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What portion of the illuminated plant cell would you expect to have the lowest pH?
The portion of the illuminated plant cell expected to have the lowest pH is the vacuole. This is because the vacuole is responsible for storing and regulating the cell's pH by actively pumping protons and other ions.
What is the function of a lumen?
The thylakoid lumen is the compartment bounded by the thylakoid membrane. It plays a vital role for photophosphorylation during photosynthesis. During the light-dependent reaction, protons are pumped across the thylakoid membrane into the lumen making it acidic down to pH 4.
Why is the pH of the thylakoid lower than the stroma?
The pH of the thylakoid is lower than the stroma due to the accumulation of protons (H+) within the thylakoid lumen during the light reactions of photosynthesis. This proton gradient is created by the electron transport chain and ATP synthase, which pump protons into the thylakoid. The lower pH in the thylakoid creates a proton motive force that drives ATP synthesis and helps power the production of NADPH.
What is the lowest pH in the body and where?
The lowest pH in the body is found in the stomach, specifically the gastric acid in the stomach can have a pH as low as 1.5 to 3.5. This highly acidic environment helps break down food and kill pathogens.
What is the lowest pH of the body and where?
The lowest pH of the body is typically found in the stomach, where it can be as low as 1.5 to 3.5 due to the presence of hydrochloric acid that aids in the digestion of food.
Which compartment in chloroplasts is likely to have the lowest pH?
The thylakoid lumen is likely to have the lowest pH in chloroplasts due to the accumulation of protons during the light-dependent reactions of photosynthesis.
What portion of the illuminated plant cell would you expect to have the lowest pH?
The portion of the illuminated plant cell expected to have the lowest pH is the vacuole. This is because the vacuole is responsible for storing and regulating the cell's pH by actively pumping protons and other ions.
Is there a relationship between the pH of the inner thylakoid space and the pH of the stroma?
yes
What is the function of a lumen?
The thylakoid lumen is the compartment bounded by the thylakoid membrane. It plays a vital role for photophosphorylation during photosynthesis. During the light-dependent reaction, protons are pumped across the thylakoid membrane into the lumen making it acidic down to pH 4.
What will happen to the pH inside of a thylakoid that is exposed to light?
It will decrease.
What is the role of synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
What is the of ATP synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
Why is the pH of the thylakoid lower than the stroma?
The pH of the thylakoid is lower than the stroma due to the accumulation of protons (H+) within the thylakoid lumen during the light reactions of photosynthesis. This proton gradient is created by the electron transport chain and ATP synthase, which pump protons into the thylakoid. The lower pH in the thylakoid creates a proton motive force that drives ATP synthesis and helps power the production of NADPH.
During electron transport the thylakoid space becomes?
During electron transport in the thylakoid membrane, the thylakoid space becomes more acidic (lower pH) as protons are pumped into this space by electron transport chain components, creating a proton gradient. This proton gradient is essential for ATP synthesis during the light reactions of photosynthesis.
What is the role of ATP synthase (synthetase)?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
What is the role if ATP synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
Why does the pH of the cell become more basic during photosynthesis?
During the light reactions of photosynthesis, protons (H+) are ferried into the thylakoid space using the energy from the excited electrons in Photosystems 680 and 700. H+ causes buildup of hydronium (H3O+) ions in water, which are acidic.
