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PHOTOSYNTHESIS Photosynthesis requires 2 steps.

Published byBrooke Harris Modified over 8 years ago

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Presentation on theme: "PHOTOSYNTHESIS Photosynthesis requires 2 steps."— Presentation transcript:

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4 PHOTOSYNTHESIS

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6 Photosynthesis requires 2 steps.

7 How are leaves good photosynthetic factories?

8 SEM; 200X

9 Plant cells contain an organelle called a chloroplast. This is where light energy is transformed into chemical energy.

10 Structure of a Chloroplast

11 Inside a chloroplast are folded membranes. Imbedded in the membranes are molecules of chlorophyll. Chlorophyll is the molecule that absorbs light energy. Chlorophyll is part of a photosystem.

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13 Relative rate of photosynthesis Wavelength of light (nanometers)

14 Antennae pigments pass energy to chlorophyll a in the photosystem.

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16 PSII: Excited electron moves to electron acceptor. Chl a donates a high E electron to the electron acceptor Water is split; its electron replaces that lost from chlorophyll oxygen is released to atmosphere. Excited electron moves to electron transport chain

17 ETC The electron transport chain is a series of membrane bound molecules that pass the electron to a final electron acceptor. As the electrons are passed along, H+ ions are pumped into the lumen. (Chemiosmosis)

18 PSI The electrons from the ETC are accepted by PSI. Solar energy is absorbed, and the electrons are passed to NADP. NADP+ +2e- + H+  NADPH. (needed in next rxn) NADPH is the final electron acceptor.

19 Phosphorylation and ATP Synthesis: ATP Synthase uses energy from the H+ gradient to produce ATP. This is called phosphorylation.

20 SUMMARIZE: PSII, ETC, PSI, ATP Synthase. What is needed, what happens, what is made?

21 Noncyclic Electron Flow 1. PSII absorbs light E. Excited e- moves to e- acceptor water is split to replace lost e-. Oxygen released. NADP+ +2H+e-  NADPH 2. Chemiosmosis and phosphorylation: ETC pumps H+ into lumen. H+ gradient used to synthesize ATP 3. PS1 light E absorbed and reexcited e-. NADPH is final e- acceptor.

22 http://www.youtube.com/watch?v=joZ1EsA5 _NY

23 Cyclic Electron Flow PSI only Electron donated by PSI and returns to PSI Maintains H+ gradient; makes ATP w/ATP Synthase No Oxygen released Seen in some bacteria; probably evolved first

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25 Calvin Cycle Carbon from carbon dioxide is “fixed” into a 3-C sugar, G3P (precursor for glucose) -In the stroma -carbon enters as CO2 and leaves as sugar.

26 PHASE 1: Rubisco attaches C from CO2 to a 5-C molecule called RuBP (ribulose bisphosphate) Rubisco- the most abundant protein in plants, and possibly on the planet.

27 Phase 2 Reduction: NADPH and ATP are used to convert 3PGA to g3P

28 Phase 3 Regeneration: G3P’s and ATP regenerate the RuBP/ For every three molecules of CO 2 that enter the cycle, the net output is one G3P. For each G3P synthesized, the cycle spends nine molecules of ATP and six molecules of NADPH 2. The light reactions sustain the Calvin cycle by regenerating the ATP and NADPH 2.

29 In C3 plants the photosynthesis, carbon fixation and Calvin cycle all occur in a single chloroplast.C3 plants

30 In C4 plants the photosynthesis takes place in a chloroplast of a thin-walled mesophyll cell and a 4-carbon acid is handed off to a thick- walled bundle sheath cell where the Calvin cycle occurs in a chloroplast of that second cell. This protects the Calvin cycle from the effects of photorespirationC4 plants photorespiration

31 In CAM plants the photosynthesis and initial carbon fixation occur at night and a 4-carbon acid is stored in the cell's vacuole. During the day, the Calvin cycle operates in the same chloroplasts.CAM plants

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