Study Guide for Campbell Biology
11th Edition
ISBN: 9780134443775
Author: Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece, Martha R. Taylor, Michael A. Pollock
Publisher: PEARSON
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Chapter 9, Problem 2SYK
Summary Introduction
To create: A concept map of oxidative phosphorylation.
Introduction:
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Students have asked these similar questions
Consider ten glucose molecules that enter a cell. How many ATP can be generated by the complete catabolism of these into CO2 and H2O? If all ten are first incorporated into glycogen, liberated from glycogen, and then fully catabolized into CO2 and H2O, does the ATP tally increase, decrease or stay the same? Consider that 1 UTP = 1 ATP. Explain. Describe the processes which produce ATP and provide a balanced equation of glucose, CO2, H2O and O2
Briefly, outline the process of the oxidative phosphorylation
Review your understanding of glycolysis, the Krebs cycle, and oxidative phosphorylation by classifying each characteristic below
according to its pathway for cellular energy transfer.
Enzyme location: Mitochondrial
matrix
Final product: Pyruvate (under
aerobic conditions)
Entering substrates: Acetyl
coenzyme A and some amino acid
intermediates
ATP production: 3 ATP from each
NADH + H+ and 2 ATP from each
FADH2
Entering substrates: glucose and
other monosaccharides
Final product 2 CO2 for each
acetyl coenzyme A
Final product: Intermediates used
for amino acid/organic molecule
synthesis
Enzyme location: Cytosol
Coenzyme production: 3 NADH +
3H- and 1 FADH2
Coenzyme production: 2 NADH +
2 H (under aerobic conditions)
ATP production: 2 per glucose
molecule
ATP production: 1 GTP formed
directly can be converted to ATP
Entering substrates Hydrogen
ions and molecular oxygen
Final product H2O - one molecule
for each pair of hydrogen ions
Enzyme location: Inner
mitochondrial membrane
Final…
Chapter 9 Solutions
Study Guide for Campbell Biology
Ch. 9 - Fill in the following summary equation for...Ch. 9 - Fill in the appropriate terms in the following...Ch. 9 - a. In the conversion of glucose and O2 to CO2 and...Ch. 9 - a. NAD+ is called a(n) ____________________. b....Ch. 9 - Fill in the three stages of cellular respiration...Ch. 9 - Fill in the blanks in the following summary...Ch. 9 - Fill in the blanks in the following diagram of the...Ch. 9 - Label the following diagram of oxidative...Ch. 9 - Fill in the following tally for the maximum ATP...Ch. 9 - How much more ATP can be generated by aerobic...
Ch. 9 - This chapter describes how catabolic pathways...Ch. 9 - Prob. 2SYKCh. 9 - Fill in the following table to summarize...Ch. 9 - When electrons move closer to a more...Ch. 9 - In the reaction C6H12O6 + 6 O2 6 CO2 + 6 H2O, a....Ch. 9 - In which of the following conversions is the first...Ch. 9 - Some prokaryotes use anaerobic respiration, a...Ch. 9 - Which of the following reactions is incorrectly...Ch. 9 - In which organelle of a plant cell does the citric...Ch. 9 - Which of the following compounds produces the most...Ch. 9 - Aerobic eukaryotes produce CO2 as a by-product...Ch. 9 - Which of the following statements correctly...Ch. 9 - In the electron transport system, H+ ions are...Ch. 9 - When glucose is oxidized to CO2 and water,...Ch. 9 - The energy required for the chemiosmotic synthesis...Ch. 9 - Which of the following statements correctly...Ch. 9 - The citric acid cycle is best described as a. the...Ch. 9 - Fermentation produces less ATP than cellular...Ch. 9 - If muscle cells do not receive enough oxygen from...Ch. 9 - Glucose made from six radioactively labeled carbon...Ch. 9 - Glycolysis is considered one of the first...Ch. 9 - Which of the following substances produces the...Ch. 9 - Fats and proteins can be used as fuel in the cell...Ch. 9 - Which of the following statements is false...Ch. 9 - Brown fat, which is found in newborn infants and...
