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1 LECTURE PRESENTATIONS For CAMPBELL BIOLOGY, NINTH EDITION Jane B. Reece, Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Robert B. Jackson Chapter 10 Photosynthesis Lectures by Erin Barley Kathleen Fitzpatrick 2011 Pearson Education, Inc.
2 Overview: The Process That Feeds the Biosphere Photosynthesis is the process that converts solar energy into chemical energy Directly or indirectly, photosynthesis nourishes almost the entire living world 2011 Pearson Education, Inc.
3 Autotrophs sustain themselves without eating anything derived from other organisms Autotrophs are the producers of the biosphere, producing organic molecules from CO2 and other inorganic molecules Almost all plants are photoautotrophs, using the energy of sunlight to make organic molecules 2011 Pearson Education, Inc.
4 Figure 10.1
5 Photosynthesis occurs in plants, algae, certain other protists, and some prokaryotes These organisms feed not only themselves but also most of the living world 2011 Pearson Education, Inc.
6 BioFlix: Photosynthesis 2011 Pearson Education, Inc.
7 Figure 10.2 (b) Multicellular alga (a) Plants (d) Cyanobacteria (c) Unicellular protists 10 µm (e) Purple sulfur 1 µm bacteria 40 µm
8 Figure 10.2a (a) Plants
9 Figure 10.2b (b) Multicellular alga
10 Figure 10.2c (c) Unicellular protists 10 µm
11 Figure 10.2d (d) Cyanobacteria 40 µm
12 Figure 10.2e (e) Purple sulfur bacteria 1 µm
13 Heterotrophs obtain their organic material from other organisms Heterotrophs are the consumers of the biosphere Almost all heterotrophs, including humans, depend on photoautotrophs for food and O Pearson Education, Inc.
14 The Earth s supply of fossil fuels was formed from the remains of organisms that died hundreds of millions of years ago In a sense, fossil fuels represent stores of solar energy from the distant past 2011 Pearson Education, Inc.
15 Figure 10.3
16 Concept 10.1: Photosynthesis converts light energy to the chemical energy of food Chloroplasts are structurally similar to and likely evolved from photosynthetic bacteria The structural organization of these cells allows for the chemical reactions of photosynthesis 2011 Pearson Education, Inc.
17 Chloroplasts: The Sites of Photosynthesis in Plants Leaves are the major locations of photosynthesis Their green color is from chlorophyll, the green pigment within chloroplasts Chloroplasts are found mainly in cells of the mesophyll, the interior tissue of the leaf Each mesophyll cell contains chloroplasts 2011 Pearson Education, Inc.
18 CO2 enters and O2 exits the leaf through microscopic pores called stomata The chlorophyll is in the membranes of thylakoids (connected sacs in the chloroplast); thylakoids may be stacked in columns called grana Chloroplasts also contain stroma, a dense interior fluid 2011 Pearson Education, Inc.
19 Figure 10.4 Leaf cross section Chloroplasts Vein Mesophyll Stomata Chloroplast Thylakoid Stroma Granum Thylakoid space 1 µm CO2 O2 Mesophyll cell Outer membrane Intermembrane space Inner membrane 20 µm
20 Figure 10.4a Leaf cross section Chloroplasts Vein Mesophyll Stomata Chloroplast CO2 O2 Mesophyll cell 20 µm
21 Figure 10.4b Chloroplast Thylakoid Stroma Granum Thylakoid space 1 µm Outer membrane Intermembrane space Inner membrane
22 Figure 10.4c Mesophyll cell 20 µm
23 Figure 10.4d Stroma Granum 1 µm
24 Tracking Atoms Through Photosynthesis: Scientific Inquiry Photosynthesis is a complex series of reactions that can be summarized as the following equation: 6 CO H2O + Light energy C6H12O6 + 6 O2 + 6 H2O 2011 Pearson Education, Inc.
25 The Splitting of Water Chloroplasts split H2O into hydrogen and oxygen, incorporating the electrons of hydrogen into sugar molecules and releasing oxygen as a by-product 2011 Pearson Education, Inc.
