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BIOL 205 :: Photosynthesis Lecture 1

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Presentation on theme: "BIOL 205 :: Photosynthesis Lecture 1"— Presentation transcript:

1 BIOL 205 :: Photosynthesis Lecture 1
Introduction and the light reactions

2 What is photosynthesis?
The process of converting solar energy into chemical energy. Can use only water and carbon dioxide to create sugars = chemical energy. Responsible for removal of ~ 200 billion tons of C from the atmosphere yearly.

3 What is photosynthesis?
6CO H2O + hv C6H12O6 +6O2 +6H2O hv designates light you should memorize this equation!! you will see it again O2 = oxygenic photosynthesis

4 What is photosynthesis?
2 stages of photosynthesis Light reactions and Dark reactions Light reactions convert sunlight into chemical energy (ATP + NADPH) Dark reactions use those products to form sugars (stored chemical energy)

5 Overview of Photosynthesis
Dark Reactions CO2 ATP NADPH Light Reactions H2O + CO2 Sugars O2

6 Where does photosynthesis take place?
Prokaryotes Prokaryotes have both anoxygenic and oxygenic Cyanobacteria have oxygenic -Photosynthesis on thylakoids (from plasma membrane) -Cyanobacteria are source of eukaryotic photosynthesis Eukaryotes Oxygenic only Takes place in chloroplasts

7 Chloroplast Morphology

8 Chloroplast Morphology-Terms
Inner Membrane Outer Membrane Thylakoid Thylakoid lumen Stroma Granum

9 How can light provide energy for plants?
Light is composed of particles: photons Light behaves like a wave Can e described w/ wavelength & frequency Only a small portion of the electromagnetic spectrum.

10 The electromagnetic spectrum
PAR = photosynthetically available radiation

11 Pigments Pigment = a light absorbing molecule
Associated with the thylakoid membranes Chlorophyll Chl a and Chl b (Chl c in some algae) Xanthophylls Carotenoids ß-carotene

12 Chlorophyll Chl a has a methyl group Chl b has a carbonyl group
Porphyrin ring delocalized e- Phytol tail

13 Different pigments absorb light differently

14 Different pigments absorb light differently

15 2-minute quiz 1. What is the relationship between the structure of chlorophyll and its location in the chloroplast? 2. Why are plants green?

16 Light Reactions 1: Light capture and redox
2 spatially & functionally distinct units = Photosystems Photosystem II = 1st stage Photosystem I = 2nd stage Named after order of discovery

17 Light capture 1 1. Most Chlorophyll is located in the Light Harvesting Complex 2. Sunlight is absorbed in the LHC and is passed from pigment to pigment Chl a Chl b Remember the porphyrin ring? ß-carotene LHC Reaction Center

18 Light capture - 2 3. Energy finally ends up in a pair of special chlorophyll a molecules: P680 4. e- in P680 Chl a goes to excited state and is shed = Charge separation e-* P680 chlorophylls * <680 nm LHC Reaction Center

19 Light capture - 3 5. High-energy e- accepted by quinone Q = primary e- acceptor 6. Q has been reduced; P680 Chl a has been oxidized Oxidation by light = photo-oxidation e- transport chain 7. The excited e- is shunted into the electron transport chain e-* Q + LHC Reaction Center

20 Chl a+ = most powerful biological oxidizing agent
Light capture - 4 8. The O2 evolving complex + Chl a+ strip e- from H2O and reduce Chl a+ Chl a+ = most powerful biological oxidizing agent + e- O2 evolving complex H2O 1/2 O2 4H+

21 Light capture - 5 9. The reaction center is reset and ready to go again

22 Light Capture Movie

23 PSII electron transport chain
Q e- H+ 1. Q accepts 2 e- from P680 and removes 2 H+ from the stroma 2. Q passes the e- to cytochrome b/f complex & pumps the 2H+ into thylakoid lumen b/f cytochrome complex e- 3. As the e- moves through b/f more H+ are pumped into lumen

24 The PS II Electron transport chain
Q e- e- cytochrome b/f complex e- 2H+ plastocyanin H+

25 PS II to PS I plastocyanin e- 4. e- end up on plastocyanin: a soluble electron carrier in the lumen plastocyanin e- 5. Plastocyanin serves as e- donor for PSI reaction center Chl a

26 Photosystem I e-* 1. Charge separation and photo-oxidation are similar to PSII Optimal wavelength = 700nm + plastocyanin e- P700 2. Plastocyanin acts as reducing agent on P700 Chl a

27 PSI electron transport chain
Ferredoxin Fe/S 1. Ferredoxin recieves e- from P700* FAD NADP+ FAD-NAPD Reductase H+ e- 2. e- moves throuh FAD (flavin adenine dinucleotide) 3. e- plus stromal H+ are used to reduce NADP+ to NADPH NADPH = FINAL PRODUCT!

28 PSI electron transport chain
Ferredoxin Fe/S e- e- FAD H+ e- FAD-NAPD Reductase NADP+ NADPH

29 ATP synthesis H+ 1. O2 evolving complex liberates H+ into lumen from water 2. Q and Cyt b/f pump H+ from stroma into lumen. 3. NADP+ scavenges protons from the stroma pH separation across membrane = Proton Motive Force! H+ stroma lumen H+ H+ H+ H+ H+ H+ H+ H+ H+ H+ H+

30 ATP synthesis F0F1 complex H+ ATP stroma H+ lumen
ADP + Pi F0F1 complex H+ ATP stroma H+ lumen The energy released as protons travel down their concentration gradient is used to fuel an ATP synthase H+ H+ H+ H+ H+ H+ H+ H+ H+ H+

31 Light Reactions Products
In: CO2, H2O, sunlight Out: O2, ATP, NADPH

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