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Chapter 10. Photosynthesis: The Calvin Cycle Life from Air

Chapter 10. Photosynthesis: The Calvin Cycle Life from Air. Remember what it means to be a plant…. Need to produce all organic molecules necessary for growth carbohydrates, lipids proteins, nucleic acids Need to store chemical energy in stable form

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Chapter 10. Photosynthesis: The Calvin Cycle Life from Air

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  1. Chapter 10.Photosynthesis: The Calvin Cycle LifefromAir

  2. Remember what it means to be a plant… • Need to produce all organic molecules necessary for growth • carbohydrates, lipids • proteins, nucleic acids • Need to store chemical energy • in stable form • can be moved around plant • saved for a rainy day

  3. + water + energy  glucose + oxygen carbon dioxide light energy  6CO2 + 6H2O + + 6O2 C6H12O6 Autotrophs • Making energy & organic molecules from light energy • photosynthesis

  4. From Light reactions to Calvin cycle • Calvin cycle • chloroplast stroma • Need products of light reactions to drive synthesis reactions • ATP • NADPH

  5. From CO2 C6H12O6 • CO2 has very little chemical energy • C6H12O6contains a lot of chemical energy • reduced • Reduction of CO2C6H12O6proceeds in many small uphill steps • each catalyzed byspecific enzyme • using energy stored in ATP & NADPH

  6. 1C 3C CO2 RuBP 5C 6C unstable intermediate 3 ATP 3 ADP 3C PGA 2x 3C 6 ATP 6 NADPH 2x 6 NADP 6 ADP Calvin cycle ribulose bisphosphate 1. Carbon fixation 3. Regeneration Rubisco ribulose bisphosphatecarboxylase PGAL to make glucose PGAL/ G3P sucrose cellulose etc. x2 2. Reduction

  7. Calvin cycle • PGAL/G3P • end product of Calvin cycle • energy rich sugar • 3 carbon compound • “C3 photosynthesis” • PGAL  important intermediate PGAL   glucose   carbohydrates   lipids   amino acids   nucleic acids

  8. PGA PGA PGA RuBP RuBP RuBP PGAL PGAL

  9. Rubisco • Enzyme which fixescarbon from atmosphere • ribulose bisphosphate carboxylase • the most important enzyme in the world! • it makes life out of air! • definitely the most abundant enzyme

  10. Accounting • The accounting is complicated • 3 turns of Calvin cycle = 1 PGAL/G3P • 3 CO21 PGAL/G3P (3C) • 6 turnsof Calvin cycle = 1 C6H12O6(6C) • 6 CO21 C6H12O6(6C) • 18 ATP + 12 NADPH  1 C6H12O6

  11. + water + energy  glucose + oxygen carbon dioxide light energy  6CO2 + 6H2O + + 6O2 C6H12O6 Photosynthesis summary • Making energy & organic molecules from light energy

  12. Photosynthesis summary • Light reactions • produced ATP • produced NADPH • consumed H2O • produced O2 as byproduct • Calvin cycle • consumed CO2 • produced PGAL • regenerated ADP • regenerated NADP

  13. light energy  6CO2 + 6H2O + + 6O2 C6H12O6 Summary of photosynthesis • Where did the CO2 come from? • Where did the CO2 go? • Where did the H2O come from? • Where did the H2O go? • Where did the energy come from? • What’s the energy used for? • What will the C6H12O6be used for? • Where did the O2 come from? • Where will the O2 go? • What else is involved that is not listed in this equation?

  14. Supporting a biosphere • On global scale, photosynthesis is the most important process for the continuation of life on Earth • each year photosynthesis synthesizes 160 billion tons of carbohydrate • heterotrophs are dependent on plants as food source for fuel & raw materials

  15. Closed stomates • closed stomates lead to… • O2 builds up (from light reactions) • CO2 is depleted (in Calvin cycle) • causes problems in Calvin Cycle

  16. Inefficiency of Rubisco: CO2 vs O2 • Rubisco in Calvin cycle • carbon fixation enzyme • normally bonds CO2to RuBP • when O2 concentration is high • Rubisco bonds O2to RuBP • O2 is alternative substrate photosynthesis photorespiration

  17. Impact of Photorespiration • Oxidation of RuBP • short circuit of Calvin cycle • loss of carbons to CO2 • can lose 50% of carbons fixed by Calvin cycle • decreases photosynthetic output by siphoning off carbons • no ATP (energy) produced • no C6H12O6 (food) produced • if photorespiration could be reduced, plant would become 50% more efficient • strong selection pressure

  18. Reducing photorespiration • Separate carbon fixation from Calvin cycle • C4 plants • physically separate carbon fixation from Calvin cycle • different enzyme to capture CO2 • PEP carboxylase stores carbon in 4C compounds • different leaf structure • CAM plants • separate carbon fixation from Calvin cycle by time of day • fix carbon (capture CO2) during night • store carbon in organic acids • perform Calvin cycle during day

  19. C4 Plants corn sugar cane

  20. O2 PEP carboxylase light reactions • PEP carboxylase enzyme • higher affinity for CO2 than O2 (better than Rubisco) • fixes CO2 in 4C compounds • regenerates CO2 in inner cells for Rubisco phosphoenolpyruvate (3C) + CO2 oxaloacetate (4C)

  21. CAM (Crassulacean Acid Metabolism) plants • Different adaptation to hot, dry climates • succulents, some cacti, pineapple • separate carbon fixation from Calvin cycle by time • close stomates during day • open stomates during night • at night, open stomates & fix carbon in “storage” compounds • organic acids: malic acid, isocitric acid • in day, close stomates & release CO2 from “storage” compounds to Calvin cycle • increases concentration of CO2 in cells

  22. CAM plants

  23. C4 vs CAM Summary • solves CO2 / O2 gas exchangevs. H2O losschallenge C4plants separate 2 steps of C fixation physically in 2 different cells CAMplants separate 2 steps of C fixation temporally at2 different times

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