BIO 105 Lecture 5 Learning Objectives PDF

Summary

This document provides learning objectives for a lecture on microbial metabolism and growth. It covers topics like catabolism, anabolism, enzymes, cellular respiration, and microbial growth stages. The document also includes questions to encourage critical thinking.

Full Transcript

BIO 105 – Lecture 5 Learning Objectives
Lecture 5 – Microbial Metabolism and Growth (8.1-8.4, 9.1-9.5)
1. Differentiate between catabolism and anabolism, and the concepts of exergonic and
endergonic chemical reactions.
2. Recognize how reducing equivalents (electron carriers) can release energy through
electron transfers, and how hydrolysis of ATP phosphate bonds is ‘coupled’ to make
endergonic chemical reactions favourable.
3. Recognize in general terms the functions of enzymes in the cell, including the concepts
of the enzyme substrate, active site and activation energy.
What is an apoenzyme? Cofactor?
How do enzyme inhibitors block enzymatic function? How is this relevant to
antimicrobial treatments?
4. Recognize the effect of temperature and pH on enzyme activity.
Why does denaturing an enzyme (or any protein) inhibit its function?
5. Recognize the basic principles of cellular respiration, and identify the major processes
involved in it (glycolysis, Krebs, electron transport chain). You do not need to recognize
the individual steps within these processes, just the broad idea.
What is substrate-level phosphorylation?
6. Recognize the basic process of ATP synthesis (oxidative phosphorylation) by powering
the electron transport chain with reduced electron carriers from glycolysis/citric acid
cycle.
What is the net result in terms of ATP production for cellular respiration,
compared with just glycolysis?
Why is a final electron acceptor like oxygen necessary?
7. Recognize the concept of fermentation, and why this process is necessary when a final
electron acceptor is not available for the electron transport chain
Remember: fermentation does not generate energy (glycolysis does)!
Why is fermentation important to industry and food production?
8. Compare and contrast prokaryotic binary fission with eukaryotic mitosis (at a very basic
level).
9. Recognize the concept of microbial logarithmic (exponential) growth, and how this
produces explosive microbial growth under the right conditions.
10. Briefly detail the four stages of microbial growth, including how fast the microbial
population is growing, and the relative nutrient/waste levels at each stage.
11. Recognize the steps utilized in the formation of a bacterial biofilm.
Why are biofilms problematic in clinical environments, and an obstacle to
treating infections?

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12. Distinguish between obligate aerobes, obligate anaerobes, facultative anaerobes,
aerotolerant anaerobes, and microaerophiles. You should be able to:
Relate their oxygen tolerances with their ability to breakdown reactive oxygen
species (ROS), and why they can or can’t do this.
Recognize the enzymes required to break down ROS.
Locate where each species would end up if grown in liquid thioglycolate broth.
13. Recognize what happens within the cell when organisms are grown below or above their
optimal growth temperature.
14. Recognize the terms we apply to microbes that can grow in various extreme
temperatures, including high/low temperature or pH, high salt or high pressure.

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