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Photosynthesis 2: Energy conversion and electron conduction in soft matter

Photosynthesis 2: Energy conversion and electron conduction in soft matter. Electron flow in photosynthesis of cyanobacteria. H +. ADP. ATP. cytoplasm. Q/QH 2 /Q. h n. ATPase. bc 1. RC. LH-II. LH-I. periplasm. e -. H +. cytochrome c 2.

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Photosynthesis 2: Energy conversion and electron conduction in soft matter

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  1. Photosynthesis 2: Energy conversion and electron conduction in soft matter Electron flow in photosynthesis of cyanobacteria H+ ADP ATP cytoplasm Q/QH2/Q hn ATPase bc1 RC LH-II LH-I periplasm e- H+ cytochrome c2 Electron flow in photosynthesis of purple bacteria

  2. Electron flow in photosynthesis of cyanobacteria and Plants backward direction: respiration = food consumption in mammals From Nature 411, (2001) 897, W. Kuhlbrandt.

  3. Photosynthesis 2: Energy conversion and electron conduction in soft matter Electron flow in photosynthesis of cyanobacteria H+ ADP ATP cytoplasm Q/QH2/Q hn ATPase bc1 RC LH-II LH-I periplasm e- H+ cytochrome c2 Electron flow in photosynthesis of purple bacteria

  4. Role of Thermal Disorder on Electron Transfer in the Photosynthetic Reaction Center Electron transfer is coupled to the thermal motion of the surrounding protein.

  5. Particle – Hole Separation in the Reaction Center and Solar Cells protein protein rotated – 900 and stretched

  6. Cytochrome c2 docking H+ ADP ATP cytoplasm Q/QH2/Q hn ATPase bc1 RC LH-II LH-I periplasm e- H+ cytochrome c2

  7. Photosynthetic Apparatus of Purple Bacteria Iron Sulfur Protein head rotation can redirect 2nd electron two path- ways for oxidation of Qo site Qo Qo 2Fe2S e- 2Fe2S cyt c1 cyt c1 Very Large Conformational Changes Sergei Izrailev

  8. Photosynthetic Apparatus of Purple Bacteria s t a l k Very Large Conformational Changes F1 rotatory catalysis (twist conformational change ATP synthesis ) F1 (from Wang & Oster) elastomechanical coupling F0 ATP synthase energy transformation (proton motive force rotation) (Walker, Whilce, Fillingame) www.ks.uiuc.edu

  9. Photosynthetic Pathway in Cyanobacteria and Plants

  10. Electron Carrying Molecules bacterio- chlorophyll chain bacterio- pheophytin chain ubiquinone chain

  11. Particle – Hole Separation in the Reaction Center and Solar Cells protein protein rotated – 900 and stretched

  12. The energy gap is Gaussian distributed energy gap energy gap

  13. Two State QM System Coupled to Protein Matrix First case: Coupling to a single oscillator Hamiltonian Protein matrix is a bath of oscillators linearly coupled to the electron transfer according to only a single oscillator considered at present!

  14. Two State QM System Coupled to Protein Matrix Second case: Coupling to an ensemble of oscillators Hamiltonian Protein matrix is a bath of oscillators linearly coupled to the electron transfer according to

  15. Electron Transfer Process Coupled to the Protein Matrix Rate for an ensemble of oscillators Relaxation rate But we don’t know all the coupling constants cj ? All we need to know is

  16. Solution of Rate Equation

  17. Electron Transfer Process Coupled to the Protein Matrix Rate for an ensemble of oscillators Relaxation rate But we don’t know all the coupling constants cj ? All we need to know is

  18. Electron Transfer Process Coupled to the Protein Matrix Relaxation rate 1994 energy gap energy gap correlation function rms deviation of energy gap

  19. Temperature Dependence of Electron Transfer Rate

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