Photosynthesis: Light reactions

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1 Photosynthesis: Light reactions Reading Assignment: Chapter 14 Nice tutorial on photosynthesis Another decent site on photosynthesis animation of electron transport in thylakoid membrane 1

2 The vast majority of the energy consumed by living organisms stems from solar energy captured by the process of photosynthesis Only chemoautotrophs (aka chemolithotrophs) are independent of this energy source Of the sunlight that reaches the earth each day: 1% is absorbed by photosynthetic organisms and transduced into chemical energy of the remaining 99%: 2/3 is absorbed by the earth and oceans (heating the planet) and 1/3 is lost as light reflected back into space 2

3 Often referred to as carbon dioxide fixation: light energy 6 CO H 2 O > C 6 H 12 O O 2 The fixation of carbon is an endergonic reaction Estimates indicate that tons of carbon dioxide are fixed globally per year 1/3 is fixed in the oceans, primarily by photosynthetic marine microorganisms 3

4 4 cyanobacteria other photosynthetic bacteria algae plants

5 Two stages of photosynthesis in a green plant or cyanobacteria 5

6 NADPH = NADH plus an extra phosphate 6

7 7

8 Respiration as a series of energy transformations: electrons released from carbohydrates(and other foodstuffs) are transferred by a circuitous route to O 2 O 2 is reduced to H 2 O the free energy released as electrons flow from a high energy to a low energy state is transformed into a proton gradient the potential energy in this proton gradient is then converted into chemical energy in the form of ATP Aspects of photosynthesis can be described in similar terms: Photosynthesis also involves a series of oxidation-reduction events Flow of electrons is from water to CO 2, reducing it to a carbohydrate light provides the energy required to move electrons from a lower to a higher free energy state energy interconversions carried out by chemiosmotic mechanisms 8

9 Whether photosynthesis occurs in a cyanobacteria or a giant sequoia, some generalitites apply: photosynthesis is associated with membranes eukaryotic cells, photosynthesis occurs in the chloroplast in prokaryotes, photosynthesis is associated with the plasma membrane 9

10 Thylakoids flattened membrane-bound sacs inside the chloroplast location of chlorophyll Chloroplasts possess three membrane bound aqueous compartments the intermembrane space the stroma -- inside the inner membrane and outside the thylakoid sacs (like the mt matrix) thylakoid space -- inside the thylkoid sacs 10

11 Comparison of membrane components of the chloroplast and mt Similar: electron transport chains: entire set of proteins and small molecules involved in the orderly sequence of electron transfers ATP synthase inner membrane very impermeable and narrow intermembrane space Different photosystems: site where light energy is captured and harnessed to drive the transfer of electrons in chloroplasts the electron transport chains and ATP synthase are located in the thylakoid membrane, not the inner membrane 11

12 The many reactions that occur during photosynthesis can be grouped into two broad categories: Photosynthetic electron-transfer reactions AKA light reactions energy derived from sunlight energizes an electron in chlorophyll chlorophyll obtains its electrons from water (generating O 2 ) the energized electrons move along an electron transport chain in the thylakoid membrane (analogous to mt electron transport) an H + gradient is generated and drives the production of ATP NADP + is reduced to NADPH Carbon Fixation Reactions also called Calvin cycle or dark reactions the ATP and NADPH produced by the light reactions serve as the source of energy and reducing power to drive the conversion of CO 2 to carbohydrate reactions take begin in the stroma of the chloroplast and end in the cytosol 12

13 13

14 Nice tutorial on photosynthesis ATP synthase: see link on 205 home page 14

15 Change in the redox potential during photosynthesis. The redox potential for each molecule is indicated by its position along the vertical axis. Transferring electron up the scale from H 2 O requires energy The net electron flow through the two photosystems is from water to NADP + to form NADPH. In the process of electron transfer a H + gradient is generated across the thylakoid membrane. ATP is synthesized by membrane bound ATP synthase -- same process as in the mitochondria 15

16 Link to light harvesting animation Two different photosystems: Photosystem II: chlorophyll molecules of the reaction center are a form of chlorophyll a, known as P680 (for its optimal absorption) includes a water splitting enzyme which removes electrons one at a time from H 2 O The evolution of this water splitting process allows oxygenic photosynthesis and is responsible for the high level of O 2 in our atomosphere Photosystem I: chlorophyll molecules of the reaction center are a form of chlorophyll a, known as P700 the P stands for pigment and the 700 designates the optimal absorption maximum in nanometers (wavelength = 700 nm) 16

17 Figure 10.6 Interactions of light with matter in a chloroplast. The pigments of chloroplasts absorb blue and red light, the colors most effective in photosynthesis. The pigments reflect or transmit green light, which is why leaves appear green. Maximal absorption by chlorophylls between and nm antenna complex on left 17

18 Photosystems consist of two closely linked components: Photochemical reaction center: complex of proteins and chlorophyll (transmembrane protein-pigment complex) converts light energy to chemical energy Figure The antenna complex is a collector of light energy in the form of excited electrons. The energy of the excited electrons is funneled, through a series of resonance energy transfers, to a special pair of chlorophyll molecules in the photochemical reaction center. The reaction center then produces a high-energy electron that can be passed rapidly to the electrontransport chain in the thylakoid membrane, via a quinone. Antenna complex: pigment molecules that capture light energy and feed it to the reaction center cluster of several hundred chlorophyll molecules and accessory pigments (collect light of other wavelengths) 18

19 When a chlorophyll molecule in the antenna complex is excited, energy is rapidly transferred from one molecule to the next until it reaches chlorophyll molecules in the reaction center These chlorophyll molecules transfer the excited electrons to the electron transport chain 19

20 see figure in text Reaction center: acts as a trap for quanta of energy captured by the pigment molecules in the antennae 20

21 21

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