26 Figure 10.5 Reactants: Products: 6 CO2 C6H12O6 12 H2O 6 H2O 6 O2
27 Photosynthesis as a Redox Process Photosynthesis reverses the direction of electron flow compared to respiration Photosynthesis is a redox process in which H2O is oxidized and CO2 is reduced Photosynthesis is an endergonic process; the energy boost is provided by light 2011 Pearson Education, Inc.
28 Figure 10.UN01 becomes reduced Energy + 6 CO2 + 6 H2O C6 H12 O6 + 6 O2 becomes oxidized
29 The Two Stages of Photosynthesis: A Preview Photosynthesis consists of the light reactions (the photo part) and Calvin cycle (the synthesis part) The light reactions (in the thylakoids) Split H2O Release O2 Reduce NADP+ to NADPH Generate ATP from ADP by photophosphorylation 2011 Pearson Education, Inc.
30 The Calvin cycle (in the stroma) forms sugar from CO2, using ATP and NADPH The Calvin cycle begins with carbon fixation, incorporating CO2 into organic molecules 2011 Pearson Education, Inc.
31 Figure H2O Light NADP+ ADP +Pi Light Reactions Chloroplast
32 Figure H2O Light NADP+ ADP +Pi Light Reactions ATP NADPH Chloroplast O2
33 Figure CO2 H2O Light NADP+ ADP +Pi Light Reactions ATP NADPH Chloroplast O2 Calvin Cycle
34 Figure CO2 H2O Light NADP+ ADP +Pi Light Reactions Calvin Cycle ATP NADPH Chloroplast O2 [CH2O] (sugar)
35 Concept 10.2: The light reactions convert solar energy to the chemical energy of ATP and NADPH Chloroplasts are solar-powered chemical factories Their thylakoids transform light energy into the chemical energy of ATP and NADPH 2011 Pearson Education, Inc.
36 The Nature of Sunlight Light is a form of electromagnetic energy, also called electromagnetic radiation Like other electromagnetic energy, light travels in rhythmic waves Wavelength is the distance between crests of waves Wavelength determines the type of electromagnetic energy 2011 Pearson Education, Inc.
37 The electromagnetic spectrum is the entire range of electromagnetic energy, or radiation Visible light consists of wavelengths (including those that drive photosynthesis) that produce colors we can see Light also behaves as though it consists of discrete particles, called photons 2011 Pearson Education, Inc.
38 Figure nm 10 3 nm 10 nm 1 nm Gamma X-rays rays 3 UV 1m (109 nm) 106 nm Infrared Microwaves 103 m Radio waves Visible light Shorter wavelength Higher energy nm Longer wavelength Lower energy
39 Photosynthetic Pigments: The Light Receptors Pigments are substances that absorb visible light Different pigments absorb different wavelengths Wavelengths that are not absorbed are reflected or transmitted Leaves appear green because chlorophyll reflects and transmits green light 2011 Pearson Education, Inc.
40 Animation: Light and Pigments Right-click slide / select Play 2011 Pearson Education, Inc.
41 Figure 10.8 Light Reflected light Chloroplast Absorbed light Granum Transmitted light
42 A spectrophotometer measures a pigment s ability to absorb various wavelengths This machine sends light through pigments and measures the fraction of light transmitted at each wavelength 2011 Pearson Education, Inc.
43 Figure 10.9 TECHNIQUE Refracting Chlorophyll Photoelectric solution tube White prism Galvanometer light Slit moves to pass light of selected wavelength. Green light High transmittance (low absorption): Chlorophyll absorbs very little green light. Blue light Low transmittance (high absorption): Chlorophyll absorbs most blue light.
44 An absorption spectrum is a graph plotting a pigment s light absorption versus wavelength The absorption spectrum of chlorophyll a suggests that violet-blue and red light work best for photosynthesis An action spectrum profiles the relative effectiveness of different wavelengths of radiation in driving a process 2011 Pearson Education, Inc.
