Prescott's Microbiology
10th Edition
ISBN: 9781259281594
Author: Joanne Willey, Linda Sherwood Adjunt Professor Lecturer, Christopher J. Woolverton Professor
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 10.4, Problem 5RIA
Name and briefly describe the major electron carriers found in cells. Why is NADH a good electron donor? Why is ferredoxin an even better electron donor?
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The following statements describe the path of electrons from NADH through the electron transport chain. Please arrange them in order:
Cytochrome c (Fe2+) carries electrons to Complex IV.
Cytochrome c (Fe3+) is reduced to cytochrome c (Fe2+)
QH2 carries electrons to Complex III
Oxygen is reduced to water
Ubiquinone (coenzyme Q) is reduced to ubiquinol (QH2)
Consider the function of the cofactor FAD. Which of the following makes it unique (different) from
NAD+? Select all that apply.
Operates as part of an enzyme and is not a mobile electron carrier
In its fully reduced state, carries 2 electrons
Involved in electron transfers as part of pyruvate dehydrogenase complex activity
O Facilitates single electron transfers
Propose a full mechanism for the formation of the diene. Show curved arrows to illustrate electron flow, and please show all steps. Include a brief paragraph that describes the steps of the mechanism and discusses the driving force for the steps shown. (attached is the image)
Chapter 10 Solutions
Prescott's Microbiology
Ch. 10.1 - Figure 10.2 The Relationship of G to the...Ch. 10.1 - What kinds of work are carried out in a cell?...Ch. 10.1 - What is thermodynamics? Summarize the first and...Ch. 10.1 - Define entropy and enthalpy. Do living cells...Ch. 10.1 - Prob. 4RIACh. 10.1 - Prob. 5RIACh. 10.2 - Why is ATP called a high-energy molecule? How is...Ch. 10.2 - Describe the energy cycle and ATPs role in it....Ch. 10.3 - Prob. 1MICh. 10.3 - Prob. 2MI
Ch. 10.4 - Figure 10.6 Electron Movement and Reduction...Ch. 10.4 - How is the direction of electron flow between...Ch. 10.4 - When electrons flow from the NAD+/NADH conjugate...Ch. 10.4 - Which among the following would be the best...Ch. 10.4 - In general terms, how is G related to E0? What is...Ch. 10.4 - Name and briefly describe the major electron...Ch. 10.6 - Will an enzyme with a relatively high Km have a...Ch. 10.6 - Prob. 2MICh. 10.6 - What is an apoenzyme? A holoenzyme? What are the...Ch. 10.6 - Illustrate the effect enzymes have on the...Ch. 10.6 - How does enzyme activity change with substrate...Ch. 10.6 - What special properties might an enzyme isolated...Ch. 10.6 - What are competitive and noncompetitive...Ch. 10.6 - How are enzymes and ribozymes similar? How do they...Ch. 10.7 - Figure 10.19 Allosteric Regulation. The structure...Ch. 10.7 - Figure 10.21 Feedback Inhibition. Feedback...Ch. 10.7 - Briefly describe the three ways a metabolic...Ch. 10.7 - Define the terms metabolic channeling and...Ch. 10.7 - Define allosteric enzyme and allosteric effector.Ch. 10.7 - Prob. 4RIACh. 10.7 - Prob. 5RIACh. 10.7 - What is the significance of the fact that...Ch. 10 - Examine the structures of macromolecules in...Ch. 10 - Most enzymes do not operate at their biochemical...Ch. 10 - Examine the branched pathway shown here for the...Ch. 10 - Prob. 4CHI
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- Under standard conditions, NADH reoxidation by the electron-transport chain has a free-energy change equal to –220 kJ/mol. With 100% efficiency, how many ATP could be synthesized under standard conditions? What is the "actual" efficiency given these numbers?arrow_forwardConsider the function of the cofactor FAD. Which of the following makes it unique (different) from NAD+? Select all that apply. O Operates as part of an enzyme and is not a mobile electron carrier O In its fully reduced state, carries 2 electrons OInvolved in electron transfers as part of pyruvate dehydrogenase complex activity O Facilitates single electron transfersarrow_forwardDiscuss the composition of the transition state for the formation of ATP by ATP Synthase. a) Where is the active site for this enzyme located? b) How are the amino acid side chains from the α and β subunits of ATP Synthase involved? c) Discuss the importance of Mg+2 in the mechanism of this enzyme.arrow_forward
