The thylakoid lumen is the inner space enclosed by the thylakoid membrane within chloroplasts. It plays a critical role in the light-dependent reactions of photosynthesis.
congrats on reading the definition of thylakoid lumen. now let's actually learn it.
The thylakoid lumen is essential for establishing a proton gradient during light-dependent reactions.
It is involved in ATP synthesis through chemiosmosis.
Protons are pumped into the thylakoid lumen from the stroma, creating a high proton concentration inside.
The pH inside the thylakoid lumen is lower than in the stroma due to this proton accumulation.
Electron transport chain components like plastocyanin are located near or within the thylakoid lumen.
Review Questions
What role does the thylakoid lumen play in ATP synthesis?
How does the proton gradient in the thylakoid lumen affect photosynthesis?
Why is the pH different between the thylakoid lumen and stroma?
Related terms
Thylakoid Membrane: The membrane enclosing the thylakoid lumen and containing key proteins for photosynthesis.
Stroma: The fluid-filled space surrounding thylakoids in chloroplasts where light-independent reactions occur.
Electron Transport Chain (ETC): A series of protein complexes that transfer electrons via redox reactions to create a proton gradient across a membrane.