\(C{F_0}\) of ATPase enzyme forms a transmembrane channel for the diffusion of protons.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337192
In chemiosmotic hypothesis for energy generation in chloroplast -
1 Electron transport carriers set up a proton gradient
2 Electron transport carriers set up a electron gradient
3 Proton transport carriers set up a proton gradient
4 The electron transport carriers use energy of moving electron in uphill direction to form ATP
Explanation:
According to chemiosmotic hypothesis, electron carriers set up a proton gradient across the membrane of thylakoid. After this gradient is broken, enough energy is released to synthesise a molecule of ATP.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337193
The given diagram shows synthesis of ATP in the chloroplast. This mechanism is explained by-
1 Splitting of water
2 Photo phosphorylation
3 Chemiosmotic hypothesis
4 Electron transport system
Explanation:
The given figure explains the formstion of ATP by chemiosmotic hypothesis.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337194
The break down of the gradient provides enough energy to cause a conformational change in the _________of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP
1 PQ
2 \(C{F_0}\) particle
3 \(C{F_1}\) particle
4 2 and 3
Explanation:
The break down of the gradient provides enough energy to cause a conformational change in the \(C{F_1}\) particle of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP.
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BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337191
Which acts as a transmembrane channel?
1 \(C{F_0}\) of ATPase
2 \({F_1}\) of ATPase
3 1 and 2
4 NADP reductase
Explanation:
\(C{F_0}\) of ATPase enzyme forms a transmembrane channel for the diffusion of protons.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337192
In chemiosmotic hypothesis for energy generation in chloroplast -
1 Electron transport carriers set up a proton gradient
2 Electron transport carriers set up a electron gradient
3 Proton transport carriers set up a proton gradient
4 The electron transport carriers use energy of moving electron in uphill direction to form ATP
Explanation:
According to chemiosmotic hypothesis, electron carriers set up a proton gradient across the membrane of thylakoid. After this gradient is broken, enough energy is released to synthesise a molecule of ATP.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337193
The given diagram shows synthesis of ATP in the chloroplast. This mechanism is explained by-
1 Splitting of water
2 Photo phosphorylation
3 Chemiosmotic hypothesis
4 Electron transport system
Explanation:
The given figure explains the formstion of ATP by chemiosmotic hypothesis.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337194
The break down of the gradient provides enough energy to cause a conformational change in the _________of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP
1 PQ
2 \(C{F_0}\) particle
3 \(C{F_1}\) particle
4 2 and 3
Explanation:
The break down of the gradient provides enough energy to cause a conformational change in the \(C{F_1}\) particle of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP.
\(C{F_0}\) of ATPase enzyme forms a transmembrane channel for the diffusion of protons.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337192
In chemiosmotic hypothesis for energy generation in chloroplast -
1 Electron transport carriers set up a proton gradient
2 Electron transport carriers set up a electron gradient
3 Proton transport carriers set up a proton gradient
4 The electron transport carriers use energy of moving electron in uphill direction to form ATP
Explanation:
According to chemiosmotic hypothesis, electron carriers set up a proton gradient across the membrane of thylakoid. After this gradient is broken, enough energy is released to synthesise a molecule of ATP.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337193
The given diagram shows synthesis of ATP in the chloroplast. This mechanism is explained by-
1 Splitting of water
2 Photo phosphorylation
3 Chemiosmotic hypothesis
4 Electron transport system
Explanation:
The given figure explains the formstion of ATP by chemiosmotic hypothesis.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337194
The break down of the gradient provides enough energy to cause a conformational change in the _________of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP
1 PQ
2 \(C{F_0}\) particle
3 \(C{F_1}\) particle
4 2 and 3
Explanation:
The break down of the gradient provides enough energy to cause a conformational change in the \(C{F_1}\) particle of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP.
\(C{F_0}\) of ATPase enzyme forms a transmembrane channel for the diffusion of protons.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337192
In chemiosmotic hypothesis for energy generation in chloroplast -
1 Electron transport carriers set up a proton gradient
2 Electron transport carriers set up a electron gradient
3 Proton transport carriers set up a proton gradient
4 The electron transport carriers use energy of moving electron in uphill direction to form ATP
Explanation:
According to chemiosmotic hypothesis, electron carriers set up a proton gradient across the membrane of thylakoid. After this gradient is broken, enough energy is released to synthesise a molecule of ATP.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337193
The given diagram shows synthesis of ATP in the chloroplast. This mechanism is explained by-
1 Splitting of water
2 Photo phosphorylation
3 Chemiosmotic hypothesis
4 Electron transport system
Explanation:
The given figure explains the formstion of ATP by chemiosmotic hypothesis.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337194
The break down of the gradient provides enough energy to cause a conformational change in the _________of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP
1 PQ
2 \(C{F_0}\) particle
3 \(C{F_1}\) particle
4 2 and 3
Explanation:
The break down of the gradient provides enough energy to cause a conformational change in the \(C{F_1}\) particle of the ATP synthase, which makes the enzyme synthesise several molecules of energypacked ATP.
