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Cellular Respiration

Cellular Respiration. Cellular Respiration. Objectives:. 1. Explain how ATP provides energy for life. 2. Define cellular respiration. 3. Explain the process of glycolysis. 4. Contrast the processes of fermentation in yeast and bacteria.

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Cellular Respiration

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  1. Cellular Respiration

  2. Cellular Respiration Objectives: • 1. Explain how ATP provides energy for life. • 2. Define cellular respiration. • 3. Explain the process of glycolysis. • 4. Contrast the processes of fermentation in yeast and bacteria. • 5. Describe the structure of the mitochondria and relate the structure to its function. • 6. Explain why aerobic respiration is so much more efficient than anaerobic respiration. • 7. Relate respiration and photosynthesis to the carbon-oxygen cycle.

  3. Cellular Respiration • Energy from comes from food!! • Cellular Respiration is a metabolic process like burning fuel • Burning energy yields some heat, but much of the energy in food we use to make ATP • This ATP provides cells with the energy they need to carry out the activities of life. * Cellular respiration occurs in all cells 24 hours a day.

  4. ATP • Most of the energy from cell respiration is converted into ATP • ATP is a substance that powers most cell activities. Storage of energy as ATP H2O + ATP ADP + P + ENERGY!!!!!!!! ATP synthase

  5. Adenosine Triphosphate

  6. Cellular Respiration • Is a series of reactions where fats, proteins, and carbohydrates, mostly glucose, are broken down to make CO2, water, and energy. • A single glucose molecule can be divided into 36 smaller energy packets yielding 36 ATP molecules.

  7. Cellular Respiration • When ATP is hydrolyzed, energy is released. This energy can be used to help the organism maintain homeostasis. • The energy released from ATP breakdown is used to obtain, transform, transport, materials, and excrete wastes.

  8. Cellular Respiration Cellular Energy • The Stages of Cellular Respiration Cellular respiration has two stages. • Glycolysis The first stage of cellular respiration is called glycolysis. • Aerobic and Anaerobic Respiration The second stage of cellular respiration is either aerobic respiration (in the presence of oxygen) or anaerobic respiration (in the absence of oxygen). A large amount of ATP is made during aerobic respiration. NAD+is recycled during the anaerobic process of fermentation.

  9. Cellular Respiration Stage One: Breakdown of Glucose • Some cells lack the enzymes necessary for aerobic respiration and other cells revert to anaerobic respiration when oxygen is lacking. • Enzymes necessary for anaerobic respiration are located in the cytoplasm. • The first step of any respiration is: Glycolysis- Glucose is broken down to pyruvate during, making some ATP.

  10. Cellular Respiration Fermentation in the Absence of Oxygen • Fermentation When oxygen is not present, fermentation follows glycolysis, regenerating NAD+ needed for glycolysis to continue. • Lactic Acid Fermentation In lactic acid fermentation, bacteria and other animals covert pyruvate to lactic acid. Makes things SOUR! • Alcohol fermentation- Yeasts convert pyruvate to alcohol and CO2

  11. Anaerobic Respiration • Bacteria ferment foods yielding acids and are useful to humans because they give us different cheeses, sour cream, sauerkraut, pickles vinegar and all that nice sour stuff we eat. They also ferment food in our refrigerators and are the culprit of rotten spoiled food! Glucose Acids +2ATP • Yeastsferment foods yielding CO2 and alcohol and are used in baking and brewing industries. Glucose Alcohol + CO2 + 2ATP

  12. Aerobic Respiration uses Mitochondria • The matrix where 3-carbon pieces that came from carbohydrates are broken down to (CO2 and water) • The cristae is where ATP is made. (Highly folded to increase surface area for enzyme action)

  13. Enzyme controlled reactions gradually breakdown glucose C6H12O6 + 6O2 6CO2 + 6 H2O + 36ATP Glucose + oxygen carbon dioxide + water + 36 ATP Aerobic Respiration is much more efficient than anaerobic respiration which leaves much stored energy in the acid or alcohol molecules.

  14. Cellular Respiration Stage Two: Production of ATP • Krebs Cycle The Krebs cycle is a series of reactions that produce energy-storing molecules during aerobic respiration. • Electron Transport Chain During aerobic respiration, large amounts of ATP are made in an electron transport chain.

  15. Review • When oxygen is present most the ATP made in cellular respiration is produced by: A. aerobic respiration B. Glycolysis C. alcoholic fermentation D. Lactic acid fermentation.

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