The Electron Transport Chain in Photosynthesis
- Photophosphorylation is a process that uses light energy and the electron transport chain to generate ATP from ADP
- Photo = light
- Phosphorylation = addition of phosphate to ADP
- Photophosphorylation involves the following sequence of events:
- Light causes electrons in photosystem II to gain energy and become excited
- The excitement of electrons can be referred to as photoactivation
- The excited electrons leave photosystem II and are passed down a series of electron carriers that form the electron transport chain
- The electron transport chain occurs on the thylakoid membranes within the chloroplast
- One of the electron carriers on the thylakoid membrane is known as plastoquinone; plastoquinone accepts a pair of electrons from photosystem II
- The electron carriers undergo a series of redox reactions as electrons are gained and lost from each carrier
- Remember that:
- Reduction = gain of electrons
- Oxidation = loss of electrons
- Remember that:
- As the electrons pass along the electron transport chain energy is released; this energy is used to pump protons across the thylakoid membrane, generating a proton gradient between the thylakoid space and the stroma (see below)
- This proton gradient enables the phosphorylation of ADP to produce ATP during chemiosmosis (also below)
- The pair of electrons pass from the electron transport chain to photosystem I
- The electrons in photosystem I can also be excited by light energy, at which point they are used in the reduction of NADP (also covered in more detail below)
- Light causes electrons in photosystem II to gain energy and become excited
- The photophosphorylation process described here is referred to as non-cyclic as the electrons do not return to the location at which they started
- ATP and reduced NADP are the main products of photophosphorylation and are immediately passed to the light-independent reaction
Exam Tip
Remember that a redox reaction is one where reduction reactions (gain of electrons or hydrogen, loss of oxygen) and oxidation reactions (loss of electrons or hydrogen, gain of oxygen) happen together. This happens along the series of electron carriers in the thylakoid membrane as part of the electron transport chain.