the amount of energy the flowing H+ ions have
The number of H+ ions moving down the
The hydrogen ion gradient is used to drive ATP synthesis. 32 to 34 molecules of ATP are produced. The hydrogen ion gradient is the result of NADH in the electron transport system of the mitochondria.
magic.
Most of the time, in the mitochondrion. But sometimes in the cytoplasm and other places.
Mitochondria
In an aerobic organism, ATP molecules are produced by the mitochondria through a process called oxidative phosphorylation
They are produced in the mitochondria of the cell.
The hydrogen ion gradient is used to drive ATP synthesis. 32 to 34 molecules of ATP are produced. The hydrogen ion gradient is the result of NADH in the electron transport system of the mitochondria.
magic.
The Mitochondria
mitochondria
Majority of ATP molecules are produced in mitochondria, via F1-F0 particles, through electron transport system.
Most of the time, in the mitochondrion. But sometimes in the cytoplasm and other places.
Mitochondria
In an aerobic organism, ATP molecules are produced by the mitochondria through a process called oxidative phosphorylation
ATP can be produced in the cytoplasm under anaerobic conditions but the majority of ATP is produced in the mitochondria during aerobic respiration.
If you ment ATP molecules, then they are produced in the mitochondria of a cell.
The hydrogen ions ( protons; H+ ) that are falling down their concentration gradient from where they were pumped into the outer lumen of the mitochondria and falling through the ATP-synthase to synthesize ATP ( phosphorylate ) from ADP.