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Figure 9.0 Orangutans eating

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Presentation on theme: "Figure 9.0 Orangutans eating"— Presentation transcript:

1 Figure 9.0 Orangutans eating

2 Figure 9.1 Energy flow and chemical recycling in ecosystems
fermentation, anaerobic respiration: no oxygen is required. cellular respiration: aerobic or anaerobic

3 Figure 9.x1 ATP

4 Figure 9.2 A review of how ATP drives cellular work
Pi (inorganic phosphate) dead no energy

5 Figure 9.3 Methane combustion as an energy-yielding redox reaction

6 Figure 9.4 NAD+ as an electron shuttle

7 Figure 9.5 An introduction to electron transport chains

8 Figure 9.6 An overview of cellular respiration (Layer 1)
splitting glucose carbons Molecule 6 C splitting into 2, 3 C molecules taking the high energy electrons off the glucose... putting on to a NAD bus

9 Figure 9.6 An overview of cellular respiration (Layer 2)

10 Figure 9.6 An overview of cellular respiration (Layer 3)

11 Figure 9.7 Substrate-level phosphorylation

12 Figure 9.8 The energy input and output of glycolysis

13 Figure 9.9 A closer look at glycolysis: energy investment phase (Layer 1)

14 Figure 9.9 A closer look at glycolysis: energy investment phase (Layer 2)

15 Figure 9.9 A closer look at glycolysis: energy payoff phase (Layer 3)

16 Figure 9.9 A closer look at glycolysis: energy payoff phase (Layer 4)

17 Figure Conversion of pyruvate to acetyl CoA, the junction between glycolysis and the Krebs cycle

18 Figure 9.11 A closer look at the Krebs cycle (Layer 1)

19 Figure 9.11 A closer look at the Krebs cycle (Layer 2)

20 Figure 9.11 A closer look at the Krebs cycle (Layer 3)

21 Figure 9.11 A closer look at the Krebs cycle (Layer 4)

22 Figure 9.12 A summary of the Krebs cycle

23 Figure 9.13 Free-energy change during electron transport

24 Figure 9.14 ATP synthase, a molecular mill

25 Figure 9.15 Chemiosmosis couples the electron transport chain to ATP synthesis

26 Figure Review: how each molecule of glucose yields many ATP molecules during cellular respiration

27 Figure 9.17a Fermentation

28 Figure 9.17b Fermentation

29 Figure 9.x2 Fermentation

30 Figure 9.18 Pyruvate as a key juncture in catabolism

31 Figure 9.19 The catabolism of various food molecules

32 Figure 9.20 The control of cellular respiration

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