Answer:
The correct answer is - 14 OR 15 ATP.
Explanation:
At the end of the glycolysis, two molecules of the pyruvate produced in the cytoplasm which is followed by the pyruvate oxidation that takes place in the matrix of mitochondria in eukaryotes.
During the oxidation of the pyruvate, a carboxyl group is eliminated from the pyruvate and released as CO₂. Then the two carbon molecules oxidized produced in the first step and NAD+ accepts the electron and change into the NADH. The oxidized two carbon molecules attached to the coenzyme A and form acetyl CoA. This process generates 1 NADH which is equal to the 3 ATP.
During the TCA cycle, each molecule of the acetyl CoA oxidized to generate ATP and carbon dioxide. This cycle produces 1 ATP, 1 FADH2, and 3 NADH. The total ATP production through this cycle is Approximately 12.
Thus, the correct answer is - 14 or 15 ATP.
<span>Homologous
structures are framework where the parts of the body is similar in
structure to different species of common ancestry. The way structures develop in
embryos and the pattern in which they appeared over evolutionary history. In
addition, the evidence of this common ancestry can be seen in the structure and development
of these homologous structures, even if the existence of these structures
adapted to different function as the result from a collective ancestry. </span>
