Microbiology Review Sheet

Microbiology Review Sheet

Unit 2 Learning goals

Please use the following list as a guideline. It is recommended that you review your notes, lecture slides, labs, the readings from your textbook, as well as any supplemental readings listed in the syllabus.

Students should be able to:

Week 5:
Historical Development of Microbiology

Outline the major events in the history of microbiology, including the major conributors to the early development of microscopy, medical advances, aseptic techniques, and the germ theory of disease.

Understand cell theory and how it relates to historical developments (Hooke, Leeuwenhoek, etc)
Distinguish between spontaneous generation and biogenesis and its relation to historical experimentation to explain early theories of microbiology
Explain and give examples of Pasteur’s contributions to the field of microbiology
Describe the Germ Theory of Disease, its contributors (Semmelweis, Pasteur, Lister, etc) and experimentation or practices that shaped its tenets.
Recount and critically analyze Koch’s postulates and ways to test or modify the basic application of the postulates
Define the experimental relevance of each of steps of Koch’s postulates (and as they related to the Yogurt Lab)

Fermentation and Cellular Metabolism

Define fermentation and explain its relevance to microbes.
Name food products or natural processes that involve fermentation
Understand the possible byproducts of anaerobic metabolism of carbohydrate (lactic acid vs. alcohol production)

Week 6:

Fermentation and Cellular Metabolism

Characterize the three main steps involved in carbohydrate metabolism in cells (glycolysis, Krebs cycle, and electron transport chain)
Understand the relationships between the 3 major processes of carbohydrate metabolism and fermentation
Explain the difference between aerobic and anaerobic metabolism and relate it to the breakdown of carbohydrate (glucose) and ATP energy production and the effectiveness of the above 3 metabolic processes in the presence and absence of oxygen
Be familiar with the beginning and end products for each process and what was oxidized or reduced.

Week 7 : Winter Break!

Week 8: Microbial Growth Control

Understand the relationships (similarities and differences) between sterilization, pasteurization, autoclaving, detergents,filtration and radiation (irradiation), as means of microbiological control
Compare and contrast disinfection, sanitation, germicide, bacteriostasis and antibiotics
Identify the main physical and chemical requirements for bacterial growth.
Describe several ways the antimicrobial agents (physical and chemical) work

STOP HERE!.....MINI UNIT ON GENETICS______

Week 9 and 10:
Bacterial Genetics

Understand the basic structure and organization of DNA/chromosomes of bacterial cells
Explain the steps that lead to the flow of genetic information from DNA to protein (genesRNAprotein)
Characterize the molecular level detail in which DNA is replicated in bacteria cells (recognize any appreciable differences between this process in prokaryotes and eukaryotes)
Define and understand the interconnection of DNA replication, transcription and translation (particularly in prokaryotic cells)
Differentiate between vertical and horizontal gene transfer
Define, compare and contrast the 3 main routes of horizontal gene transfer or genetic recombination of bacterial cells (transformation, conjugation and transduction) and relate them to antibiotic resistance
Contextualize Griffith’s transformation experiment and the implications for understand how cells acquire novel traits
Understand the classical (F+/F-/Hfr) and expanded processes of conjugation including the ways in which cell make contact and the ways in which conjugation results in novel acquisition of genetic material that different from transformation
Briefly understand how the processes of genetic recombination and transposition might enable bacterial cells to acquire antibiotic resistance
Relate how genetic recombination can be used to alter microbial cells to make novel proteins or compounds for industrial scale applications

LABS: 1 - Yogurt Lab

2–Disk Diffusion Lab