Does glycolysis only occur in animal cells?
Yes, to a large extent, that is true. glycolysis is the process in which glucose is broken down to form energy in the form of adenosine triphosphate (ATP) which is required in all cells for energy production. Glycolysis occurs in all aerobic organisms that use oxygen, including plants, animals, fungi, and bacteria. The major difference between animal and plant cells is that animal cells use the products of glycolysis for energy production while plant
Does glycolysis only occur in animals?
Yes, the process of glycolysis occurs in all living cells. However, several processes involved are not present in plants and fungi. For instance, these organisms do not form lysosomes, which are involved in the breakdown of macromolecules like proteins. Post-translational modifications are also not present in plants and fungi.
Does glycolysis happen in plant cells?
Yes, plant cells do metabolize glucose via the glycolytic pathway. However, plant cells do not use the aerobic pathway for energy production. Instead, they use a type of oxidative phosphorylation called the tricarboxylic acid (TCA) cycle. This pathway involves transferring electrons from one to the next, similar to the respiratory system in animal cells.
Can animal glycolysis only occur in animals?
Even though all aerobic organisms use the same pathway to metabolize glucose, two different kinds of cells use this pathway. In animal cells, glycolysis is a quick way to break down glucose, and it allows for fast energy production. Plant cells, on the other hand, use the stored energy in the form of sugar to power their growth. Although animal and plant cells use different pathways for metabolizing glucose, they both use the same pathway for aerobic respiration. The glycolysis that
Does animal glycolysis only occur in animals?
The answer is no. There is a large diversity of prokaryotes, single-celled organisms without a nucleus, including bacteria, archaea, and fungi. Some species use aerobic respiration as their primary energy source, while many others use anaerobic respiration. Eukaryotes also can use both aerobic and anaerobic respiration. Some fungi can use oxidative phosphorylation through the use of mitochondria.