1. Plant Metabolism Chapter 10 Copyright © McGraw-Hill Companies Permission Required for Reproduction or Display

2. Outline Photosynthesis  Major Steps of Photosynthesis  Light-Dependent Reactions  Light-Independent Reactions  C 4 Photosynthesis  CAM Photosynthesis Respiration  Glycolysis  Electron Transport Chain

3. Enzymes and Energy Transfer Enzymes regulate most metabolic activities.  Anabolism - Storing Energy. - Photosynthesis reactions  Catabolism - Consuming Stored Energy. - Respiration reactions Oxidation-Reduction Reactions  Oxidation - Loss of electron(s).  Reduction - Gain of electron(s) - Usually coupled

4. Photosynthesis Energy for most cellular activity involves adenosine triphosphate (ATP).  Plants make ATP using light as an energy source. - Take place in cholorpolasts and other green parts of the organisms. 6CO 2 +12H 2 O + light  C 6 H 12 O 6 +6O 2 +6H 2 O

5. Carbon Dioxide Carbon dioxide (0.035% of air) reaches cholorplasts in the mesophyll cells by diffusing through the stomata into the leaf interior.  If not replenished, CO 2 would be used up in 22 years. Use of fossil fuels, deforestation, and other human activities have added excess carbon dioxide to the atmosphere. - May enhance photosynthesis.  Plants may counter-balance by developing fewer stomata.

6. Water Less than 1% of all the water absorbed by plants is used in photosynthesis.  Most of the remainder is transpired or incorporated into plant materials. If water is in short supply, stomata usually close and thus reduce the supply of carbon dioxide available for photosynthesis.

7. Light About 40% of the radiant energy received on earth is in the form of visible light.  Leaves commonly absorb about 80% of the visible light reaching them. - Light intensity varies with time of day, season, altitude, latitude, and atmospheric composition.  Considerable variation in the light intensities necessary for optimal photosynthetic rates.

8. Light Wavelengths

9. Effects of Light and Temperature on Photosynthesis Copyright © McGraw-Hill Companies Permission Required for Reproduction or Display

10. Chlorophyll Several different types of chlorophyll.  Most plants contain both chlorophyll a (blue-green) and chlorophyll b (yellow- green). - Other pigments include carotenoids (yellow and orange) phycobilins (blue or red), and several other types of chlorophyll. - About 250-400 pigment molecules group as a photosynthetic unit.

11. Grass green in color: C 55 H 72 MgN 4 O 5 Chlorophyll b: bluish green in color :C 55 H 70 MgN 4 O 6 3a:1b

12. Major Steps of Photosynthesis Light Dependent Reactions  Water molecules split apart.  Electrons passed along electron transport.  ATP produced.  NADPH produced.

13. Major Steps of Photosynthesis Light Independent Reactions  Calvin Cycle - Carbon dioxide combined with RuBP and then combined molecules are converted to sugars (Glucose).  Energy furnished by ATP and NADPH from Light-Dependent Reactions.

14. Light Dependent Reactions - In Depth Each pigment has its own distinctive pattern of light absorption. When pigment absorbs light : electrons are excited. When this occurs, energy may be immediately emmitted as light :flourescence or emmitted after a delay : phosphorescence or may be converted to heat.

15. Light Dependent Reactions - In Depth Two types of photosynthetic units present in most chloroplasts make up photosystems.  Photosystems I and II - Both can produce ATP. - Only organisms with both photosystem I and photosystem II can produce NADPH and oxygen as a consequence of electron flow.

17. Photosystems Copyright © McGraw-Hill Companies Permission Required for Reproduction or Display

18. Mitchell Theory or Chemiosmosis

19. Light Independent Reactions - In Depth Calvin Cycle  Six molecules of CO 2 combine with six molecules of RuBP with the aid of rubisco.  Resulting complexes split into twelve 3PGA molecules.  NADPH and ATP supply energy and electrons that reduce 3PGA to 12 GA3P.  Ten of the twelve GA3P molecules are restructured into six RuBP molecules.

20. The Calvin Cycle Copyright © McGraw-Hill Companies Permission Required for Reproduction or Display

21. Photorespiration Stomata usually close on hot, dry days.  Closed stomata prevent carbon dioxide from entering the leaf. Then CO 2 decrease as relative O 2 increase. - When carbon dioxide levels drop below about 50 parts per million, photorespiration is initiated.  Rubisco fixes oxygen instead of carbon dioxide.

