Where does glycolysis occur in animal cells' cytosol?
glycolysis takes place in the cytosol of animal cells. This is where most of the cell's internal processes occur. A key enzyme in glycolysis is hexokinase, which catalyzes the first reaction of the process. This reaction is crucial to start the pathway, because it produces glucose-6-phosphate. Also, the other three reactions of the pathway are all catalyzed by other enzymes.
Where does glycolysis occur in animal cells?
glycolysis takes place inside the cytosol, the inside of the cell. Smaller and simpler animal cells, such as those that make up bacteria or yeast, can carry out glycolysis inside their cytosol. However, larger animal cells, and especially those with a nucleus, cannot do so. Glycolysis in the cytosol is needed to provide energy for the cell to function, and the energy is used for processes such as cell division.
Where is glycolysis occurring in animal cells?
Most animal cells have a single location for the site of glycolysis: the cytosol. This is the fluid inside the cell that contains the cell’s contents. The cytosol is a unique environment in that it does not contain the cell’s organelles, such as the nucleus, mitochondria, or endoplasmic reticulum. Thus, the cytosol is relatively less crowded with material than the cell’s organelles.
Is glycolysis occurring in animal cell mitochondria?
Yes. This is especially true in highly aerobic organisms. If you focus on the aerobic, oxidative part of the cell, another organelle you might want to consider is the mitochondria. One reason is that the Krebs cycle metabolizes fatty acids and sugars into energy in the form of ATP, and the final product of the Krebs cycle is NADH. The production of NADH is essential for the energy produced in your cells. The other reason is that animal cell mitochondria are the powerhouses
Where does glycolysis occur in animal cell mitochondria?
In animal cells, the glycolysis pathway is compartmentalized: The first three steps occur in the cytosol, whereas the last two are catalyzed by the enzymes embedded in the mitochondrial inner membrane. The reaction products of the first three steps are then transported from the cytosol to the mitochondria, where the end-product pyruvate is further metabolized to generate energy. Without the compartmentalization of the pathway, it would not be possible for the cells to have