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ENERGY, Photosynthesis, & Cellular Respiratio n

ENERGY, Photosynthesis, & Cellular Respiratio n. Releasing Food Energy. I. ATP: Energy In A Molecule. All food is broken down by the body into small molecules through digestion

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ENERGY, Photosynthesis, & Cellular Respiratio n

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  1. ENERGY, Photosynthesis, & Cellular Respiration

  2. Releasing Food Energy

  3. I.ATP: Energy In A Molecule • Allfoodis broken down by the body into small molecules through digestion • By the time food reaches your bloodstream, it has been broken down into nutrient molecules that can enter your cells.

  4. I.ATP: Energy In A Molecule • Cellular reactions then break down the food molecules,releasingenergy for the biological work your cells need to perform. • Energy = the ability to do work

  5. I.ATP: Energy In A Molecule • ATP (adenosine triphosphate)= energy storing molecule.

  6. I.ATP: Energy In A Molecule • Cells store energy by bonding a third phosphate group to ADP (adenosine diphosphate) to form ATP. • Cells RELEASE energy when ATP breaks down into ADPand phosphate!

  7. ENERGY released for cells Energy from food ATP ADP + Phosphate I.ATP: Energy In A Molecule

  8. I.ATP: Energy In A Molecule • Within a cell, formation of ATP from ADP and phosphate occurs over and over, storing energy each time!

  9. I.ATP: Energy In A Molecule • Cells use energy for: • Maintaining homeostasis • Eliminating wastes • Transmitting impulses (nerve cells) • Cellular movement (muscle cells) • Without ATP a cell would die!

  10. Photosynthesis

  11. I. OVERVIEW: "THE BIG PICTURE" • Photosynthesis = the process that provides energy for almost all life. • Autotrophs = organisms that make their own food • Ex: plants • Photosynthesis requires: • The sun's energy, water and carbon dioxide to make carbohydrate molecules and oxygen as byproducts.

  12. Chlorophyll • The process of PHOTOSYNTHESIS can be summarized by the following equation: 6CO2   +  6H2O  +  Sunlight     C6H12O6  +  6O2

  13. I. OVERVIEW: "THE BIG PICTURE" • The energy stored in glucose and other carbohydrates can be used later to produce ATP during the process of cellular respiration. • We’ll discuss cellular respiration in more detail very soon!

  14. I. OVERVIEW: "THE BIG PICTURE" • The process of photosynthesis does NOT happen all at once; rather it occurs in 2 stages:

  15. I. OVERVIEW: "THE BIG PICTURE" 1. STAGE 1 – Called the LIGHT REACTIONS. • Light energy is converted to chemical energy • Takes place – Energy is captured from sunlightin the chlorophyll of the chloroplasts of plant cells.  • A photosynthetic cell contains one to thousands of chloroplasts!

  16. Stage 1: Light Reactions • Water is split into hydrogen ions, electrons, and oxygen (O2) through the process called the electron transport chain.  • The light energy is now converted to chemical energy, which is temporarily stored in ATP and NADPH (energy molecules). • The O2diffuses out of the chloroplasts (byproduct).

  17. Stage 2: Calvin Cycle 2. STAGE 2 – Called the CALVIN CYCLE or Dark Reactions. • Carbon dioxide (CO2) and the chemical energy stored in ATP and NADPH powers the formation of carbohydrate molecules (sugars, starch and cellulose).

  18. Stage 2: Calvin Cycle • Takes place – in the stroma of a chloroplast

  19. PHOTOSYNTHESIS Flow Chart Sun- light H2O CO2 NADPH Dark Reactions (Calvin cycle) Light Reactions ATP C6H12O6 O2

  20. Photosynthesis Equation: ____+ ____ + ______ _____ + _____ Chlorophyll C6H12O6 6H2O 6CO2 Sunlight 6O2

  21. Cellular Respiration

  22. I. OVERVIEW: "THE BIG PICTURE" • Cellular respiration= an energy (ATP) releasing process: • PLANTS: sugars (C6H12O6 ) produced during photosynthesisare broken down so energy is released • ANIMALS: sugars (C6H12O6 ) produced during digestion are broken down so energy is released

  23. I. OVERVIEW: "THE BIG PICTURE" • Formula: C6H12O6 + 6O2 6H2O + 6CO2 + ATP

  24. C6H12O6 + 6O2 6H2O + 6CO2 + ATP • The PRODUCTS of photosynthesis glucose (C6H12O6) and O2, are the REACTANTS used in cellular respiration. • The WASTE PRODUCTS of cellular respiration, CO2 and water, are the REACTANTS used in photosynthesis.

