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AKA Light Independent Reactions. Melvin Calvin Identified the pathway in the 1950’s.

Published byTyrone Franklin Booth Modified over 9 years ago

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Presentation on theme: "AKA Light Independent Reactions. Melvin Calvin Identified the pathway in the 1950’s."— Presentation transcript:

1 AKA Light Independent Reactions

2 Melvin Calvin Identified the pathway in the 1950’s

3 The Calvin Cycle Rxn that converts CO 2 to G3P Called CO 2 Assimilation Occurs in the stroma of chloroplasts A cyclic series of rxn’s

4 The Calvin Cycle The rxn’s are indirectly dependent on light because the ATP and NADPH made during the light rxn fuel the Calvin Cycle.

5

6 The Calvin Cycle 3 Phases 1.Carbon Fixation 2.Reduction Reactions 3.Regeneration of RuBP

7

8 Phase 1: Carbon Fixation CO 2 (from atmosphere) joins with RuBP Forms unstable 6C compound

9 Phase 1: Carbon Fixation Immediately splits into 2 3C PGA’s Catalyzed by rubisco (a large enzyme, works very slowly – so many are needed)

10 Carbon Fixation

11 Phase 2: Reduction ATP donates Pi to PGA – makes PGAP (bisphosphoglycerate) NADPH (produced during Light Rxn) donates H + and 2e - to PGAP

12 Phase 2: Reduction Becomes NADP + again and returns to thylakoid membrane Donated H + reduces PGAP to PGAL (G3P)

13 Phase 2: Reduction One G3P exits here (will be used to make glucose, sucrose, starch)

14

15 Phase 3: RuBP Regeneration Complex series of rxns take remaining 5 G3P and rearrange them to make 3 RuBP 3 ATP are used

16

17 C 4 Plants  Many plants begin the Calvin Cycle with a 4 carbon compound instead of a 3 carbon compound.  They include grasses (sugar cane and corn). These plants live in areas that are very hot and semi-arid.

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