Explain the electron transport chain & ATP synthase, and point out active (require energy) and passive (no energy input required) processes. Use a simple drawing to illustrate your explanation
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Explain the electron transport chain & ATP synthase, and point out active (require
energy) and passive (no energy input required) processes. Use a simple drawing to
illustrate your explanation.
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- Briefly explain how ATP synthase produces ATP by describing how the three conformations work (loose, tight, open)a.Write the balanced reactions catalyzed by complex I, II, III, and 1V, and using these, write the balanced net reaction for the electron transport chain. Structures are not necessary. b. Write the balanced reaction for the ATP synthase reaction. c. Write the net reaction for Oxidative phosphorylation showing the ATP produced from NADH oxidation and FADH2 oxidation. (this is in your text) d. Write the balanced reaction for ATP production by aerobic metabolism starting with glucose.Explain briefly (in less than 100 words) how ATP synthase works. Show and explain the structure and function of and the difference between the two protein domains (Fo and F1) of the enzyme.
- a. Draw the ATP cycle, Label ATP, ADP + P, energy in from photosynthesis/respiration, energy out for work b. Draw a rough sketch of an ATP and label the phosphates, the sugar and the base. Guide Questions: 1 What is the importance of the formation of ATP? 2. How does the ATP-ADP cycle provide energy for the cell? 3 Why is the ATP-ADP cycle important to living things?Briefly Explain the mechanistic details behind how ATP is synthase makes ATP, making sure to cover why making ATP this way is referred to as "Oxidative phosphorylation"First find and label ATP Synthase on the diagram below. Make boxes and add the labels for ATP, ADP, and Pi. Use an arrow indicating ATP being made by the right part of the synthase. This diagram also shows the mitochondrial electron transport chain. Work with your team to add the following labels Complexes l-IV Intermembrane space 02 FADH2 FAD H20 NAD+ Matrix NADH Path of electrons Protons Figure 7.10b Biology: How Life Works, Second Edition © 2016 Macmillan Education
- Stearic acid is an 18-carbon fatty acid. If a single molecular of stearic acid is within the cytosol of the cells: Describe the process by which stearic acid would be metabolised, beginning the molecule in the cytosol of the cell, ending with the creation of ATP, and assuming the cell has sufficient oxygen for all reactions to take place Showing all working, calculate how many ATP molecules could be generated from a single molecule of stearic acid in the cytosol of the cellUsing the answer code on the right, indicate which form of energy production is being described: 1. takes place in the mitochondrial matrix 2. produces H2O as a by-product 3. results in a rich yield of ATP 4. takes place in the cytosol 5. processes acetyl-CoA 6. takes place in the mitochondrial innermembrane cristae 7. converts glucose into two pyruvate molecules 8. uses molecular oxygen 9. accomplished by the electron transport system and ATP synthase (a) glycolysis (b) citric acid cycle (c) oxidative phosphorylationFor each of the statements below, indicate whether they are true or false and then in detail explain why the false statements are incorrect, making reference to the relevant cell processes and/or molecules. A. In cellular respiration the ETC transfers electrons via redox reactions whereas in photosynthesis the ETC transfers electrons using light. B. In cellular respiration the ETC creates a proton gradient with the higher concentration on the outer side of the inner membrane whereas in photosynthesis the ETC creates a proton gradient with the higher concentration on the inner side of the thylakoid membrane. C. In cellular respiration the ETC gradient is used to power ATP production by oxidative phosphorylation whereas in photosynthesis the ETC gradient is used to power ATP production by substrate level phosphorylation.
- 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.Complete the Metabolic process of the concept map provided below and base your answer based on these provided choices: Choices: cytoplasm, ATP synthase, electron, NADH, acetyl-CoA, hydrogen ions, anaerobic respiration, oxaloacetate, oxygen, citrate, TCA Cycle, 2 ATP, aerobic respiration, 6 NADH, ATP, water, sulfate, hydrogen sulfide, mitochondrial matrix, 2FADH2, pyruvate, ethanol(c) Compare the differences between oxidative phosphorylation and photophosphorylation by redrawing (if necessary) and completing the table given below: Table 1: Comparison of oxidative phosphorylation and photophosphorylation Oxidative phosphorylation Photophosphorylation Organelle Source of electrons Final electron acceptor Source of energy Role of ATP