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By the action of electrons going down the electron transfer chain the energy is provided to pump H + into the outer lumen of the mitochondria creating the concentration gradient for H + to come down it's concentration gradient through the ATP synthase.
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Do mitochondria and chloroplasts include compartments where hydrogen ions are connected?
Yes, both mitochondria and chloroplasts have compartments where hydrogen ions are actively pumped across a membrane to create a proton gradient. In mitochondria, this occurs in the inner mitochondrial membrane, while in chloroplasts, it happens across the thylakoid membrane. The proton gradient generated is used to drive ATP production through oxidative phosphorylation in mitochondria and photosynthesis in chloroplasts.
What is the hydrogen ion gradient maintained by?
The hydrogen ion gradient is maintained by the electron transport chain during cellular respiration. This process uses the energy from electrons to pump hydrogen ions across the inner mitochondrial membrane, establishing a gradient that drives the production of ATP through ATP synthase.
What happen when electrons are passed down the electrons transport chain?
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
What builds up between the two membranes of the mitochondria?
Protons build up between the inner and outer membranes of the mitochondria, creating an electrochemical gradient that is used to generate ATP through the process of oxidative phosphorylation. This proton gradient is essential for the production of energy in the form of ATP.
Which type of cell transport is used by mitochondria to make hydrogen ions move against their concentration gradient?
Mitochondria utilize active transport to move hydrogen ions (protons) against their concentration gradient. This process primarily occurs during oxidative phosphorylation, where the electron transport chain pumps protons from the mitochondrial matrix into the intermembrane space. This creates a proton gradient, which is subsequently used by ATP synthase to generate ATP as protons flow back into the matrix.
Do mitochondria and chloroplasts include compartments where hydrogen ions are connected?
Yes, both mitochondria and chloroplasts have compartments where hydrogen ions are actively pumped across a membrane to create a proton gradient. In mitochondria, this occurs in the inner mitochondrial membrane, while in chloroplasts, it happens across the thylakoid membrane. The proton gradient generated is used to drive ATP production through oxidative phosphorylation in mitochondria and photosynthesis in chloroplasts.
What part of the mitochondria stores a high concentration of H plus ions?
The intermembrane space of the mitochondria stores a high concentration of H plus ions. This creates a proton gradient that drives the production of ATP through oxidative phosphorylation.
What molecule will form when hydrogen ions flow down the electrochemical gradient through ATP synthesis complexes in mitochondria?
The molecule formed when hydrogen ions flow down the electrochemical gradient through ATP synthesis complexes in mitochondria is adenosine triphosphate (ATP). This process is known as oxidative phosphorylation, and it involves the production of ATP from the energy released by the flow of hydrogen ions through ATP synthase.
What is the hydrogen ion gradient maintained by?
The hydrogen ion gradient is maintained by the electron transport chain during cellular respiration. This process uses the energy from electrons to pump hydrogen ions across the inner mitochondrial membrane, establishing a gradient that drives the production of ATP through ATP synthase.
What happens when electrons are passed the electron transport chain?
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
What happens when electrons are transported down the electron transport chain?
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
What happen when electrons are passed down the electrons transport chain?
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
What builds up between the two membranes of the mitochondria?
Protons build up between the inner and outer membranes of the mitochondria, creating an electrochemical gradient that is used to generate ATP through the process of oxidative phosphorylation. This proton gradient is essential for the production of energy in the form of ATP.
Which type of cell transport is used by mitochondria to make hydrogen ions move against their concentration gradient?
Mitochondria utilize active transport to move hydrogen ions (protons) against their concentration gradient. This process primarily occurs during oxidative phosphorylation, where the electron transport chain pumps protons from the mitochondrial matrix into the intermembrane space. This creates a proton gradient, which is subsequently used by ATP synthase to generate ATP as protons flow back into the matrix.
Hydrogen ions move from the outer to the inner compartment of the mitochondria through what molecule?
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.
Why are parietal cells acidophilic?
Parietal cells are acidophilic because they contain a large number of mitochondria. The mitochondria, which are needed to pump hydrogen ions against their concentration gradient, are acidophilic; therefore, parietal cells are acidophilic as well.
Which type of cell transport is used by mitochondria to generate energy by allowing hydrogen (H ) ions to flow through a membrane protein?
Mitochondria utilize facilitated diffusion to generate energy by allowing hydrogen ions (H⁺) to flow through a membrane protein known as ATP synthase. This process occurs during oxidative phosphorylation, where the flow of H⁺ ions down their concentration gradient drives the synthesis of ATP from ADP and inorganic phosphate. The movement of these ions is aided by the electrochemical gradient established by the electron transport chain.
