

1. Summarize the range of prokaryotic and eukaryotic organisms that are considered to be microorganisms and discuss the historical context of microbiological science.
2. Identify the chemical components and cellular structure of bacterial cells.
3. Examine the principles of classification as they are applied to prokaryotic organisms and be able to describe the classification of bacteria in the context of phylogeny.
4. Describe the principles of bacterial nutrition and be able to compare the roles of catabolic and anabolic pathways in bacterial metabolism as well as mechanisms of regulation of metabolism.
5. Illustrate the process of bacterial cell division and relate it to the growth of bacterial populations and the control of bacterial growth.
6. Explain the structure and function of bacterial genomes including mechanisms of gene expression and regulation.
7. Compare and contrast mechanisms of genetic recombination in bacteria (e.g. transformation, transduction, conjugation, etc.) and the evolution of antibiotic resistance in bacterial populations.
8. Summarize the taxonomy of viruses, virus replication, the role of viruses in cancer, and the nature and importance of virus-like organisms like viroids and prions.
9. Differentiate between innate and acquired immunity to disease in humans and how they are affected by humoral and cell-mediated responses.
10. Describe the concept of immunization.
11. Categorize the range of habitats in which bacteria are found, the dynamics of bacterial populations, the role of bacteria in biological communities, and the range of symbiotic relationships involving bacteria (e.g. mutualism, parasitism, etc.).
12. Assess the modes of transmission and mechanisms of infection by human bacterial diseases and strategies for management of transmission and infection in the context of public health.
13. Analyze the importance and use of microorganisms in production of human food and/or human industrial activity and/or forensic investigations and/or bioremediation of contaminated industrial sites and/or other human applications.
14. Compose a group project (presentations and/or poster) on a specific topic in microbiology and evaluate other projects.
15. Demonstrate a wide variety of microbiological laboratory techniques including transfer, culture and isolation techniques, characterization of colony and cell morphology, differential staining, determination of bacterial growth rates, and methods associated with bacterial transformation, bacteriophages, macrophages & phagocytosis, antibody-antigen reactions, and identification of unknown microorganisms.