45 (a) Absorption spectra (b) Action spectrum Absorption of light by chloroplast pigments RESULTS Rate of photosynthesis (measured by O2 release) Figure Chlorophyll a Chlorophyll b Carotenoids Wavelength of light (nm) Aerobic bacteria Filament of alga (c) Engelmann s experiment
46 The action spectrum of photosynthesis was first demonstrated in 1883 by Theodor W. Engelmann In his experiment, he exposed different segments of a filamentous alga to different wavelengths Areas receiving wavelengths favorable to photosynthesis produced excess O2 He used the growth of aerobic bacteria clustered along the alga as a measure of O2 production 2011 Pearson Education, Inc.
47 Chlorophyll a is the main photosynthetic pigment Accessory pigments, such as chlorophyll b, broaden the spectrum used for photosynthesis Accessory pigments called carotenoids absorb excessive light that would damage chlorophyll 2011 Pearson Education, Inc.
48 Figure CH3 CH3 in chlorophyll a CHO in chlorophyll b Porphyrin ring Hydrocarbon tail (H atoms not shown)
49 Excitation of Chlorophyll by Light When a pigment absorbs light, it goes from a ground state to an excited state, which is unstable When excited electrons fall back to the ground state, photons are given off, an afterglow called fluorescence If illuminated, an isolated solution of chlorophyll will fluoresce, giving off light and heat 2011 Pearson Education, Inc.
50 Figure Energy of electron e Excited state Heat Photon (fluorescence) Photon Chlorophyll molecule Ground state (a) Excitation of isolated chlorophyll molecule (b) Fluorescence
51 Figure 10.12a (b) Fluorescence
52 A Photosystem: A Reaction-Center Complex Associated with Light-Harvesting Complexes A photosystem consists of a reaction-center complex (a type of protein complex) surrounded by light-harvesting complexes The light-harvesting complexes (pigment molecules bound to proteins) transfer the energy of photons to the reaction center 2011 Pearson Education, Inc.
53 Figure Lightharvesting complexes Thylakoid membrane Photon Reactioncenter complex e Transfer of energy STROMA Primary electron acceptor Pigment Special pair of molecules chlorophyll a molecules THYLAKOID SPACE (INTERIOR OF THYLAKOID) (a) How a photosystem harvests light Thylakoid membrane Photosystem Chlorophyll Protein subunits (b) Structure of photosystem II STROMA THYLAKOID SPACE
54 Figure 10.13a Lightharvesting complexes Thylakoid membrane Photon Photosystem Reactioncenter complex STROMA Primary electron acceptor e Transfer of energy Pigment Special pair of molecules chlorophyll a molecules THYLAKOID SPACE (INTERIOR OF THYLAKOID) (a) How a photosystem harvests light
55 Thylakoid membrane Figure 10.13b Chlorophyll Protein subunits (b) Structure of photosystem II STROMA THYLAKOID SPACE
56 A primary electron acceptor in the reaction center accepts excited electrons and is reduced as a result Solar-powered transfer of an electron from a chlorophyll a molecule to the primary electron acceptor is the first step of the light reactions 2011 Pearson Education, Inc.
57 There are two types of photosystems in the thylakoid membrane Photosystem II (PS II) functions first (the numbers reflect order of discovery) and is best at absorbing a wavelength of 680 nm The reaction-center chlorophyll a of PS II is called P Pearson Education, Inc.
58 Photosystem I (PS I) is best at absorbing a wavelength of 700 nm The reaction-center chlorophyll a of PS I is called P Pearson Education, Inc.
59 Linear Electron Flow During the light reactions, there are two possible routes for electron flow: cyclic and linear Linear electron flow, the primary pathway, involves both photosystems and produces ATP and NADPH using light energy 2011 Pearson Education, Inc.
60 A photon hits a pigment and its energy is passed among pigment molecules until it excites P680 An excited electron from P680 is transferred to the primary electron acceptor (we now call it P680+) 2011 Pearson Education, Inc.
