Yes they include compartment
The primary three elements that cycle between mitochondria and chloroplasts are carbon, oxygen, and hydrogen. In chloroplasts, carbon dioxide is fixed during photosynthesis, producing glucose and releasing oxygen. Mitochondria then utilize the glucose in cellular respiration to generate energy, consuming oxygen and releasing carbon dioxide and water. This cyclical process supports energy flow in ecosystems.
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.
The compound you are referring to is glucose, a simple sugar (monosaccharide) composed of carbon, hydrogen, and oxygen atoms. Glucose is produced by chloroplasts in plants during photosynthesis and serves as a primary energy source. Cells then utilize mitochondria to break down glucose through cellular respiration, releasing stored energy for various biological functions.
Hydrogen ions move from the outer to the inner compartment of the mitochondria through the enzyme ATP synthase, which is embedded in the inner membrane. This movement of hydrogen ions creates an electrochemical gradient that drives ATP production.
Protons (H+) accumulate in the outer compartment of the mitochondria during electron transport phosphorylation. This forms an electrochemical gradient that drives ATP synthesis as protons flow back into the mitochondrial matrix through ATP synthase.
Energy is often released in the form of hydrogen ions moving down an electrochemical gradient, such in chloroplasts or mitochondria.
The primary three elements that cycle between mitochondria and chloroplasts are carbon, oxygen, and hydrogen. In chloroplasts, carbon dioxide is fixed during photosynthesis, producing glucose and releasing oxygen. Mitochondria then utilize the glucose in cellular respiration to generate energy, consuming oxygen and releasing carbon dioxide and water. This cyclical process supports energy flow in ecosystems.
Hydrogen and oxygen, H2O.
The compound described is a sugar, such as glucose. Sugars are produced by chloroplasts during photosynthesis, where carbon dioxide and water are converted into glucose using sunlight. Glucose is then consumed by mitochondria in cells to produce energy through the process of cellular respiration.
Hydrogen pump.
Seeing that H2O is in fact two hydrogen atoms and one oxygen atom, yes. They are connected.
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.
From the motion of hydrogen ions from the kinetic energy of hydrogen ions passing through ATP synthase
Hydrogen ions move from the outer to the inner compartment of the mitochondria through the enzyme ATP synthase, which is embedded in the inner membrane. This movement of hydrogen ions creates an electrochemical gradient that drives ATP production.
The movement of hydrogen ions across a mitochondrial membrane.
Protons (H+) accumulate in the outer compartment of the mitochondria during electron transport phosphorylation. This forms an electrochemical gradient that drives ATP synthesis as protons flow back into the mitochondrial matrix through ATP synthase.
control release of energy from foods: from ATP