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Similar questions
- Briefly outline the electron flow in oxidative phosphorylation to describe how its function is directly coupled to ATP synthesis. Be sure to include where the electrons that feed into oxidative phosphorylation come from in your answer.arrow_forwardArrange the sequence of events in Oxidative Phosphorylation. (1-5) As the H+ ions move through the ATP synthase it'll provide the power to make the ATP synthase to turn. As it turns, a phosphate group is added to an ADP, forming a proton gradient-energy as ATP. With the help of a channel protein called ATP synthase, these H* ions are transferred back to the matrix. The electrons are passed to another electron carrier called cytochrome C (cyt C), which carries the = electrons to enzyme complex IV. Here, the last batch of H* ions are pumped into the intermembrane space. Enzyme complexes I and Il then transport the electrons through ubiquinone (Q), a mobile electron carrier. Q is reduced to QH, in the process and delivers the electrons to enzyme complex III. As this happens, more H* ions are pumped into the intermembrane space. The NADH and FADH2 produced from the previous stages of cellular respiration bring electrons across the transport chain to initiate the oxidative phosphorylation.arrow_forwardBriefly describe the role of uncouplers in oxidative phosphorylation.arrow_forward
- Explain why some of the molecules are positioned away from the diagonal in the graph given below. What kind of processes are involved in this phenomenon? Moreover, explain differences and similarities between H-ATPases and H-PPases.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_forwardPlease answer this question in detail because I don't understand it. Thank you. Which of the following best describes the role of chemiosmosis in oxidative phosphorylation? (A) Chemiosmosis is the movement of electrons down their electrochemical gradient, which generates energy in the electron transport chain. (B) Chemiosmosis is the chemical breakdown of ATP into ADP and inorganic phosphate. (C) Chemiosmosis is the movement of chemicals dissolved in water down their concentration gradient, across the mitochondrial membrane. (D) Chemiosmosis is the chemical breakdown of water into hydrogen and oxygen ions at the final stage of the electron transport chain. (E) Chemiosmosis is the movement of ions down their electrochemical gradient, which generates ATP.arrow_forward
- Which of the following is the best definition of oxidative phosphorylation? Question 4 options: A) Electrons are passed through a series of carriers to O2 B) A proton gradient allows hydrogen ions to flow back into the cells through transmembrane protein channels, releasing energy that is used to generate ATP C) ATP is directly transferred from a substrate to ADP D) Electrons are passed through a series of carriers to an organic compoundarrow_forwardDCCD (diocyclohexylcarbodiimide) inhibits oxidative phosphorylation when the substrate is mitochondrial NADH. DCCD is a drug that binds to ATP synthase and blocks proton transport through the ion channel. a) Explain what the consequences of DCCD on cellular energy production are. b) Suggest at least one other cellular effect of DCCD and explain this effect.arrow_forwardSonicating a suspension of mitochondria produces submitochondrial particles derived from the innermitochondrial membrane. These membranous vesicles seal inside out, so that the intermembrane space of themitochondria becomes the lumen of the submitochondrial particle. Explain (or diagram) the process of electrontransfer and oxidative phosphorylation in these particles. Assuming all the substrates for oxidativephosphorylation are present in excess, does ATP synthesis increase or decrease with an increase in the pH ofthe fluid in which the submitochondrial particles are suspended? Why?arrow_forward
- Describe the phosphoenolpyruvate: sugar phosphotransferase systemarrow_forwardexplain why oxidative phosphorylation is an emergent property of the mitochondriaarrow_forwardExplain the role that proton (H+) movement plays in chemiosmotic ATP generation during oxidative phosphorylation (“oxphos”) in aerobic cellular respiration. Include in your answer a description of the process (i.e., where H+ are originally, where they accumulate, etc). You don't need to name all of the members of the transport chain.arrow_forward
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