1 / 17

Biology 107 Cellular Respiration

Biology 107 Cellular Respiration. September 30, 2005. Cellular Respiration II. Student Objectives: As a result of this lecture and the assigned reading, you should understand the following:

monty
Download Presentation

Biology 107 Cellular Respiration

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Biology 107Cellular Respiration September 30, 2005

  2. Cellular Respiration II Student Objectives: As a result of this lecture and the assigned reading, you should understand the following: • Respiration occurs in two (2) stages: 1) the Krebs cycle (citric acid cycle) and 2) the terminal electron transport chain. • In eukaryotes these respiration reactions take place in mitochondria. 3. Some enzymes of the Krebs cycle are in the matrix of mitochondria; other enzymes of the Krebs cycle and the enzymes of the electron transport system are in the membrane of the cristae of the inner membrane. The outer membrane is relatively permeable, while the inner membrane restricts passage of most molecules and ions, including protons (H+ ions).

  3. Cellular Respiration II • Compared to glycolysis, the Krebs cycle pays off big energy dividends to the cell. a. Each turn of the cycle makes 1 ATP molecule (by substrate level phosphorylation) and 4 other energy-rich molecules (3NADH and 1 FADH2). b. Since two molecules of acetyl CoA are processed for each glucose precursor, the total yield is 2ATP, 6NADH, and 2 FADH2 (compared to the total of 2ATP and 2NADH molecules of glycolysis). 5. No oxygen is required for the Krebs cycle.

  4. Cellular Respiration II • After the Krebs cycle is completed, glucose is completely oxidized, but most of the energy is stored in electrons moved from carbon atoms to the electron carriers NAD+ and FAD. • In terminal electron transport, the high energy electrons stored in the NADH and FADH2 carriers are passed step-by-step to successively lower energy carriers embedded in the inner membrane of the mitochondrion until the electrons are finally accepted by the low energy level oxygen atom. • As the electrons are passed down the electron transport chain, H+ are transported from the matrix across the inner mitochondrial membrane to the intermembrane space and a concentration gradient of hydrogen ions is produced.

  5. Cellular Respiration II • The theory of chemiosmotic coupling explains how the concentration gradient of H+ is used to generate energy to make ATP. a. The enzyme complex ATP synthase synthesizes ATP using the energy stored in the concentration gradient of H+ ions (i.e., protons) across the inner membrane, which is relatively impermeable to H+. b. The H+ ions tend to move down their concentration gradient toward the matrix of the mitochondrion. Movement through the ATP synthase is used to generate the ATP from ADP and inorganic phosphate. 10. The process of generating ATP from the electron transport chain is called oxidative phosphorylation.

  6. Cellular Respiration I • Fats, complex carbohydrates, and proteins may be funneled into glycolysis or the Krebs cycle. The most common convergent point is acetyl CoA. • In prokaryotic cells (which lack mitochondria) the oxidative reactions are distributed between the cytoplasm and the plasma membrane.

  7. Aerobic Respiration Occurs in the Eukaryotic Mitochondrion and Includes the Krebs Cycle and the Electron Transport Chain/Oxidative Phosphorylation

  8. Pyruvate is Converted into Acetyl CoA to Enter the Krebs Cycle

  9. Pyruvate is Transported into the Mitochondrion and Converted to the 2-Carbon Acetyl CoA

  10. Steps of the Krebs Cycle

  11. General Organization of the Electron Transport Chain

  12. Electron Transport Chain Establishes a H+ Gradient Across the Inner Membrane

  13. The Movement of H+ Down Its Concentration Gradient Generates ATP

  14. Summary of Cellular Respiration

  15. Catabolic Pathways

  16. Catabolic Pathways

  17. Example of Regulation Mechanisms for Catabolic Pathways

More Related