The formation of acetyl-CoA from acetate is an ATP-driven reaction:Acetate + ATP + CoAAcetyl CoA + AMP + PP₁Calculate AG" for this reaction given that the AG' for the hydrolysis of acetyl CoA to acetate and CoA is −31.4 kJ mol-¹(−7.5 kcal mol¯¹) and that the AG°' for hydrolysis of ATP to AMP and PP; is -45.6 kJ mol-¹ (−10.9 kcal mol−¹ ).AG°reaction=AGO!iThe PP, formed in the preceding reaction is rapidly hydrolyzed in vivo because of the ubiquity of inorganic pyrophosphatase.The AG" for the hydrolysis of pyrophosphate (PP;) is −19.2 KJ mol-¹ (-4.665 kcal mol-¹). Calculate the AGº' for the overallreaction, including pyrophosphate hydrolysis.reaction with PP, hydrolysis=What effect does the presence of pyrophosphatase have on the formation of acetyl CoA?kJ mol-¹It does not affect the overall reaction.It brings the overall reaction closer to equilibrium.It makes the overall reaction even more exergonic.It makes the overall reaction even more endergonic.kJ mol-¹-1

A reaction with a negative Delta G value is thermodynamically favorable and occurs spontaneously.The…

The formation of acetyl-CoA from acetate is an ATP-driven reaction: Acetate + ATP + CoA Acetyl CoA + AMP + PP₁ Calculate AG" for this reaction given that the AG" for the hydrolysis of acetyl CoA to acetate and CoA is −31.4 kJ mol-¹ (-7.5 kcal mol-¹) and that the AGº' for hydrolysis of ATP to AMP and PP; is -45.6 kJ mol-¹ (−10.9 kcal mol¯¹). AGO! reaction = kJ mol-¹

The formation of acetyl-CoA from acetate is an ATP-driven reaction: Acetate + ATP + CoA Acetyl CoA + AMP + PP₁ Calculate AG" for this reaction given that the AG" for the hydrolysis of acetyl CoA to acetate and CoA is −31.4 kJ mol-¹ (-7.5 kcal mol-¹) and that the AGº' for hydrolysis of ATP to AMP and PP; is -45.6 kJ mol-¹ (−10.9 kcal mol¯¹). AGO! reaction = kJ mol-¹

Biochemistry

6th Edition

ISBN:9781305577206

Author:Reginald H. Garrett, Charles M. Grisham

Publisher:Reginald H. Garrett, Charles M. Grisham

Chapter19: The Tricarboxylic Acid Cycle

Section: Chapter Questions

Problem 21P: Complete oxidation of a 16-carbon fatty acid can yield 129 molecules of ATP Study Figure 19.2 and...

