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Chapter 9~ Cellular Respiration: Harvesting Chemical Energy

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Presentation on theme: "Chapter 9~ Cellular Respiration: Harvesting Chemical Energy"— Presentation transcript:

1 Chapter 9~ Cellular Respiration: Harvesting Chemical Energy

2 Principles of Energy Harvest
Catabolic pathway √ Fermentation √Cellular Respiration C6H12O6 + 6O2 ---> 6CO2 + 6H2O + E (ATP + heat)

3 Redox reactions Oxidation-reduction OIL RIG
(adding e- reduces + charge) Oxidation is e- loss; reduction is e- gain Reducing agent: e- donor Oxidizing agent: e- acceptor

4 Oxidizing agent in respiration
NAD+ (nicotinamide adenine dinucleotide) Removes electrons from food (series of reactions) NAD + is reduced to NADH Enzyme action: dehydrogenase Oxygen is the eventual e- acceptor

5 Electron transport chains
Electron carrier molecules (membrane proteins) Shuttles electrons that release energy used to make ATP Sequence of reactions that prevents energy release in 1 explosive step Electron route: food---> NADH ---> electron transport chain --- > oxygen

6 Cellular respiration Glycolysis: cytosol; breaks glucose into pyruvate
Kreb’s Cycle: mitochondrial matrix; pyruvate into carbon dioxide Electron Transport Chain: inner membrane of mitochondrion; electrons passed to oxygen

7 Glycolysis 1 Glucose ---> 2 pyruvate molecules
Energy investment phase: cell uses ATP to phosphorylate fuel Energy payoff phase: ATP is produced by substrate-level phosphorylation and NAD+ is reduced to NADH by food oxidation Net energy yield per glucose molecule: 2 ATP plus 2 NADH; no CO2 is released; occurs aerobically or anaerobically

8 Glycolysis

9 Kreb’s Cycle If molecular oxygen is present…….
Each pyruvate is converted into acetyl CoA (begin w/ 2): CO2 is released; NAD+ ---> NADH; coenzyme A (from B vitamin), makes molecule very reactive From this point, each turn 2 C atoms enter (pyruvate) and 2 exit (carbon dioxide) Oxaloacetate is regenerated (the “cycle”) For each pyruvate that enters: 3 NAD+ reduced to NADH; 1 FAD+ reduced to FADH2 (riboflavin, B vitamin); 1 ATP molecule

10 Kreb’s Cycle Use the Campbell CD and watch the Kreb’s Cycle. Use the dropbox and go to Chapter 9. I believe it is labeled as concept 9.3 Activity. (Image below is first one of the activity)

11 Citric Acid Cycle (Kreb’s)
Use the diagram in the book (pages ) and compare it to the animation on the following website TCA Cycle Link 11

12 Electron transport chain
Cytochromes carry electrons from carrier molecules (NADH & FADH2) down to oxygen Chemiosmosis: energy coupling mechanism ATP synthase: produces ATP by using the H+ gradient (proton-motive force) pumped into the inner membrane space from the electron transport chain; this enzyme harnesses the flow of H+ back into the matrix to phosphorylate ADP to ATP (oxidative phosphorylation)

13 Electron Transport Use the Campbell CD and look at the Electron Transport Animation

14 Review: Cellular Respiration
Glycolysis: ATP (substrate-level phosphorylation) Kreb’s Cycle: ATP (substrate-level phosphorylation) Electron transport & oxidative phosphorylation: NADH (glycolysis) = 6ATP NADH (acetyl CoA) = 6ATP NADH (Kreb’s) = 18 ATP FADH2 (Kreb’s) = 4 ATP 38 TOTAL ATP/glucose

15 Related metabolic processes
Fermentation: (2 types) Frees NAD+ for glycolysis to continue alcohol~ pyruvate to ethanol lactic acid~ pyruvate to lactate Facultative anaerobes (yeast/bacteria) use fermentation Beta-oxidation lipid catabolism

16 Respiration Lab Bell If respiration of a small mammal were studied at room temperature (21 degrees Celsius) and 10 degrees Celsius, what results would you predict? Explain your reasoning. What was the independent variable in the experiment? What was the dependent variable? What variables needed to be controlled? 16


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