Where does oxidative phosphorylation occur in prokaryotic cells?
In prokaryotic cells, oxidative phosphorylation can occur wherever a cytoplasmic membrane is present. This allows the cell to harness the energy stored in a chemical gradient across the membrane (ATP, ADP, or AMP), which are produced by the oxidative phosphorylation of glucose or other sugars.
Where does oxidative phosphorylation occur in prokaryotic organisms?
There are a few prokaryotic species in which oxidative phosphorylation does occur. These bacteria use two respiratory chains: one that utilizes aerobic respiration and one that utilizes anaerobic respiration.
What is the location of
The location of oxidative phosphorylation in bacteria varies depending on the species. In some species, oxidative phosphorylation occurs in the inner membrane. In others, it occurs in the periplasm. Even within species, the location of the oxidative phosphorylation machinery can vary. For example, in Bacillus subtilis, the genes for the oxidative phosphorylation machinery are located in the cytoplasm rather than the cell wall.
How does oxidative phosphorylation occur in cells?
Of the three major metabolic pathways, oxidative phosphorylation is the one that is most similar to the way it works in your muscles. Just as you use energy from food to move around your muscles, cells use chemical energy to move around the body. In both cases, this energy is created from food molecules. For example, in your muscles, your food is broken down into simple sugars and fatty acids. These substances are then used by your muscles to generate energy for the contraction and movement of your muscles
What are the steps of oxidative phosphorylation in prokaryotic cells?
In order to produce adenosine triphosphate (ATP), oxidative phosphorylation involves a series of chemical reactions. A prokaryotic cell to produce ATP in a single step would need to have four independent enzymes working together to accomplish this rather complex process. Instead, the most efficient way to accomplish the generation of ATP is to have a single enzyme that can harness energy from the chemical gradient that exists across a membrane. A prokaryotic cell accomplishes this using oxidative phosphory