- The reaction pictured is an oxidation-reduction reaction in the citric acid cycle in which the energy-carrier molecule NADH is generated. Identify which molecule in the reaction will be oxidized and which molecule will be reduced. Place a single answer choice in each box. COO- HO-C-H H-C-H COO- Malate NAD+ NADH + H+ Oxidized malate oxaloacetate COO- H-C-H ī COO- Oxaloacetate Reduced NADH NAD+arrow_forwardThe graph shows how the free‑energy change for the hydrolysis of ATP varies as a function of Mg2+ concentration. Note that pMg = –log[Mg2+]. What does the graph tell you about the relationship between Mg2+ concentration and ATP hydrolysis? What is the mechanism that explains the relationship between Mg2+ concentration and ATP hydrolysis?arrow_forward1 a) What is meant by the ATP currency exchange ratio? Why does the oxidation of mitochondrial FADH2 generate one less ATP than oxidation of mitochondrial NADH? b) If 12 H+ are moved across the inner mitochondrial membrane by NADH oxidation, and each ATP synthesized requires 3 H+ to move through ATP synthase, why are only 3 ATP molecules produced by oxidation of each NADH?arrow_forward
- Compound X is an inhibitor in respiratory electron transfer. It binds to the Fe3+ of Complex IV preventing oxygen binding. (a) Suggest an example of compound X. (b) How would compound X affect the NADH / NAD+ ratio? Explain briefly. (d) Given: Complexes II, III and IV, cytochrome c, Q, succinate and compound X Draft the ELECTRON FLOW and determine the FINAL ELECTRON ACCEPTOR with explanation under AEROBIC condition.arrow_forward*Determine the ATP yield from the metabolism of one molecule of glucose under the following conditions: a) b) c) in a mammalian muscle cell carrying out anaerobic glycolysis. in Escherichia coli, an aerobic prokaryote in a mammalian brown fat cell, in which electron transport occurs without producing ATParrow_forwardFor the Complex III in the electron transport chain: Complex III step 1: UQH2 is oxidized in a 2 electron process. Cytochrome c is reduced and UQ is reduced to UQH in two 1 electron processes. Complex III step 2: UQH2 is oxidized in a 2 electron process. Cytochrome c is reduced and UQH is reduced to UQH2 in two 1 electron processes. The necessary standard reduction potentials are: UQ + 2H+ + 2e- UQH2 E° = 0.06 V cyt c (Fe3+) + e- cyt c (Fe2+) E° = 0.254 V UQ + H+ + e- UQH. E° = 0.03 V UQH. + H+ + e- UQH2 E° = 0.19 V Calculate the total redox potential of the complex. Now calculate how many moles of protons can be translocated across the inner mitochondrial membrane if translocation of 1 mole requires 23 kJ. Calculate the free energy available for proton translocation assuming a 2electron process for each complex.arrow_forward
- Indicate whether each of the following changes represents oxidation or reduction. Write: O = for oxidation ; R= for reduction Example: cyt ci (Fet) → cyt c1 (Fe2+) Answer: R Blank #1: COQH2 → CoQ Blank #2: NAD+ - NADH Blank #3: FMN → FMNH2 Blank # 4: FADH2 FAD Blank #5: Fe(III) SP → Fe(II) SP Blank # 1 Blank # 2arrow_forwardCalculate the amount of energy a cell could get from methanogenesis (using H2 as an electron donor and CO2 as an acceptor to make CH4) compared to NADH oxidation using oxygen as an electron acceptor. (Remember, the energy values shown in the table will have the opposite +/- sign for the reverse reaction) a) Which one gives more energy? b) How much more?arrow_forwardDescribe the process of oxidative phosphorylation. In your description, include the terms NADH, FADH2, ATP, mitochondria (or mitochondrial), glycolysis, citric acid cycle, electron (or electrons), proton (or protons), and oxygen. Be sure to describe how ATP molecules get produced, and how many ATP molecules are produced per FADH2 and NADH (note; NADH from outside the mitochondria generate a different number of ATP compared to NADH inside the mitochondria; your description should indicate both quantities for full credit.) vas 19llo ton lle vowor 1esbarrow_forward
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