61 Figure Primary acceptor e 2 P680 1 Light Pigment molecules Photosystem II (PS II)
62 P680+ is a very strong oxidizing agent H2O is split by enzymes, and the electrons are transferred from the hydrogen atoms to P680+, thus reducing it to P680 O2 is released as a by-product of this reaction 2011 Pearson Education, Inc.
63 Figure Primary acceptor 2 H+ + 1 /2 O2 H2O e 2 3 e e P680 1 Light Pigment molecules Photosystem II (PS II)
64 Each electron falls down an electron transport chain from the primary electron acceptor of PS II to PS I Energy released by the fall drives the creation of a proton gradient across the thylakoid membrane Diffusion of H+ (protons) across the membrane drives ATP synthesis 2011 Pearson Education, Inc.
65 Figure Ele c Primary acceptor 2 H+ + 1 /2 O2 H2O e 2 Pq tron 4 tran spo r t ch ain Cytochrome complex 3 Pc e e 5 P680 1 Light ATP Pigment molecules Photosystem II (PS II)
66 In PS I (like PS II), transferred light energy excites P700, which loses an electron to an electron acceptor P700+ (P700 that is missing an electron) accepts an electron passed down from PS II via the electron transport chain 2011 Pearson Education, Inc.
67 Figure Ele c Primary acceptor 2H + 1 /2 O2 + H2O e 2 Pq tron 4 tran spo r Primary acceptor t ch ain e Cytochrome complex 3 Pc e e P700 5 P680 Light 1 Light 6 ATP Pigment molecules Photosystem II (PS II) Photosystem I (PS I)
68 Each electron falls down an electron transport chain from the primary electron acceptor of PS I to the protein ferredoxin (Fd) The electrons are then transferred to NADP+ and reduce it to NADPH The electrons of NADPH are available for the reactions of the Calvin cycle This process also removes an H+ from the stroma 2011 Pearson Education, Inc.
69 Figure Ele c Primary acceptor 2H + 1 /2 O2 + H2O e 2 Pq tron 4 tran spo r Primary acceptor t ch ain e Cytochrome complex E tra lect ch ns ron ai po n rt 7 Fd e e 8 NADP+ reductase 3 Pc e e P700 5 P680 Light 1 Light 6 ATP Pigment molecules Photosystem II (PS II) Photosystem I (PS I) NADP+ + H+ NADPH
70 Figure e e e e Mill makes ATP e n Photo e NADPH Photo n e ATP Photosystem II Photosystem I
71 Cyclic Electron Flow Cyclic electron flow uses only photosystem I and produces ATP, but not NADPH No oxygen is released Cyclic electron flow generates surplus ATP, satisfying the higher demand in the Calvin cycle 2011 Pearson Education, Inc.
72 Figure Primary acceptor Primary acceptor Fd Fd Pq NADP+ reductase Cytochrome complex NADPH Pc Photosystem I Photosystem II ATP NADP+ + H+
73 Some organisms such as purple sulfur bacteria have PS I but not PS II Cyclic electron flow is thought to have evolved before linear electron flow Cyclic electron flow may protect cells from light-induced damage 2011 Pearson Education, Inc.
74 A Comparison of Chemiosmosis in Chloroplasts and Mitochondria Chloroplasts and mitochondria generate ATP by chemiosmosis, but use different sources of energy Mitochondria transfer chemical energy from food to ATP; chloroplasts transform light energy into the chemical energy of ATP Spatial organization of chemiosmosis differs between chloroplasts and mitochondria but also shows similarities 2011 Pearson Education, Inc.
75 In mitochondria, protons are pumped to the intermembrane space and drive ATP synthesis as they diffuse back into the mitochondrial matrix In chloroplasts, protons are pumped into the thylakoid space and drive ATP synthesis as they diffuse back into the stroma 2011 Pearson Education, Inc.
