Table of contents

1. Introduction to Microbiology3h 21m
2. Disproving Spontaneous Generation1h 18m
3. Chemical Principles of Microbiology3h 38m
4. Water1h 28m
5. Molecules of Microbiology2h 23m
6. Cell Membrane & Transport3h 28m
7. Prokaryotic Cell Structures & Functions5h 52m
8. Eukaryotic Cell Structures & Functions2h 18m
9. Microscopes2h 46m
10. Dynamics of Microbial Growth4h 36m
11. Controlling Microbial Growth4h 10m
12. Microbial Metabolism5h 16m
13. Photosynthesis2h 31m
14. DNA Replication2h 25m
15. Central Dogma & Gene Regulation7h 14m
16. Microbial Genetics4h 44m
17. Biotechnology3h 0m
18. Viruses, Viroids, & Prions4h 56m
19. Innate Immunity7h 15m
20. Adaptive Immunity7h 14m
21. Principles of Disease6h 57m

12. Microbial Metabolism

Redox Reactions

Microbiology

12. Microbial Metabolism

Redox Reactions

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2:27 minutes

Problem 28.10a

Textbook Question

Which of the following reactions is an oxidation carried out by A. ferrooxidans?
a. Fe²⁺ → Fe³⁺
b. Fe³⁺ → Fe²⁺
c. CuS→ CuSO₄
d. Fe⁰ → Cu⁰
e. none of the above

Verified step by step guidance

Identify the role of A. ferrooxidans: It is a chemolithoautotrophic bacterium known for oxidizing iron and sulfur compounds.

Understand oxidation: Oxidation involves the loss of electrons, resulting in an increase in oxidation state.

Analyze option a: Fe²⁺ → Fe³⁺. This involves the loss of an electron, indicating oxidation.

Analyze option b: Fe³⁺ → Fe²⁺. This involves the gain of an electron, indicating reduction, not oxidation.

Analyze option c: CuS → CuSO₄. This involves the oxidation of sulfur, which is a known reaction for A. ferrooxidans.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Oxidation-Reduction Reactions

Oxidation-reduction (redox) reactions involve the transfer of electrons between substances. In oxidation, a substance loses electrons, resulting in an increase in its oxidation state, while reduction involves gaining electrons and a decrease in oxidation state. Understanding these processes is crucial for identifying which reactions involve oxidation.

A. ferrooxidans

Acidithiobacillus ferrooxidans is a chemolithotrophic bacterium known for its role in the bioleaching of metals and the oxidation of iron and sulfur compounds. It oxidizes ferrous iron (Fe²⁺) to ferric iron (Fe³⁺), which is a key reaction in its metabolic processes. Recognizing the metabolic capabilities of A. ferrooxidans helps in determining which reactions it can catalyze.

Oxidation States of Iron

Iron can exist in multiple oxidation states, primarily +2 (ferrous, Fe²⁺) and +3 (ferric, Fe³⁺). The conversion of Fe²⁺ to Fe³⁺ represents an oxidation reaction, as it involves the loss of an electron. Understanding these oxidation states is essential for analyzing the reactions presented in the question.

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Related Practice

Textbook Question

Define oxidation-reduction, and differentiate the following terms:

a. aerobic and anaerobic respiration

b. respiration and fermentation

c. cyclic and noncyclic photophosphorylation

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Textbook Question

Why must NADH be reoxidized? How does this happen in an organism that uses respiration? Fermentation?

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Textbook Question

Which substance in the following reaction is being reduced?

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a. acetaldehyde

b. NADH

c. ethanol

d. NAD⁺

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Textbook Question

In the sulfur cycle, microbes degrade organic sulfur compounds, such as (a) _________________, to release H₂S, which can be oxidized by Acidithiobacillus to (b) _________________. This ion can be assimilated into amino acids by (c) _________________ or reduced by Desulfovibrio to (d) _________________. H₂S is used by photoautotrophic bacteria as an electron donor to synthesize (e) _________________. The sulfur-containing by-product of this metabolism is (f) _________________.

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Textbook Question

Label each reactant and product in the reactions as reduced or oxidized (X is a theoretical molecule or atom).

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Textbook Question

Use this pathway schematic to answer questions a through d.

a. Which enzyme carries out a redox reaction? In this reaction, what is being reduced and what is being oxidized?

b. Which enzyme would be the most likely to be regulated by feedback inhibition?

c. What is the end product of this pathway?