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Chapter 17: Q8P (page 586)

Does the pyruvate-formatelyase reaction described in Problem 7 lead to the production of ATP, as pyruvate processing to acetyl-CoA does?

Short Answer

Expert verified

Answer

The pyruvate-formatelysase reaction does not produce ATP.

Step by step solution

01

Acetyl CoA

  • Acetyl CoA is formed by the enzymes pyruvate-formatelyase and pyruvate dehydrogenase.
  • It enters as a substrate into the citric acid cycle to produce energy during aerobic respiration.
02

Explanation

Pyruvate derived from glycolysis undergoes oxidative decarboxylation to create acetyl-CoA, releasing CO2 and forming NADH in the process. Pyruvate dehydrogenase catalyzes this process. This is a redox reaction. The proton from NADH then travels to the electron transport chain, where it is used to make ATP.

The conversion of pyruvate to acetyl CoA in photosynthetic organisms is more complex. Instead of pyruvate dehydrogenase, they use pyruvate-formatelyase.

Pyruvate + HSCoAacetyl - CoA + formate

Formate is generated in this reaction, but not CO2 . There is no NADH generated in this reaction because this is not a redox reaction. Thus, no ATP is produced as a result of this reaction.

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Most popular questions from this chapter

Malonate competes with succinate in the succinate dehydrogenase reaction. Explain why increasing the oxaloacetate concentration can overcome malonate inhibition.

Some human brain cancer cells contain a mutated form of isocitrate dehydrogenase that has lost its normal activity and instead catalyzes the NADP+-dependent reduction of the carbonyl group of α-ketoglutarate. Draw the structure of the reaction product.

The compound you identified in Problem 9 resembles glutamate and might therefore competitively inhibit glutamate transamination. How would this affect citric acid cycle activity?

What citric acid cycle intermediates would accumulate in the presence of malonate?

Photosynthetic organisms use elaborate machinery to incorporate carbon (as CO2) into glyceraldehyde-3-phosphate, which is used to synthesize glucose for later metabolism. However, one carbon is lost following glycolysis when the three-carbon pyruvate is converted to acetyl-CoA. The bacterial enzyme pyruvate-formate lyase (also known as formate C-acetyltransferase) catalyzes the reaction

Pyruvate+HSCoAacetyl-CoA+formate

How does this reaction help the cell avoid losing carbon?
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