76 Figure Chloroplast Mitochondrion CHLOROPLAST STRUCTURE MITOCHONDRION STRUCTURE H+ Intermembrane space Inner membrane Matrix Diffusion Electron transport chain Thylakoid membrane ATP synthase Stroma ADP + P i Key Higher [H ] Lower [H+ ] + Thylakoid space H + ATP
77 ATP and NADPH are produced on the side facing the stroma, where the Calvin cycle takes place In summary, light reactions generate ATP and increase the potential energy of electrons by moving them from H2O to NADPH 2011 Pearson Education, Inc.
78 Figure STROMA (low H+ concentration) Photosystem II Light 4 H+ Cytochrome complex Photosystem I Light NADP+ reductase 3 Fd Pq H2O NADPH Pc 2 1 THYLAKOID SPACE (high H+ concentration) /2 O2 +2 H+ NADP+ + H+ 1 4 H+ To Calvin Cycle Thylakoid membrane STROMA (low H+ concentration) ATP synthase ADP + Pi ATP H+
79 Concept 10.3: The Calvin cycle uses the chemical energy of ATP and NADPH to reduce CO2 to sugar The Calvin cycle, like the citric acid cycle, regenerates its starting material after molecules enter and leave the cycle The cycle builds sugar from smaller molecules by using ATP and the reducing power of electrons carried by NADPH 2011 Pearson Education, Inc.
80 Carbon enters the cycle as CO2 and leaves as a sugar named glyceraldehyde 3-phospate (G3P) For net synthesis of 1 G3P, the cycle must take place three times, fixing 3 molecules of CO2 The Calvin cycle has three phases Carbon fixation (catalyzed by rubisco) Reduction Regeneration of the CO2 acceptor (RuBP) 2011 Pearson Education, Inc.
81 Figure Input (Entering one 3 CO2 at a time) Phase 1: Carbon fixation Rubisco 3 P Short-lived intermediate P 3P Ribulose bisphosphate (RuBP) P 6 P 3-Phosphoglycerate
82 Figure Input (Entering one 3 CO2 at a time) Phase 1: Carbon fixation Rubisco 3 P Short-lived intermediate P 6 P 3-Phosphoglycerate P 3P Ribulose bisphosphate (RuBP) 6 ATP 6 ADP Calvin Cycle 6 P P 1,3-Bisphosphoglycerate 6 NADPH 6 NADP+ 6 Pi 6 P Glyceraldehyde 3-phosphate (G3P) 1 P G3P (a sugar) Output Glucose and other organic compounds Phase 2: Reduction
83 Figure Input (Entering one 3 CO2 at a time) Phase 1: Carbon fixation Rubisco 3 P Short-lived intermediate P 6 P 3-Phosphoglycerate P 3P Ribulose bisphosphate (RuBP) 6 ATP 6 ADP 3 ADP 3 Calvin Cycle 6 P P 1,3-Bisphosphoglycerate ATP Phase 3: Regeneration of the CO2 acceptor (RuBP) 6 NADPH 6 NADP+ 6 Pi P 5 G3P 6 P Glyceraldehyde 3-phosphate (G3P) 1 P G3P (a sugar) Output Glucose and other organic compounds Phase 2: Reduction
84 Concept 10.4: Alternative mechanisms of carbon fixation have evolved in hot, arid climates Dehydration is a problem for plants, sometimes requiring trade-offs with other metabolic processes, especially photosynthesis On hot, dry days, plants close stomata, which conserves H2O but also limits photosynthesis The closing of stomata reduces access to CO2 and causes O2 to build up These conditions favor an apparently wasteful process called photorespiration 2011 Pearson Education, Inc.
85 Photorespiration: An Evolutionary Relic? In most plants (C3 plants), initial fixation of CO2, via rubisco, forms a three-carbon compound (3phosphoglycerate) In photorespiration, rubisco adds O2 instead of CO2 in the Calvin cycle, producing a two-carbon compound Photorespiration consumes O2 and organic fuel and releases CO2 without producing ATP or sugar 2011 Pearson Education, Inc.