See similar textbooks

Similar questions

Complete oxidation of a 16-carbon fatty acid can yield 129 molecules of ATP Study Figure 19.2 and determine how many ATP molecules would be generated if a 16-carbon fatly acid were metabolized solely by the TCA cycle, in the form of S acetyl-CoA molecules.
The synthesis of the activated form of acetate (acetyl-CoA) is carried out in an ATP-dependent process: Acetate + CoA + ATP → acetyl-CoA + AMP + PPi (a) The ∆G’o for the hydrolysis of acetyl-CoA to acetate and CoA is - 32.2 kJ/mol and that for hydrolysis of ATP to AMP and PPi is - 30.5 kJ/mol. Calculate ∆G’o for the ATP-dependent synthesis of acetyl-CoA. (b) Almost all cells contain the enzyme inorganic pyrophosphatase, which catalyzes the hydrolysis of PPi to Pi. What effect does the presence of this enzyme have on the synthesis of acetyl-CoA? Explain.
Synthesis of the activated form of acetate (acetyl-CoA) is carried out in an ATP-dependent process:(a) The ΔG′° for hydrolysis of acetyl-CoA to acetate and CoA is −32.2 kJ/mol and that for hydrolysis of ATP to AMP and PPi is −30.5 kJ/mol. Calculate ΔG′° for the ATPdependent synthesis of acetyl-CoA.(b) Almost all cells contain the enzyme inorganic pyrophosphatase, which catalyzes the hydrolysis of PPi to Pi. What effect does the presence of this enzyme have on the synthesis of acetyl-CoA? Explain.
In the complete b-oxidation of stearic acid (18:0), a) how many moles of acetyl CoA are produced? b) how many times would the fatty acid pass through the fatty acid spiral for complete oxidation? c) what is the total ATP produced in the citric acid cycle? d) how many moles of NADH are produced? e) how many moles of FADH2 are produced? f) how many moles of ATP are produced after all NADH are reoxidized in the respiratory chain? g) how many moles of ATP are produced after all FADH2 are reoxidized in the respiratory chain? h) how many moles of ATP are produced from the complete oxidation of stearic acid?
In the complete b-oxidation of stearic acid (18:0), a)how many moles of acetyl CoA are produced? ________ b)how many times would the fatty acid pass through the fatty acid spiral for complete oxidation? ________ c)what is the total ATP produced in the citric acid cycle? ________ d)how many moles of NADH are produced? ________ e)how many moles of FADH2 are produced? ________ f)how many moles of ATP are produced after all NADH are reoxidized in the respiratory chain? ________ g)how many moles of ATP are produced after all FADH2 are…
How many acetyl CoA molecules are produced in one cycle of beta oxidation? How many cycles would it take to catabolize a stearic acid molecule (a fatty acid, [18:0]) into acetyl Co A units? a)How many acetyl CoA molecules would be produced? b) How many reduced nucleotides would be produced? c) If a molecule of glucose produces a net 32 ATP when completely catabolized, which do you think will produce more energy, one molecule of glucose or one molecule of stearic acid? Justify your answer.
What is unique about how acetyl-CoA carboxylase 1 is regulated compared to any enzyme in glycolysis? Some phospholipid species can be phosphorylated beyond the phosphate attached to the #3 carbon. Describe the likely structure of such a phospholipid. Would the mass / charge (m/z) ratio of this molecular increase or decrease upon modification? Mechanistically, how does NADPH facilitate the removal of an oxygen atom from intermediates in fatty acid synthesis? Will a phosphatidylcholine or a phosphatidylethanolamine have a larger mass / charge (m/z) ratio?
Consider the docosanoic acid, C21H43CO2H a. Label the a and B carbons b. Draw the acyl CoA derived from this fatty acid c. How many acetyl CoA molecules are formed by complete B-oxidation? d. How many cycles of B-oxidation are needed for complete oxidation? e. How many molecules of ATP are formed from the complete catabolism of this fatty acid?
Anabolic reactions like fatty acid synthesis are inherently endergonic and require exergonic driving forces to proceed forward. Which of the following statements correctly describes the thermodynamics at play in the substrate activation step of fatty acid synthesis and the importance of this step in downstream elongation of the fatty acid chain? (A) Acetyl CoA carboxylase (ACC1) provides free energy that powers the carboxylation of acetyl CoA to form malonyl CoA.(B) The formation of malonyl CoA is powered by the exergonic carboxylation of acetyl CoA.(C) The formation of a b-ketoacyl ACP in the first step of fatty acid synthesis is driven forward because b-ketoacyl synthase hydrolyzes ATP. (D) The addition of two carbons to the growing fatty acid chain is powered by malonyl ACP decarboxylation.(E) Decarboxylation of malonyl ACP is exergonic and the free energy that is released is coupled to ATP synthesis.
If oxidation of acetyl-CoA yields 10 ATPs per mole through the citric acidcycle, how many ATPs will be derived from the complete metabolic oxidation of 1 mole of alanine in a mammal? Would the corresponding energyyield in a fish be higher or lower? Why? How much energy would bederived from the metabolic oxidation of 1 mole of isoleucine to CO2, H2O,and NH3? Of tyrosine?
The pyruvate dehydrogenase complex catalyzes the oxidative decarboxylation of pyruvate to form acetyl‑CoA. E1E1 , E2E2 , and E3E3 are abbreviations for the enzymes of the complex. Classify the enzyme names, prosthetic groups, and reactions as E1E1 , E2E2 , or E3E3 .
Write a balanced equation for the conversion in the glyoxylate cycle of twoacetyl units, as acetyl-CoA, to oxaloacetate.