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Cellular Respiration Stages 2-4.

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Presentation on theme: "Cellular Respiration Stages 2-4."— Presentation transcript:

1 Cellular Respiration Stages 2-4

2 Where does is happen? Stages 2-4 occur in the mitochondria *Mitotondrial Matrix *Inner membrane Ask what it looks like. What else has those things

3 Pyruvate Oxidation Converts Pyruvate (3C) to acetyl CoA (2C) in 3 steps Each pyruvate produces: *1 CO2 *1 NADH *1 acetyl CoA *Acetyl CoA goes to stage 3 Gets in through membrane protein

4 Krebs Cycle (Cirtic Acid Cycle)
8 step cycle that gets the remaining energy out of acetyl CoA and puts it into Electron Carriers Each pyruvate produces: *2 CO2 *3 NADH *1 FADH2 *1 ATP

5 Krebs Cycle Key Points 1st step breaks off the acetyl group of acetyl CoA and puts it onto oxaloacetate to form Citrate Why is citrate important?

6 Krebs Cycle Key Points Next 7 steps include several Redox reaction that produce 3 NADH, 1 FADH2 and decompose citrate back to oxaloacetate (for each pyruvate)

7 Citric acid cycle Figure 7.11-6 Acetyl CoA 1 Oxaloacetate 8 2 Malate
CoA-SH NADH 1  H H2O NAD Oxaloacetate 8 2 Malate Citrate Isocitrate NAD Citric acid cycle 3 NADH 7  H H2O CO2 Fumarate CoA-SH -Ketoglutarate Figure A closer look at the citric acid cycle (step 8) 6 4 CoA-SH 5 FADH2 CO2 NAD FAD Succinate P NADH i GTP GDP Succinyl CoA  H ADP ATP formation ATP 7

8 Oxidative Phosphorylation
2 parts to this: 1)ETC: Series of redox reactions that use electron carrier proteins to slowly release the energy from NADH and FADH2… Also moves H+ out of cell 2)Chemiosmosis: Process that uses the movement of H+ through ATP synthase to phosphorylate ADPATP

9 Electron Transport Chain (ETC)
*Removes the electrons from NADH and FADH2 passes them down to O2 to make H2O *Creates an H+ gradient by pumping H+ out of the matrix into the intermembrane space

10 Chemiosmosis The H+ wants to move back into the mitochondrial matrix—ATP Synthase only way in Energy from movement is enough to add a Pi to ADP

11 Electron transport chain Oxidative phosphorylation
Protein complex of electron carriers H H Cyt c IV Q III I ATP synthase II 2 H  ½ O2 H2O FADH2 FAD NADH NAD Figure 7.14 Chemiosmosis couples the electron transport chain to ATP synthesis ADP  P ATP i (carrying electrons from food) H 1 Electron transport chain 2 Chemiosmosis Oxidative phosphorylation 11

12 Amino acids Fatty acids Citric acid cycle Oxidative phosphorylation
Figure Proteins Carbohydrates Fats Amino acids Sugars Glycerol Fatty acids Glycolysis Glucose Glyceraldehyde 3- P NH3 Pyruvate Figure The catabolism of various molecules from food (step 5) Acetyl CoA Citric acid cycle Oxidative phosphorylation 12

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