Organic Chemistry

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Oxaloacetate

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Organic Chemistry

Definition

Oxaloacetate is a key intermediate in several important metabolic pathways, including the citric acid cycle, gluconeogenesis, and the regulation of enzyme activity through citrate synthase. As a 4-carbon dicarboxylic acid, oxaloacetate plays a central role in energy production and biosynthesis within the cell.

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5 Must Know Facts For Your Next Test

  1. Oxaloacetate is a key substrate in the citric acid cycle, where it condenses with acetyl-CoA to form citrate, the first step in the cycle.
  2. The enzyme citrate synthase catalyzes the reaction between oxaloacetate and acetyl-CoA to produce citrate, regulating the entry of acetyl-CoA into the citric acid cycle.
  3. In gluconeogenesis, oxaloacetate can be converted to phosphoenolpyruvate, a key intermediate in the synthesis of glucose from non-carbohydrate precursors.
  4. Oxaloacetate levels are tightly regulated in the cell, as its concentration can influence the activity of citrate synthase and the overall flux through the citric acid cycle.
  5. The reversible conversion of oxaloacetate to malate and back is an important anaplerotic reaction, replenishing intermediates in the citric acid cycle.

Review Questions

  • Explain the role of oxaloacetate in the citric acid cycle and its regulation by citrate synthase.
    • Oxaloacetate is a key substrate in the citric acid cycle, where it condenses with acetyl-CoA to form citrate, the first step in the cycle. The enzyme citrate synthase catalyzes this reaction, regulating the entry of acetyl-CoA into the citric acid cycle. The concentration of oxaloacetate can influence the activity of citrate synthase, thereby modulating the overall flux through the citric acid cycle and energy production within the cell.
  • Describe how oxaloacetate is involved in the process of gluconeogenesis.
    • In the process of gluconeogenesis, oxaloacetate can be converted to phosphoenolpyruvate, a key intermediate in the synthesis of glucose from non-carbohydrate precursors. This conversion allows the cell to utilize oxaloacetate, a citric acid cycle intermediate, as a substrate for the production of glucose, which can then be used to meet the cell's energy demands or stored for future use.
  • Analyze the reversible conversion of oxaloacetate to malate and its significance in the citric acid cycle.
    • The reversible conversion of oxaloacetate to malate and back is an important anaplerotic reaction in the citric acid cycle. This reaction helps to replenish intermediates in the cycle, ensuring a continuous supply of substrates for the cycle to operate efficiently. The interconversion of oxaloacetate and malate also allows for the regulation of the cycle's activity, as the relative concentrations of these metabolites can influence the overall flux through the pathway and the production of ATP and reducing equivalents within the cell.
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