  25. I. OVERVIEW: "THE BIG PICTURE" • Processes: • Glycolysis • Kreb’s Cycle(Citric Acid Cycle) • Electron Transport Chain (ETC)

  26. II. TWO TYPES OF CELLULAR RESPIRATION:  1.Aerobic Respiration= OXYGEN is present • If OXYGEN is PRESENT, the products of glycolysis ENTER the pathways of aerobic respiration. • 2 major stages: Kreb’s Cycle& Electron Transport Chain • Produces large amounts of ATP

  27. II. TWO TYPES OF CELLULAR RESPIRATION:  2. Anaerobic Respiration=NoOXYGEN is present • aka….Fermentation • No additional ATPis created AFTER glycolysis produces 2 ATP

  28. ~ Note: Both types of respiration BEGIN with glycolysis.

  29. III. AEROBIC RESPIRATION PROCESSES: 1. GLYCOLYSIS: • Occurs in the cytoplasm of the cell • Starting molecule: ONE molecule of glucose (C6H12O6)

  30. Glycolysis…. • Produces:twopyruvic acids or pyruvates (C3H6O3) • 2 ATPmolecules • Attaches H’s to NAD+ (electron carrier) and forms NADH (high energy molecule)

  31. III. AEROBIC RESPIRATION PROCESSES: 2. KREB’S CYCLE (Citric Acid Cycle) – Aerobic respiration • Aerobic process (requires oxygen) • Occurs in the mitochondrion

  32. Kreb’s Cycle…. • Starting molecules: 2 pyruvatesand oxygen • Produces:NADH and FADH2, CO2and 2 ATPmolecules • Attaches H’s to NAD+ and FAD to create NADH and FADH2 (these will be used to make more ATPin the ETC)

  33. III. AEROBIC RESPIRATION PROCESSES: 3. ELECTRON TRANSPORT CHAIN (ETC) – Aerobic respiration • Aerobic process (requires oxygen) • Occurs in the inner membrane of themitochondria

  34. ETC…. • Starting molecules:NADH and FADH2and oxygen • Uses the NADH and FADH2 from the Kreb’s Cycle and another NADH from Glycolysis.

  35. ETC…. • Produces:Waterand 32 ATP’s • FADH2 and NADH, release H’s so they can attach to oxygen and produce water • Energy is released as a result of breaking down these molecules.

  36. Importance of Aerobic Respiration: • To transfer chemical energy (glucose) to a form of energy that is useable by cells (ATP)!!! • Total net gain of ATP molecules per 1 glucose = 36 ATP’s

  37. Relationship of Photosynthesis & Cellular Respiration: • The products of one reaction are the reactants for the other reaction. • In an ecosystem, photosynthesis and cellular respiration form a cycle

  38. Sunlight Photosynthesis (autotrophs) CO2 + H2O O2 + Glucose Cellular Respiration (heterotrophs)

  39. Anaerobic Respiration

  40. IV. ANAEROBIC RESPIRATION PROCESSES: • Occurs AFTER glycolysis, only if NO oxygen is present • No additional ATP is created after the 2ATP’s from glycolysis!

  41. (Anaerobic Respiration)2 Types: 1. Alcoholic Fermentation: • Occurs in plants • Starting molecules:2 pyruvates and NADH (from glycolysis) • Produces:ethyl alcohol and carbon dioxide. • Bakers use alcoholic fermentation of YEAST to make bread. • Used to make wine and beer

  42. (Anaerobic Respiration)2 Types: 2. Lactic Acid Fermentation: • Occurs in animals • Starting molecules:2 pyruvates and NADH (from glycolysis) • Produces:lactic acid • Lactic acid fermentation by microorganisms plays an essential role in the manufacturing of food products such as yogurtand cheese.

  43. Lactic Acid Fermentation: • DURING EXERCISE: breathing cannot provide your body with all the oxygen it needs for aerobic respiration.

  44. Lactic Acid Fermentation & Exercise • When muscles run out ofoxygen, the cells switch to lactic acid fermentation! • Provides your muscles with the energy then need during exercise.

  45. Lactic Acid Fermentation & Exercise • Side effects of lactic acid fermentation are muscle fatigue, pain, cramps, and soreness. • Most lactic acid made in the muscles diffuses into the bloodstream, then to the liver; where it is converted back to PYRUVIC ACID when oxygen becomes available.

  46. Flow Chart AEROBIC Respiration (__________________________) Oxygen PRESENT

  47. O2 C6H12O6 O2 FADH2 + NADH 2 Pyruvates #2 Kreb’s Cycle #3 ETC #1 Glycolysis NADH NADH 2 ATP 2 ATP CO2 32 ATP H2O

  48. Aerobic Respiration EQUATION: _______ + ____ _____ + _____ +____ C6H12O6 6O2 6H2O 6CO2 36 ATP

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