Where does the citric acid cycle take place in the cell Quizlet?
As it was mentioned before, the citric acid cycle is a process that takes place in the mitochondria These organelles are involved in energy production. The citric acid cycle is a pathway that is responsible for the oxidation of acetyl-CoA (a metabolite obtained from fatty acids, glucose, and amino acids) to carbon dioxide (CO2).
Where does the citric acid cycle take place in the human cell Quizlet?
The citric acid cycle is responsible for the breakdown of glucose into carbon dioxide and water, which is the first step in the production of energy in the form of atp The citric acid cycle is located in the mitochondrial matrix, which is a part of the cell’s powerhouse, the mitochondria.
Where does the citric acid cycle take place in the mitochondria Quizlet?
The citric acid cycle takes place in the mitochondria. This small organelle, with its own DNA, is the powerhouse for your cell. It produces the chemical energy needed to fuel the cell’s metabolic activities. Like the cell, the mitochondria has its own circular DNA. However, the mitochondrial genome does not encode all of the proteins the cell needs. Instead, the cell’s protein-coding genes are found in the nucleus.
Where does the citric acid cycle take place in the body Quizlet?
The citric acid cycle takes place in the mitochondria of a cell. Mitochondria are the power plants of a cell. They burn food to produce energy. The citric acid cycle produces three reaction products. These reaction products are used by the cell to make important compounds.
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A good working example of where the citric acid cycle takes place in the cell is the mitochondria. The mitochondria is a kind of energy storage and production center within the cell that converts nutrients into energy. The citric acid cycle is responsible for the breakdown of glucose, the simplest form of sugar, and the transfer of the electrons that result from this breakdown into the electron transport chain. This allows the cell to use the energy created by the oxidation of glucose to produce adenosine triphosph