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Series of electron acceptors in the thylakoid membrane that removes energy from excited electrons to produce ATP?
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What Series of electron acceptors in the thylakoid membrane remove energy from excited electrons to produce ATP?
Electron transport chain.
Which is the series of molecules through which excited electrons are passed down a thylakoid membrane?
electron transport chains
In chloroplasts an acceptor of electrons lost from chlorophyll and also found in the thylakoid membrane?
Primary Electron Acceptor
What uses energy from the high-energy electrons to transport hydrogen across the thylakoid membrane?
Electron transport chain
The electron chain can be found in?
the electron transport chain- which is a series of proteins in the membrane of the thylakoid.
What Series of electron acceptors in the thylakoid membrane remove energy from excited electrons to produce ATP?
Electron transport chain.
What is name for the set of proteins in the thylakoid membrane that electrons move through?
Electron transport chain!!
What is the name of the set of proteins in the thylakoid membrane that electrons move through?
Electron transport chain!!
What is a series of electron acceptor in the thylakoid membrane that removes energy from excited electrons to produce ATP?
An electron transport chain.
Which is the series of molecules through which excited electrons are passed down a thylakoid membrane?
electron transport chains
In chloroplasts an acceptor of electrons lost from chlorophyll and also found in the thylakoid membrane?
Primary Electron Acceptor
What uses energy from the high-energy electrons to transport hydrogen across the thylakoid membrane?
Electron transport chain
How does the electron transport system function?
thylakoid membrane
The electron chain can be found in?
the electron transport chain- which is a series of proteins in the membrane of the thylakoid.
Which term refers to the collections of electron carriers that are embedded in the inner mitochondrial membrane and in the thylakoid membrane?
The electron transport chain.
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.
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.