22. Light Independent Reactions - In Depth 4-Carbon Pathway  Sugar cane, corn, sorghum and at least 1000 species of plants have Kranz Anatomy. Two forms of chloroplasts: - Large chloroplast with few to no grana in the bundle sheath cells surrounding the veins. - Smaller chloroplasts with well-developed grana in the mesophyll cells.

23. Corn (Zea Mays) Cross-Section

24. Fig. 10.2a

25. 4-Carbon Pathway Plants with Kranz Anatomy produce oxaloacetic acid (4- carbon compound).  Phosphoenolpyruvat e (PEP) and carbon dioxide combined in mesophyll cells with the aid of PEP carboxylase. - Provides a major reduction in photorespiration.

26. CAM Photosynthesis Seen in plants of about 30 families including cacti orchids etc. Similar to C4 photosynthesis in that 4-carbon compounds are produced during the light- independent reactions.  However, in CAM, the organic acids accumulate at night and break down during the day, releasing carbon dioxide. - Allows plants to function well under limited water supplies, as well as high light intensity.

27. CAM Photosynthesis

28. Fig. 10.22

29. Comparision Leaf AnatomyNo bundle sheath Krantz Anatomy No palliside cells, large vauoles Carboxylation Enzymes RuBiscoPEP +RuBiscoDrakness PEP +Light RuBisco Transpiration ratio (gm H 2 O/ gm dry weight increase) 450-950250-35050-55 Optimum P.S. Temperature 15-25 o C30-40 o C35 o C C3C3 C4C4 CAM CO2 Compensation point 30-70 ppm0-10 ppm0-5 ppm in dark Dry matter prod.22 tons/ha/year39 tons/ha/yearLow; highly variable

30. C4 vs. CAM C4  Stores CO 2 in 4 carbon acid  Separates CO 2 fixation from sugar synthesis in SPACE(Bundle sheath vs mesophyll space)  Adaptations to TROPICAL environments CAM  Stores CO 2 in 4 carbon acid  Separates CO 2 fixation from sugar synthesis in TIME  Adaptations to ARID environments

31. Other Processes in Chloroplasts 1) Sulphates : reduced to sulphides these then used for biosynthesis of S-containing amino acids 2) Nitrites converted to ammonia. This is then converted to amino groups which are integral part of several important amino acids such as glutamine and aspartic acid.

32. Respiration Respiration is essentially the release of energy from glucose molecules that are broken down to individual carbon dioxide molecules. C 6 H 12 O 6 + 6O 2  6CO 2 + 6H 2 O + energy

33. Respiration Fermentation C 6 H 12 O 6  2C 2 H 5 OH + 2CO 2 + ATP C 6 H 12 O 6  2C 3 H 6 O 3 + ATP

34. Factors Affecting the Rate of Respiration Temperature Water Oxygen

35. Major Steps of Respiration Glycolysis  Glucose molecule becomes a fructose molecule carrying two phosphates.  Fructose molecule is split into two GA3P molecules.  Some hydrogen, energy, and water are removed, leaving pyruvic acid.

36. Major Steps of Respiration Aerobic Respiration  Citric Acid (Krebs) Cycle O.A. + acetyl CoA + ADP+P+3NAD + FAD  O.A. + CoA+ATP+3NADH+H + + FADH 2 +2CO 2 Electron Transport  Oxidative Phosphorylation  Chemiosmosis

37. Assimilation and Digestion Assimilation is the process of using organic matter produced through photosynthesis to build protoplasm and cell walls. Digestion is the conversion of starch and other insoluble carbohydrates to soluble forms.  Nearly always hydrolysis.

38. Endosperm starch grains of rice Starch Soluble forms DIGESTION Conversion of PSic products to structural forms such as protoplasm or cell wall is called ASSIMILATION

39. Rs Releases energy from sugar molecules Releases carbon dioxide and water Decreases weight Occurs in either light or darkness Occurs in all living cells Utilizes oxygen (aerobic respiration) Produces ATP with energy released from sugar Ps Stores energy in sugar Uses carbon dioxide and water Increases weight Occurs only in light Occurs only in cells containing chlorphyll Produces oxygen in green organisms Produces ATP with light energy

40. Review Photosynthesis  Major Steps of Photosynthesis  Light-Dependent Reactions  Light-Independent Reactions  C 4 Photosynthesis  CAM Photosynthesis Respiration  Glycolysis  Electron Transport Chain

41. Copyright © McGraw-Hill Companies Permission Required for Reproduction or Display