Two carbon dioxide molecules formed in the conversion of pyruvic acid to acetyl-CoA True, but you also gain 2 ATP's in the Krebs cycle, but you get the most ATP at the electron transport chain, which generates around 34 ATP (4 are substrate level phosphorylation, meaning they are created right then, and 34 are oxidative level phohosphorylation, meaning they are obtained later).
the previous answer written on here was 36. This is correct but recent research has shown that the yield ATP production is less than that, depending on the cellular activity. the estimate number is 32.
Oxidative phosphorylation is the step of cellular respiration that produces the most ATP. The process that uses energy stored in a hydrogen ion gradient across a membrane to drive ATP synthase is chemiosmosis.
A+ electron transport chain reactions is when most of the ATP is produced.
Glycolysis-4 molecules are produced but 2 are used which means that it results in a net gain of 2 ATP molecules.
I believe it is the Electronic Transport Chain where 34 are produced.
The stage that produces most of the ATP during cellular respiration is the electron transport system (ETS) present in mitochondria. The formation of ATP occurs by oxidative phosphorylation.
3rd step chemeosmosis
electron transport chain reactions
tca cycle
combustion and cellular respiration
Pyruvate enters mitochondria for further stages of cellular respiration such as Kreb's cycle and ETC.
Cellular respiration produces ATP from the breakdown of glucose. ATP, NADH, and FADH2 are produced in Glycolysis. NADH and ATP are produced in the Krebs cycle. And 32 ATP and water are produced in the Electron Transport Chain. The first stage of respiration, glycolysis, occurs in the cytoplasm. The later stages occur in the mitochondria.
The first stage in cellular respiration is known as Glycolysis.
Electron transport chain reactions
the kreb's cycle
The stage of cellular respiration in which most ATP is produced is the electron transport chain.
combustion and cellular respiration
At the end of the ETC when all of the other meet together.
Pyruvate enters mitochondria for further stages of cellular respiration such as Kreb's cycle and ETC.
Cellular respiration produces ATP from the breakdown of glucose. ATP, NADH, and FADH2 are produced in Glycolysis. NADH and ATP are produced in the Krebs cycle. And 32 ATP and water are produced in the Electron Transport Chain. The first stage of respiration, glycolysis, occurs in the cytoplasm. The later stages occur in the mitochondria.
The first stage in cellular respiration is known as Glycolysis.
your skin is the most important stage of cellular respiration
Electron transport chain reactions
the oldest stage of cellular respiration from an evolutinary perspective?
your skin is the most important stage of cellular respiration
fermentation will occur.