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Wize AP Biology Textbook > Photosynthesis

Light-Dependent Reactions of Photosynthesis [detailed]

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Light-Dependent Reactions of Photosynthesis

Photosynthesis is a series of light-driven reactions which converts atmospheric CO2 to organic molecules and O2. After the light-dependent reactions, the molecules produced enter the Calvin Cycle, which does not require light. Here, we will focus on the light-dependent reactions.


Photosynthesis locations:

  • Light reactions occur in the thylakoid membrane.
  • A stack of thykaloids is called grana.
  • Dark Reactions (Calvin Cycle) occur in the stroma (fluid between grana).


Light absorbing pigments

Pigments absorb as certain visible light wavelength.
  • Chlorophylls a and b
  • Absorb 70% of red and blue wavelength; highest O2 production at these wavelengths.
  • Only present in green plants and green algae.
  • Carotenoids
  • Absorb violet and blue-green light.
  • Phycobilins – present in algae.

Photochemistry Components

  • Chlorophyll contains a porphyrin ring
  • Light absorbing head containing magnesium and many double bonds that can be excited.
  • Light harvesting complexes (aka antenna complex) – link pigments together and are connected to reaction centers.
  • Electrons transferred to primary electron acceptor.
  • Photosystem (PS) = light harvesting complexes + reaction center embedded in thylakoid membrane.



Photosynthesis Steps

Photosynthesis starts with light photons striking the pigments. Follow the steps below:



Remember that the combination of a light harvesting complex with the reaction center makes up a photosystem. There are two relevant photosystems that differ in (1) which molecules they split (i.e. what they oxidize) and (2) where they deliver their electrons (i.e. what they reduce).
  • Photosystem II (P680): Obtains an electron by splitting water (H2O) and releasing oxygen (O2) as a waste product.
  • Note that electron energy is also used to pump H+ from the stromal side to the lumen of the thykaloid.
  • These hydrogen atoms will be used to produce ATP later.
  • Since the traveling electrons loose energy, they must be "reenergized" by photosystem I.

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  • Electron Transport Chain (ETC): Passing of electrons between PS II and PS I.


  • Photosystem I (P700): Similar to PS II, it absorbs a photon from light, which passes through pigments, to chlorophyll a and then the reaction center.
  • In this case, an electron came from PS II to replace that one given away by chlorophyll a.
  • PS I becomes oxidized and sends an electron to NADP+, reducing it to NADPH.
  • ATP Synthase:
  • The buildup of H+ in the thykaloid lumen creates a gradient that drives the production of ATP as the ions rush through ATP synthase.
  • This is called chemiosmosis.

Wize Tip
This process of using light energy to produce ATP is called photophosphorylation.

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Non-Cyclic and Cyclic Versions of Light-Dependent Reactions

  1. Non-Cyclic Photophosphorylation
  2. What was discussed so far was the non-cyclic version of the light-dependent reactions, also known as Z-scheme. It is called that because the energy of the electrons involved goes up and down, in a pattern that resembles a "Z".


Photo by Govindjee, Dmitriy Shevela / CC BY


Wize Concept
Note that in this scheme 1 ATP is formed for every 1 NADPH. Therefore, their ratio is 1:1 ATP:NADPH.


  1. Cyclic Photophosphorylation
  2. If ATP and NADPH are needed at different ratios, electrons can be cycled through photosystem I only.
  3. Instead of going to reduce NADP+, the electron goes through the ETC, driving H+ into the lumen.
  4. This gradient is used to produce ATP from ADP.

Practice: Light Reactions Product

What is one of the products of the light reactions?

Practice: Types of Photophosphorylation

Which of the following is correct?