7B-Light Reactions
Summary
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Takeaways
- 🌱 Light reactions convert light energy into chemical energy during photosynthesis.
- 🔬 Leaves appear green due to chlorophyll, which absorbs violet and red light while reflecting green.
- 🌈 The visible spectrum (380-740 nm) is essential for photosynthesis, as it contains the right energy for plants.
- 🌿 Chlorophyll a, b, c, and d, along with carotenoids, are the main pigments involved in light absorption.
- 🌀 Photosystems I and II are located in the thylakoid membrane and are crucial for light reactions.
- ⚡ Non-cyclic electron flow involves both photosystems and leads to the production of ATP and NADPH.
- 💧 Photolysis of water in PSII provides electrons and produces oxygen as a byproduct.
- 🔗 The electron transport chain (ETC) transfers electrons through proteins, creating a proton gradient.
- 🔄 ATP is synthesized through chemiosmosis as protons move back to the stroma via ATP synthase.
- 🌀 Cyclic electron flow, involving only PSI, produces additional ATP without generating NADPH or oxygen.
Q & A
What are the light reactions in photosynthesis?
-The light reactions are the initial phase of photosynthesis where light energy is converted into chemical energy in the form of ATP and NADPH.
Why do leaves appear green?
-Leaves appear green because chlorophyll absorbs light mainly in the violet and red wavelengths, reflecting green light instead.
What is the role of chlorophyll in photosynthesis?
-Chlorophyll is a pigment that captures light energy, enabling plants to convert it into chemical energy during photosynthesis.
What are the two types of photosystems involved in light reactions?
-The two types of photosystems are Photosystem I (PSI), which absorbs light at 700 nanometers, and Photosystem II (PSII), which absorbs light at 680 nanometers.
How does non-cyclic electron flow occur?
-In non-cyclic electron flow, light energy excites electrons in PSII, leading to water photolysis, which produces oxygen, and the electrons are transferred through an electron transport chain to PSI, resulting in the formation of ATP and NADPH.
What happens to water molecules during the light reactions?
-Water molecules are split during photolysis to provide electrons for PSII, producing protons and oxygen gas as byproducts.
What is the significance of the proton gradient in ATP synthesis?
-The proton gradient created during electron transport powers ATP synthesis via chemiosmosis, as protons flow back into the stroma through ATP synthase, converting ADP into ATP.
What are the final products of the light reactions?
-The final products of the light reactions are ATP, NADPH, and oxygen, which are used in the subsequent carbon reactions of photosynthesis.
What is the difference between cyclic and non-cyclic electron flow?
-Cyclic electron flow involves only Photosystem I and produces ATP, while non-cyclic electron flow involves both PSII and PSI, producing ATP, NADPH, and oxygen.
How does NADPH contribute to photosynthesis?
-NADPH provides the reducing power for the Calvin cycle, where carbon dioxide is fixed into carbohydrates during the dark reactions of photosynthesis.
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