8.2 Flashcards
Identify where in the chloroplast the light reactions occur.
thylakoids
Explain how the light reactions generate ATP and NADPH.
photophosphorylation for ATP
reduction reaction to turn NADP+ to NADPH
Describe how some bacteria use only one photosystem for cyclic photophosphorylation.
Some bacteria only use one photosystem because they don’t produce oxygen
Compare the functions of the two photosystems in green plants.
Photosystem I
- Reaction center of chlorophyll a of PS I is called P700
- Best at absorbing wavelength of 700nm
Photosystem II
-functions first
-the reaction-center chlorophyll a of PS II is called P680
-best at absorbing a wavelength of 680nm
Identify the wavelength of light that is absorbed by each photosystem.
- Photosystem I
700nm - Photosystem II
680nm
Describe the linear flow of electrons through photosystem II
Photon received from light excites reaction center P680, oxidizing it to P680+ -> Water is split, replaces lost electrons in P680+ to reduce it back to P680 -> oxygen is released-> electrons are passed to B6-f complex -> proton pump to created H+ gradient (Used to generate ATP) -> passes electrons to plastocyanin
Describe the linear flow of electrons through photosystem I.
Photon received from light excites reaction center P700, oxidizing it to P700+ -> accepts an electron from plastocyanin (from PS II) to reduce back to P700 -> passes electrons to ferredoxin and finally to NADP+ to form NADPH
chemiosmosis in the mitochondria and chloroplasts
Chemical energy from food and turns into ATP
Protons pumped into intermembrane space and drive ATP synthesis as they diffuse back into mitochondrial matrix
chemiosmosis in the chloroplasts
Transforms light energy into ATP
Protons pumped int Thylakoid space and drive ATP synthesis as they diffuse back into stroma
