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Chapter 13 How Cells Obtain Energy From Food Essential Cell Biology FOURTH EDITION Copyright © Garland Science 2014 Alberts Bray Hopkin Johnson Lewis Raff.

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Presentation on theme: "Chapter 13 How Cells Obtain Energy From Food Essential Cell Biology FOURTH EDITION Copyright © Garland Science 2014 Alberts Bray Hopkin Johnson Lewis Raff."— Presentation transcript:

1 Chapter 13 How Cells Obtain Energy From Food Essential Cell Biology FOURTH EDITION Copyright © Garland Science 2014 Alberts Bray Hopkin Johnson Lewis Raff Roberts Walter

2 Enzymes Allow Energy to be Extracted from Food in Discrete Steps and Stored in Activated Carrier Molecules Fig. 13-1 ATP NADH

3 Fig. 13-3 Catabolism Occurs in Three Stages

4 Overview of Glycolysis Fig. 13-4

5 Fig. 13-5 A little more detail…. ATP consumed Set up for ATP production exceeding ATP consumption NADH production (NAD + regenerated by ETC of mitochondria in aerobic organisms)

6 NAD + regenerated by fermentation in anaerobic cells Fig. 13-6

7 Skeletal muscles contain both aerobic slow twitch and anaerobic fast twitch muscle fibers. fast slow Karp,CMB7 slow twitch: long duration, low intensity contractions (+ mitochondria) fast twitch: short duration, high intensity contractions (- mitochondria)

8 Step 6Step 7 Focus on Steps Producing NADH and ATP Panel 13-1  G = +1.5  G = - 4.5 Combined  G = - 3.0

9 Fig. 13-7 High-Energy Bond Created in Step 6 Provides Energy for ATP Synthesis in Step 7 can be used in OxPhos substrate level phosphorylation

10 Step 6: -short-lived high energy thioester bond formed between Cys of enzyme and substrate -electrons transferred from substrate to NAD + -high energy Pi bond displaces high energy thioester bond linking substrate to enzyme Step 7: -high energy Pi transferred to ADP in ATP synthesis by substrate-level phosphorylation Fig. 13-9a Details of High Energy Bond

11 Fig-139b Steps 6 & 7 Generate Products for ATP Synthesis by Two Mechanisms

12 Phosphate Bonds with Higher Energy Than Those in ATP Can Be Used to Produce ATP by Substrate-Level Phosphorylation Step 7 Step 10 Fig. 13-8 energy investment: step 1 creatine phosphate (~10.0) stored in muscle

13 Step 10 Also Involves Substrate-Level Phosphorylation Panel 13-1

14 Pyruvate Converted to Acetyl CoA and CO2 by Pyruvate Dehydrogenase in Mitochondria large complex contains multiple copies of enzymatic subunits 1 and 3 tethered to core subunit 2 Fig. 13-10

15 Fig. 13-12 Citric Acid Cycle NADH used in ATP synthesis by OxPhos Fats also enter cycle as acetyl-CoA.

16 Electron transport generates H + gradient during Oxidative Phosphorylation Fig. 13-19 IMMOMM matrix ATP and NADH activated carriers produced

17 Two Other Activated Carriers Produced in Citric Acid Cycle GTP (ATP equivalent) FADH 2 e - carrier Fig. 13-13 produced by SDH embedded in IMM

18 Krebs Used SDH Inhibitor to Show Pathway is Cyclical x Malonate Inhibits SDH Step Fig. 13-15

19 Addition of either A-D or F-H caused accumulation of E (Succinate) during inhibition. Fig. 13-17

20

21 Glycolysis and Citric Acid Cycle Also Provide Entry Points to Anabolic Pathways Fig. 13-14 also provide entry points for other C sources for catabolism

22 Big Picture of Metabolic Pathways in Cells Glycolysis and Citric Acid Cycle in Red Fig. 13-20

23 Regulating Catabolism vs. Anabolism: allosteric modulation of key enzymes by ATP & AMP Catabolism Anabolism Fig. 13-21 ATP AMP ATP AMP starvation stimulates starvation inhibits

24 Acetyl-CoA Fig. 13-11 Fig. 13-22 Excess Glucose Stored in Form of Glycogen and Triacylglycerol

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