86 Photorespiration may be an evolutionary relic because rubisco first evolved at a time when the atmosphere had far less O2 and more CO2 Photorespiration limits damaging products of light reactions that build up in the absence of the Calvin cycle In many plants, photorespiration is a problem because on a hot, dry day it can drain as much as 50% of the carbon fixed by the Calvin cycle 2011 Pearson Education, Inc.
87 C4 Plants C4 plants minimize the cost of photorespiration by incorporating CO2 into four-carbon compounds in mesophyll cells This step requires the enzyme PEP carboxylase PEP carboxylase has a higher affinity for CO2 than rubisco does; it can fix CO2 even when CO2 concentrations are low These four-carbon compounds are exported to bundle-sheath cells, where they release CO2 that is then used in the Calvin cycle 2011 Pearson Education, Inc.
88 Figure The C4 pathway C4 leaf anatomy Mesophyll cell PEP carboxylase Mesophyll cell Photosynthetic cells of C4 Bundlesheath plant leaf cell Oxaloacetate (4C) Vein (vascular tissue) PEP (3C) ADP Malate (4C) Stoma Bundlesheath cell CO2 ATP Pyruvate (3C) CO2 Calvin Cycle Sugar Vascular tissue
89 Figure 10.20a C4 leaf anatomy Photosynthetic cells of C4 plant leaf Mesophyll cell Bundlesheath cell Vein (vascular tissue) Stoma
90 Figure 10.20b The C4 pathway Mesophyll cell PEP carboxylase Oxaloacetate (4C) PEP (3C) ADP Malate (4C) Bundlesheath cell CO2 ATP Pyruvate (3C) CO2 Calvin Cycle Sugar Vascular tissue
91 In the last 150 years since the Industrial Revolution, CO2 levels have risen greatly Increasing levels of CO2 may affect C3 and C4 plants differently, perhaps changing the relative abundance of these species The effects of such changes are unpredictable and a cause for concern 2011 Pearson Education, Inc.
92 CAM Plants Some plants, including succulents, use crassulacean acid metabolism (CAM) to fix carbon CAM plants open their stomata at night, incorporating CO2 into organic acids Stomata close during the day, and CO2 is released from organic acids and used in the Calvin cycle 2011 Pearson Education, Inc.
93 Figure Sugarcane Pineapple C4 Mesophyll Organic acid cell CAM CO2 1 CO2 incorporated Organic acid (carbon fixation) Calvin Cycle Night CO2 CO2 Bundlesheath cell CO2 2 CO2 released to the Calvin cycle Sugar (a) Spatial separation of steps Calvin Cycle Day Sugar (b) Temporal separation of steps
94 Figure 10.21a Sugarcane
95 Figure 10.21b Pineapple
96 The Importance of Photosynthesis: A Review The energy entering chloroplasts as sunlight gets stored as chemical energy in organic compounds Sugar made in the chloroplasts supplies chemical energy and carbon skeletons to synthesize the organic molecules of cells Plants store excess sugar as starch in structures such as roots, tubers, seeds, and fruits In addition to food production, photosynthesis produces the O2 in our atmosphere 2011 Pearson Education, Inc.
97 Figure H2O CO2 Light NADP+ ADP + Pi Light Reactions: Photosystem II Electron transport chain Photosystem I Electron transport chain RuBP 3-Phosphoglycerate Calvin Cycle ATP NADPH G3P Starch (storage) Chloroplast O2 Sucrose (export)
98 Figure 10.UN02 El Primary acceptor H2O O2 El ec tr on ch tr ai an n sp or Pq t Primary acceptor Pc Photosystem II ro n ch tr ai an n sp or Fd t NADP+ reductase Cytochrome complex ATP ec t Photosystem I NADP+ + H+ NADPH
99 Figure 10.UN03 3 CO2 Carbon fixation 3 5C 6 3C Calvin Cycle Regeneration of CO2 acceptor 5 3C Reduction 1 G3P (3C)
100 Figure 10.UN04 ph 4 ph 7 ph 4 ph 8 ATP
101 Figure 10.UN05
102 Figure 10.UN06
103 Figure 10.UN07
104 Figure 10.UN08
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