The part of cellular respiration that produces the most ATP is oxidative phosphorylation, which occurs in the mitochondria. This process includes the electron transport chain and chemiosmosis, where electrons are transferred through a series of proteins, ultimately leading to the production of ATP via ATP synthase. It can generate approximately 26 to 28 ATP molecules per glucose molecule, making it the most efficient stage compared to glycolysis and the citric acid cycle.
This part of cellular respiration is called Glycolysis.
cellular respiration
the initial part of cellular respiration, that is glycolysis, occur in cytoplasm. the remaining part of cellular respiration takes place in mitochondria.
Cellular respiration takes place within the mitochondria.
The part of cellular respiration that provides energy for activities like running is the process of aerobic respiration, specifically during the Krebs cycle and oxidative phosphorylation. In these stages, glucose is broken down with the help of oxygen to produce adenosine triphosphate (ATP), which is the primary energy currency of the cell. The ATP generated fuels muscle contractions and other cellular processes necessary for sustained physical activity.
This part of cellular respiration is called Glycolysis.
This part of cellular respiration is called Glycolysis.
Yes, True, yet in reverse: Cellular respiration is a small part of Cellular and Organismic Metabolism.
While photosynthesis requires carbon dioxide and releases oxygen, cellular respiration requires oxygen and releases carbon dioxide. It is the released oxygen that is used by us and most other organisms for cellular respiration.
cellular respiration
No,it has no role in cellular respiration.But it takes part in photo respiration.
Glycolysis is the first part of respiration in the cytoplasm.
Cellular respiration
the initial part of cellular respiration, that is glycolysis, occur in cytoplasm. the remaining part of cellular respiration takes place in mitochondria.
Ya, it is the second stage in respiration.
in cytoplasm
YES,