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To answer the question about the end products of the light-dependent reactions of photosynthesis, let's go through the detailed explanation:
Photosynthesis is a process that takes place in the chloroplasts of plant cells and is divided into two main stages: the light-dependent reactions and the light-independent reactions (also known as the Calvin cycle).
Here, we are focused on the light-dependent reactions. These reactions occur in the thylakoid membranes of the chloroplasts and require light to take place. The main purpose of the light-dependent reactions is to convert light energy into chemical energy, which will then be used in the Calvin cycle to synthesize glucose.
During the light-dependent reactions, the following key events occur:
1. Light absorption: Chlorophyll and other pigments absorb light energy, which excites electrons to a higher energy level.
2. Water splitting (photolysis): The absorbed light energy is used to split water molecules (H₂O) into oxygen (O₂), protons (H⁺), and electrons.
3. Electron transport chain: High-energy electrons are transported through a series of proteins in the thylakoid membrane, releasing energy that is used to pump protons into the thylakoid lumen.
4. ATP synthesis: The proton gradient created by the electron transport chain drives the synthesis of ATP from ADP and inorganic phosphate (Pi) via the enzyme ATP synthase.
5. NADP⁺ reduction: Finally, the electrons reduce NADP⁺ to NADPH. NADPH is a carrier molecule that will provide reducing power for the Calvin cycle.
The products of the light-dependent reactions are:
- ATP: This energy-rich molecule provides the energy needed for the Calvin cycle.
- NADPH: This molecule acts as a reducing agent, providing high-energy electrons for the reduction reactions in the Calvin cycle.
- Oxygen (O₂): This is released as a byproduct of water splitting.
Therefore, the correct answer to the question is:
ATP, NADPH, and O₂.
So, the best option among the given choices is:
ATP, NADPH, and O₂ (C).
Photosynthesis is a process that takes place in the chloroplasts of plant cells and is divided into two main stages: the light-dependent reactions and the light-independent reactions (also known as the Calvin cycle).
Here, we are focused on the light-dependent reactions. These reactions occur in the thylakoid membranes of the chloroplasts and require light to take place. The main purpose of the light-dependent reactions is to convert light energy into chemical energy, which will then be used in the Calvin cycle to synthesize glucose.
During the light-dependent reactions, the following key events occur:
1. Light absorption: Chlorophyll and other pigments absorb light energy, which excites electrons to a higher energy level.
2. Water splitting (photolysis): The absorbed light energy is used to split water molecules (H₂O) into oxygen (O₂), protons (H⁺), and electrons.
3. Electron transport chain: High-energy electrons are transported through a series of proteins in the thylakoid membrane, releasing energy that is used to pump protons into the thylakoid lumen.
4. ATP synthesis: The proton gradient created by the electron transport chain drives the synthesis of ATP from ADP and inorganic phosphate (Pi) via the enzyme ATP synthase.
5. NADP⁺ reduction: Finally, the electrons reduce NADP⁺ to NADPH. NADPH is a carrier molecule that will provide reducing power for the Calvin cycle.
The products of the light-dependent reactions are:
- ATP: This energy-rich molecule provides the energy needed for the Calvin cycle.
- NADPH: This molecule acts as a reducing agent, providing high-energy electrons for the reduction reactions in the Calvin cycle.
- Oxygen (O₂): This is released as a byproduct of water splitting.
Therefore, the correct answer to the question is:
ATP, NADPH, and O₂.
So, the best option among the given choices is:
ATP, NADPH, and O₂ (C).
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