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Respiratory enzymes

2. Krebs cycle:

Krebs cycle takes place in two stages:

Stage 1:

Each molecule of the two pyruvic acid molecules (3-carbon) is oxidized in the presence of Co-enzyme-A into acetyl Co-A (2-carbon) that join Krebs cycle. In this reaction:

- Two molecules of NADH + H+ are produced.

- Two molecules of CO2 are produced.

2NAD+ 2NADH + H+

2 Pyruvic acid + 2 Co-A 2 Acetyl Co-A + 2 CO2

(3-carbon) (2-carbon)

N.B: Acetyl groups from breaking down fat molecules or protein molecules can combine with Co-A to join Krebs cycle.

Stage 2:

Each molecule of Acetyl Co-A joins Krebs cycle where its Co-A splits off to repeat its role. At the same time, Acetyl group (2-carbon) combines with Oxaloacetic acid (4-carbon) to form Citric acid (6-carbon):

Acetyl Co-A + Oxaloacetic acid Citric acid + Co-A

(2-carbon) (4-carbon) (6-carbon)

Citric acid passes through three intermediate compounds to form Oxaloacetic acid once more. These compounds are:

- Ketoglutaric acid (5-carbon)

- Succinic acid (4-carbon)

- Malic acid (4-carbon)

Krebs cycle is also called Citric acid cycle, because Citric acid (6-carbon) is the first compound formed during this cycle due to the combination of Acetyl Co-A (2-carbon) with Oxaloacetic acid (4-carbon) to form Citric acid (6-carbon).

Oxidation during Krebs cycle doesn’t need Oxygen, since all electrons and protons are removed from the carbon skeleton during oxidation of carbon atoms and received by NAD+ and FAD that are reduced into NADH + H+ and FADH2

In the pathway of Krebs cycle:

- 2 molecules of CO2 are released.

- 1 molecule of ATP is produced.

- 3 molecules of NADH + H+ are produced.

- 1 molecule of FADH2 are produced.

Krebs cycle is repeated twice for each glucose molecule.

3. Electron transport chain:

At the end of Krebs cycle, Hydrogen with high-energy electrons carried by NADH + H+ and FADH2 are transported by a sequence of Co-enzymes called cytochromes (electron carriers) present at the inner membrane of the mitochondria. These cytochromes carry electrons at different energy levels. These high-energy electrons are passed from one cytochrome to another, and at the same time they descend from higher energy levels to lower ones. During this, energy is released to form ATP from ADP + A phosphate group. This process is called Oxidative phosphorylation:

ADP + P + Energy ATP

Oxygen is considered the last receptor of Hydrogen in the electron transport chain, where the two electrons combine with the two protons and one Oxygen atom to form a water molecule. As follows:

2 e- + 2 H+ + ½ O2 H2O

In the electron transport chain:

Each NADH + H+ molecule releases energy enough to form 3 ATP molecules. While each FADH2 molecule releases energy enough to form 2 ATP.

Accordingly, during aerobic respiration, each molecule of glucose produces 38 ATP molecules, two of which are produced in the cytoplasm of the cell during glycolysis, and 36 ATP molecules are produced inside the mitochondria (the respiratory stage).



Anaerobic respiration:

When Oxygen is missing or in low quantity, living organisms as Bacteria and Fungi respire by anaerobic respiration. Some plant and animal cells may also respire anaerobically when Oxygen is not available. This is also called fermentation, and it doesn’t need Oxygen, but it takes place in the presence of some special enzymes.

Anaerobic respiration begins with the same beginning of the aerobic respiration. The Glucose molecule is decomposed into two molecules of pyruvic acid, with the formation of two molecules of NADH + H+ and a small quantity of energy (2 ATP molecules)

Pyruvic acid is converted according to the type of the cell in which it was formed:

- In case of animal cells, especially muscle fibers, when the muscles exert vigorous efforts or exercises, they consume most of the Oxygen in their cells and tended to convert Pyruvic acid into Lactic acid after its reduction by combining with Hydrogen on NADH + H+


Date: 2015-12-11; view: 866


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That takes place in the non organ part of the cytoplasm (cytosole) of the cell. | This is known as Muscular Fatigue. If Oxygen is available, Lactic acid is converted into Pyruvic acid again and then into Acetyl Co-A.
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