Which of these molecules associated with electron transport is in the reduced state? Choose from the following: (A) cytochrome a3+++ (b) cytochrome a3++
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Which of these molecules associated with electron transport is in the reduced state?
Choose from the following:
(A) cytochrome a3+++
(b) cytochrome a3++
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- Discuss 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.The phosphorylation of glucose to glucose 1-phosphate requires 5.0 kcal/mol of energy. This unfavorable reaction can be driven by the hydrolysis of ATP to ADP. (a) Write the equation for the coupled reaction. (b) How much energy is released in the coupled reaction? glucose + HPO4---------->2– glucose 1-phosphate + H2OWhile fatty acids longer than 20 carbons are rarely found in foods, lignoceric acid (24:0) is found in a variety of tree nuts. Answer the following based on the conversion of a molecule of lignoceric acid to 8-hydroxybutyrate. (a) What are the 8-oxidation products and how many ATP are required during activation for one molecule of lignoceric acid? (b) Given the following, how many molecules of 8-hydroxybutyrate can be produced? CoA 2 2 CoA NADH NAD+ H+ OH ẞ-hydroxybutyrate (c) Based on the total NADH and FADH2 available after converting lignoceric acid into 8-hydroxybutyrate, what is the maximum yield of ATP that can be produced in the liver? Don't forget to include any ATP required for activation steps.
- When pure reduced cytochrome c is added to carefully prepared mitochondria along with ADP, Pi, antimycin A, and oxygen, the cytochrome c becomes oxidized, and ATP is formed, with a P/O ratio approaching 1.0.(a) Indicate the probable flow of electrons in this system.(b) Why was antimycin A added?(c) What does this experiment tell you about the location of coupling sitesfor oxidative phosphorylation?(d) Write a balanced equation for the overall reaction (including cyt c oxidation and ATP synthesis).(e) Calculate ΔG°′ for the above reaction, using E′0 values from Table 14.1and a ΔG°′ value for ATP hydrolysis of -32.2 kJ/mol.The protein catalase is an enzyme that catalyzes the decomposition of hydrogen peroxide:2 H2O2 (aq) → 2 H2O (l) + O2 (g)and has a Michaelis-Menten constant of 25 × 10-3 mol·dm-3 and a turnover number of 4.0×107s-1.The total enzyme concentration is 0.016×10-6 mol·dm-3 and the initial substrate concentration is4.32×10-6 mol·dm-3 Calculate the maximum reaction rate (????) for this enzyme, and the initial rateof this reaction. Note that catalase has a single active site.Using the glycerol-3-phosphate shuttle, determine how many ATP can be produced from one mole of each of the following compounds on complete oxidation? a.) Mannose b.) Dihydroxyacetone phosphate c.) Citrate d.) Malate e.) Succinate Answers vary between 32 moles, 32 moles, 16 moles, 10 moles, 4 moles, and 2.5 moles
- Using the glycerol-3-phosphate shuttle, determine how many ATP can be produced from one mole of each of the following compounds on complete oxidation?a.) Mannoseb.) Dihydroxyacetone phosphatec.) Citrated.) Malatee.) SuccinateAnswers vary between32 moles, 32 moles, 16 moles, 10 moles, 4 moles, and 2.5 molesEthylene glycol (HO−CH2−CH2−OH) is a major component of antifreeze. In the body, it is first converted to HOOC−CHO (oxoethanoic acid) and then to HOOC−COOH (oxalic acid), which is toxic. What class of enzyme catalyzes both of the reactions of ethylene glycol? The treatment for the ingestion of ethylene glycol is an intravenous solution of ethanol. How might this help prevent toxic levels of oxalic acid in the body?To carefully prepared mitochondria were added succinate, oxidizedcytochrome c, ADP, orthophosphate, and sodium cyanide. Referring toFigure 14.16, answer the following.(a) List the sequence of electron carriers in this system.(b) Write a balanced equation for the overall reaction occurring in thissystem, showing oxidation of the initial electron donor, reduction of thefinal acceptor, and synthesis of ATP.(c) Calculate ΔG°' for the overall reaction. ΔG°' for ATP hydrolysis is-32.2 kJ/mol.(d) Why was cyanide added in this experiment?(e) What would the P/O ratio be if the same experiment were run with addition to the mitochondria of 2,4-dinitrophenol?
- The effect of ATP on the allosteric enzyme PFK-1 is shown below. For a given concentration of fructose 6-phosphate, the PFK-1 activity increases with increasing concentrations of ATP, but a point is reached beyond which increasing the concentration of ATP inhibits the enzyme. (a) Explain how ATP can be both a substrate and an inhibitor of PFK-1. How is the enzyme regulated by ATP? (b) In what ways is glycolysis regulated by ATP levels? (c) The inhibition of PFK-1 by ATP is diminished when the ADP concentration is high, as shown in the illustration. How can this observation be explained? *A graph is included for this question*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+You have been the only one who has been able to this. It has three other parts as well, A) Which Enzyme Catalyzes this reaction? choices are in image provided. B) What is ∆G°' for this reaction? Answer in Joules. K' = 19 C) If the concentration of Glucose-1-phosphate is 48.82 µM at equilibrium, what is the concentration of Glucose-6-phosphate in µM? D) If the reaction is not at equilibrium, what is ∆G' at 25°C if the concentration of Glucose-1-phosphate is 15.04µM and the concentration of Glucose-6-phosphate is 1.62 mM? Answer in Joules. Pay attention to units. Round to the correct number of significant figures. There are 103 µM in 1mM. Thank you and you are the winner for Genius of the day!!