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Photosynthesis!!!!. 12 H 2 O The overall reaction in photosynthesis: 6CO 2 +++ Light energy C 6 H 12 O 6 6O 2 6 H 2 O + Photosynthesis is divided into.

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Presentation on theme: "Photosynthesis!!!!. 12 H 2 O The overall reaction in photosynthesis: 6CO 2 +++ Light energy C 6 H 12 O 6 6O 2 6 H 2 O + Photosynthesis is divided into."— Presentation transcript:

1 Photosynthesis!!!!

2 12 H 2 O The overall reaction in photosynthesis: 6CO 2 +++ Light energy C 6 H 12 O 6 6O 2 6 H 2 O + Photosynthesis is divided into two parts Two components: Light energy H2OH2O O2O2 Light-dependent reactions Chemical energy (ATP, NADPH) Chemical energy (ATP, NADPH) CO 2 Light-independent reactions Chemical energy (C 6 H 12 O 6 ) Energy HarvestSynthesis

3 Figure 10.4 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle (Layer 3)

4 Photosynthesis starts in the thylakoid membrane These aggregations of pigment molecules are called photosystems

5 Figure 10.11 How a photosystem harvests light

6 The energy from light is captured and converted in chloroplasts Energy from light excites an electron in chlorophyll. This electron is then passed to acceptor molecules to be used to make ATP and NADPH Stroma Electron acceptor molecule Reaction center (chlorophyll a ) Chloroplast Stroma Thylakoid Photosystem Light photon Thylakoid space e-

7 Photosystem I: activated by light of wavelengths of 700nm Photosystem II: activated by light of wavelengths of 680nm There are 2 types of reaction centers in green algae and plants: These photosystems are named after the order in which they were discovered, not the order in which they act during photosynthesis

8 Noncyclic electron flow during the light reactions generates ATP and NADPH

9 The electrons in photosystem II are replaced by electrons from water

10 The electrons from chlorophyll are passed to an ETC which makes ATP

11 The electrons reach photosystem I where another photon of light excites them once again

12 The electrons from photosystem II are passed down a second ETC, in which they are used to make NADPH

13 Figure 10.13 A mechanical analogy for the light reactions

14 Figure 10.16 The light reactions and chemiosmosis: the organization of the thylakoid membrane

15 Figure 10.15 Comparison of chemiosmosis in mitochondria and chloroplasts

16 Sometimes an alternate pathway happens In cyclic electron transport, which drives cyclic photophosphorylation, photosystem I transfers electrons to plastoquinone (PQ).

17 Summary of the Light Dependent Reaction of Photosynthesis Light energy is absorbed by chlorophyll molecules, which excites electrons The energy from the excited electrons is converted to chemical energy: –Photosystem II: electron transport chain produces ATP The excited electrons are replaced by splitting a water molecule, releasing O 2 –Photosystem I: The excited electron is donated to NADP + to produce NADPH

18 Photosynthesis is a two-step process The light independent reactions (Calvin cycle) use the energy in ATP and NADPH to reduce organic compounds to form glucose.

19 Figure 10.17 The Calvin cycle (Layer 1)

20 Figure 10.17 The Calvin cycle (Layer 2)

21 Figure 10.17 The Calvin cycle (Layer 3)

22 Summary Light Dependent Reaction –Light + chlorophyll --> ATP + NADPH + (O 2 as waste) Light Independent Reaction (Calvin Cycle) –CO 2 + ATP + NADPH --> glucose

23 HOCH 2 O HO H H H H H OH Glucose subunit CH 2 OH HO O H H H O CH 2 OH Fructose subunit Sucrose What happens to the glucose produced by photosynthesis?

24 Glucose subunit CH 2 OH H H H HHH HH H H H H H H OH O OO OO O O H Up to 1000 or more monomers Starch

25 MMM… Starch

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