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1. 18. Photosynthesis: antennas and reaction centers
2. Synthesizing carbohydrates from CO2 and water presents a formidable thermodynamic problem:
3. When light raises a molecule to an excited electronic state, the molecule becomes a stronger reductant
4. The photochemically reactive pigments are chlorins or bacteriochlorins, which are structurally related to hemes
5. The photochemical reactions of photosynthesis take place in integral membrane proteins
6. Most of the pigments in photosynthetic cells do not participate in the electron-transfer reactions of photosynthesis. Instead, they serve as an antenna that increases the absorption of light.
7. The antenna system of purple photosynthetic bacteria has circular pigment-protein complexes
8. When the antenna is excited with light, excitations are transferred to the reaction center within ~40 ps
9. The LHC-II (light-harvesting complex II) antenna protein of plants is a trimer with 14 chlorophylls and 3 carotenoids per protein subunit
10. The reaction center of purple photosynthetic bacteria has 3 to 4 subunits, depending on the species
11. The electron carriers in the bacterial reaction center are arranged around an axis of approximate rotational symmetry
12. The sequence and kinetics of the initial electron-transfer reactions can be studied by exciting RCs with short pulses of light
13. When the complex is excited with light, an electron moves from the BChl dimer (P870) to a BPh and then to a quinone
14. The photosynthetic electron-transfer system in purple bacteria is cyclic
15. Plants have two photosystems that work in series to move electrons from water to NADP
16. The reaction center of Photosystem II has 20 subunits
17. The core of the Photosystem II reaction center is very similar to that of purple bacteria
18. Electron carriers in the Photosystem II reaction center
19. The Photosystem I reaction center has 12 subunits
20. Two of the Fe-S centers in Photosystem I are in subunit C, on the stromal side of the membrane
