337220
ADP is phosphorylated and NADP is reduced, this happens during.
1 Dark phase of photosynthesis
2 Light phase of photosynthesis
3 Photorespiration
4 Calvin cycle
Explanation:
ADP is phosphorylated and NADP is reduced occurs during light phase of the photosynthesis. The 'light-dependent reactions' is the process by which plants capture and store energy from sunlight. In this process, light energy is converted into chemical energy, in the form of the energy-carrying molecules ATP and NADPH.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337221
Which hypothesis best explains the synthesis of ATP in chloroplast?
1 Chemosynthetic hypothesis
2 Chemiosmotic hypothesis
3 Proton gradient hypothesis
4 Redox gradient hypothesis
Explanation:
The chemiosmotic hypothesis has been put forward to explain how actually ATP is synthesised in the chloroplast.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337222
The correct sequence of flow of electrons in the light reaction is
Excited electron follows the pathway – PS-II → Plastoquinone → Cytochromes → PS-I → Ferredoxin
NCERT Exemplar - 5
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337223
The ATP synthase of chloroplast consists of
1 \(C{F_0}\) and \(C{F_1}\)
2 \(C{F_1}\) and \(C{F_2}\)
3 \(C{F_0}\) and \(C{F_2}\)
4 All of them
Explanation:
The ATP synthase enzyme consists of two parts: one called the \(C{F_0}\) is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. The other portion is called \(C{F_1}\) and protrudes on the outer surface of the thylakoid membrane on the side that faces the stroma.
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BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337220
ADP is phosphorylated and NADP is reduced, this happens during.
1 Dark phase of photosynthesis
2 Light phase of photosynthesis
3 Photorespiration
4 Calvin cycle
Explanation:
ADP is phosphorylated and NADP is reduced occurs during light phase of the photosynthesis. The 'light-dependent reactions' is the process by which plants capture and store energy from sunlight. In this process, light energy is converted into chemical energy, in the form of the energy-carrying molecules ATP and NADPH.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337221
Which hypothesis best explains the synthesis of ATP in chloroplast?
1 Chemosynthetic hypothesis
2 Chemiosmotic hypothesis
3 Proton gradient hypothesis
4 Redox gradient hypothesis
Explanation:
The chemiosmotic hypothesis has been put forward to explain how actually ATP is synthesised in the chloroplast.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337222
The correct sequence of flow of electrons in the light reaction is
Excited electron follows the pathway – PS-II → Plastoquinone → Cytochromes → PS-I → Ferredoxin
NCERT Exemplar - 5
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337223
The ATP synthase of chloroplast consists of
1 \(C{F_0}\) and \(C{F_1}\)
2 \(C{F_1}\) and \(C{F_2}\)
3 \(C{F_0}\) and \(C{F_2}\)
4 All of them
Explanation:
The ATP synthase enzyme consists of two parts: one called the \(C{F_0}\) is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. The other portion is called \(C{F_1}\) and protrudes on the outer surface of the thylakoid membrane on the side that faces the stroma.
337220
ADP is phosphorylated and NADP is reduced, this happens during.
1 Dark phase of photosynthesis
2 Light phase of photosynthesis
3 Photorespiration
4 Calvin cycle
Explanation:
ADP is phosphorylated and NADP is reduced occurs during light phase of the photosynthesis. The 'light-dependent reactions' is the process by which plants capture and store energy from sunlight. In this process, light energy is converted into chemical energy, in the form of the energy-carrying molecules ATP and NADPH.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337221
Which hypothesis best explains the synthesis of ATP in chloroplast?
1 Chemosynthetic hypothesis
2 Chemiosmotic hypothesis
3 Proton gradient hypothesis
4 Redox gradient hypothesis
Explanation:
The chemiosmotic hypothesis has been put forward to explain how actually ATP is synthesised in the chloroplast.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337222
The correct sequence of flow of electrons in the light reaction is
Excited electron follows the pathway – PS-II → Plastoquinone → Cytochromes → PS-I → Ferredoxin
NCERT Exemplar - 5
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337223
The ATP synthase of chloroplast consists of
1 \(C{F_0}\) and \(C{F_1}\)
2 \(C{F_1}\) and \(C{F_2}\)
3 \(C{F_0}\) and \(C{F_2}\)
4 All of them
Explanation:
The ATP synthase enzyme consists of two parts: one called the \(C{F_0}\) is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. The other portion is called \(C{F_1}\) and protrudes on the outer surface of the thylakoid membrane on the side that faces the stroma.
337220
ADP is phosphorylated and NADP is reduced, this happens during.
1 Dark phase of photosynthesis
2 Light phase of photosynthesis
3 Photorespiration
4 Calvin cycle
Explanation:
ADP is phosphorylated and NADP is reduced occurs during light phase of the photosynthesis. The 'light-dependent reactions' is the process by which plants capture and store energy from sunlight. In this process, light energy is converted into chemical energy, in the form of the energy-carrying molecules ATP and NADPH.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337221
Which hypothesis best explains the synthesis of ATP in chloroplast?
1 Chemosynthetic hypothesis
2 Chemiosmotic hypothesis
3 Proton gradient hypothesis
4 Redox gradient hypothesis
Explanation:
The chemiosmotic hypothesis has been put forward to explain how actually ATP is synthesised in the chloroplast.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337222
The correct sequence of flow of electrons in the light reaction is
Excited electron follows the pathway – PS-II → Plastoquinone → Cytochromes → PS-I → Ferredoxin
NCERT Exemplar - 5
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337223
The ATP synthase of chloroplast consists of
1 \(C{F_0}\) and \(C{F_1}\)
2 \(C{F_1}\) and \(C{F_2}\)
3 \(C{F_0}\) and \(C{F_2}\)
4 All of them
Explanation:
The ATP synthase enzyme consists of two parts: one called the \(C{F_0}\) is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. The other portion is called \(C{F_1}\) and protrudes on the outer surface of the thylakoid membrane on the side that faces the stroma.