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Cellular Respiration by Shelley Penrod and RM Chute

Cellular Respiration by Shelley Penrod and RM Chute. Anaerobic Respiration Glycolysis Fermentation Alcohol Lactic Acid. Aerobic Respiration Krebs Cycle Electron Transport Chain. Glycolysis Outline. 10. cytoplasm. 10. NADH H +. ADP + 2P 1. NAD+. ATP. ATP. glucose.

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Cellular Respiration by Shelley Penrod and RM Chute

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  1. Cellular Respirationby Shelley Penrod and RM Chute • Anaerobic Respiration • Glycolysis • Fermentation • Alcohol • Lactic Acid • Aerobic Respiration • Krebs Cycle • Electron Transport Chain

  2. Glycolysis Outline 10 cytoplasm 10 NADH H+ ADP + 2P1 NAD+ ATP ATP glucose pyruvic acid return to summary

  3. Pyruvic Acid  Aerobic or Anaerobic bacteria to mitochondria Aerobic back of page Muscles(lactic acid) Yeast (alcohol) Anaerobic Fermentation

  4. oxygen Anaerobic Respiration Fermentation NADH H+ NADH H+ NAD+ ADP +P1 ATP 2 pyruvic acid Lactic Acid Fermentation NAD+ H H lactic acid

  5. oxygen Anaerobic Respiration Fermentation NADH H+ NADH H+ NAD+ ADP +P1 ATP 2 Alcohol Fermentation pyruvic acid CO2 NAD+ H H ethanol

  6. Aerobic Respiration pyruvic acid 2 1 matrix matrix 8 4 mitochondria mitochondria CO2 1 2 NADH H+ citric acid CO2 CO2 CoA CoA recycles for 2nd Pyruvic Acid and 2nd turn of the Krebs Cycle ATP NADH H+ Krebs Cycle (TCA) Citric Acid Cycle CoA NADH H+ acetyl CoA oxaloacetic acid oxaloacetic acid pyruvic acid 2nd pyruvic acid FADH2 NADH H+ return to summary

  7. inner Electron Transport Chain –Oxidative Phosphorylation mitochondria electrons H+ ATPSynthase three two

  8. Summary of Maximum Energy Yield from the Oxidation of One Molecule of Glucose 2 2 Glycolysis: 6 * 6 2 Glycolysis: 3 6 1 Pyruvic acid 1 Krebs Cycle 24 3 9 1 2 38 * pdf. Handout

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