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Cellular Respiration:

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Chapter 8 Cellular Respiration: Harvesting Chemical Energy * – PowerPoint PPT presentation

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Title: Cellular Respiration:


1
Chapter 8
  • Cellular Respiration
  • Harvesting Chemical Energy

2
Aerobic Anaerobic Metabolism
  • Aerobic metabolism - When enough oxygen reaches
    cells to support energy needs
  • - Maximum energy production
  • Anaerobic metabolism
  • When the demand for oxygen outstrips the bodys
    ability to deliver it
  • Low energy production

3
AEROBIC HARVEST OF FOOD ENERGY
  • Cellular respiration is the main way that
    chemical energy is harvested from food and
    converted to ATP for cellular work
  • Cellular respiration is an aerobic process
    requiring oxygen

4
The Versatility of Cellular Respiration
  • Cellular respiration can burn other kinds of
    molecules besides glucose
  • Diverse types of carbohydrates
  • Fats
  • Proteins

4
5
The Overall Equation for Cellular Respiration
  • A common fuel molecule for cellular respiration
    is glucose
  • This is the overall equation for what happens to
    glucose during cellular respiration

Glucose
Oxygen
Carbon dioxide
Water
Energy
6
But Remember
  • Cellular Respiration is a metabolic pathway, not
    a single reaction
  • Many chemical reactions, both aerobic and
    anaerobic, are involved in the process of
    cellular respiration
  • Lots of enzymes are required for the process to
    occur

7
The Relationship Between Cellular Respiration and
Breathing
  • Cellular respiration and breathing are closely
    related
  • Cellular respiration requires a cell to exchange
    gases with its surroundings
  • Breathing exchanges these gases between the blood
    and outside air

8
The Role of Oxygen in Cellular Respiration
  • During cellular respiration, hydrogen and its
    bonding electrons change partners
  • Hydrogen and its electrons go from sugar to
    oxygen, forming water

9
Comparison
Respiration Photosynthesis
Occurs in all organisms Occurs in only chlorophyll containing organisms
Breaks down glucose Stores light energy as chemical energy in the bonds of glucose
Releases carbon dioxide, water, ATP Produces glucose and oxygen
Exergonic Reaction Endergonic reaction
10
The Metabolic Pathway of Cellular Respiration
  • All of the reactions involved in cellular
    respiration can be grouped into three main stages
  • Glycolysis occurs in cytoplasm
  • The Krebs cycle occurs in matrix of
    mitochondria
  • Electron transport occurs across the
    mitochondrial membrane

11
A Road Map for Cellular Respiration
Mitochondrion
Cytosol
High-energy electrons carried mainly by NADH
High-energy electrons carried by NADH
Glycolysis
Krebs Cycle
2 Pyruvic acid
Electron Transport
Glucose
12
Glycolysis
  • Stage One

13
Stage 1 Glycolysis
  • Glycolysis takes place in the cytoplasm
  • Oxygen NOT required
  • Process breaks a six-carbon glucose into two,
    three-carbon molecules
  • A molecule of glucose is split into two molecules
    of pyruvic acid
  • These molecules then donate high energy electrons
    to NAD, forming NADH

14
Glycolysis
METABOLIC PATHWAY
2 Pyruvic acid
Glucose
15
Glycolysis
CoA
Acetic acid
Pyruvic acid
Acetyl-CoA (acetyl-coenzyme A)
CO2
Coenzyme A
15
16
Krebs Cycle
  • Stage Two

17
Stage 2 The Krebs Cycle
  • The Krebs cycle completes the breakdown of sugar
  • It occurs inside the mitochondria
  • In the Krebs cycle, pyruvic acid from glycolysis
    is first prepped into a usable form by
    combining it with enzyme Co-A to make Acetyl-CoA

18
ACETYL Co-A
Input
Output
2
Acetic acid
1
2 CO2
3
ADP
Krebs Cycle
3 NAD?
4
FAD
5
6
19
Electron Transport
  • Stage 3

20
Stage 3 Electron Transport
  • Electron transport releases the energy your cells
    need to make the most of their ATP
  • The molecules of electron transport chains are
    built into the inner membranes of mitochondria

21
Stage 3 Electron Transport
  • The chain functions as a chemical machine that
    uses energy released by the fall of electrons
    to pump hydrogen ions across the inner
    mitochondrial membrane
  • These ions store potential energy

22
Electron transport chain
  • Cytochromes carry electron 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)

23
Protein complex
Electron carrier
Inner mitochondrial membrane
Electron flow
ATP synthase
Electron transport chain
24
Food
Polysaccharides
Fats
Proteins
Sugars
Glycerol
Fatty acids
Amino acids
Amino groups
Acetyl- CoA
Krebs Cycle
Glycolysis
Electron Transport
25
Adding Up the ATP
Cytosol
Mitochondrion
Glycolysis
2 Acetyl- CoA
Krebs Cycle
2 Pyruvic acid
Electron Transport
Glucose
Maximum per glucose
by ATP synthase
by direct synthesis
by direct synthesis
Figure 6.14
26
FERMENTATION ANAEROBIC HARVEST OF FOOD ENERGY
  • Some of your cells can actually work for short
    periods without oxygen (anaerobic respiration)
  • For example, muscle cells can produce ATP under
    anaerobic conditions
  • Called Fermentation
  • Involves The anaerobic harvest of food energy

27
Fermentation in Human Muscle Cells
  • Human muscle cells can make ATP with and without
    oxygen
  • They have enough ATP to support activities such
    as quick sprinting for about 5 seconds
  • A secondary supply of energy (creatine phosphate)
    can keep muscle cells going for another 10
    seconds
  • To keep running, your muscles must generate ATP
    by the anaerobic process of fermentation

28
  • Glycolysis is the metabolic pathway that provides
    ATP during fermentation
  • Pyruvic acid is reduced by NADH, producing NAD,
    which keeps glycolysis going
  • In human muscle cells, lactic acid is a
    by-product

29
2 ADP 2
Glycolysis
2 NAD?
2 NAD?
Glucose
2 Pyruvic acid
2 H?
2 Lactic acid
Lactic acid fermentation
30
Fermentation in Microorganisms
  • Various types of microorganisms perform
    fermentation
  • Yeast cells carry out a slightly different type
    of fermentation pathway
  • This pathway produces CO2 and ethyl alcohol

31
2 ADP 2
2 CO2 released
2 ATP
Glycolysis
2 NAD?
2 NAD?
2 Ethyl alcohol
Glucose
2 Pyruvic acid
2 H?
Alcoholic fermentation
32
  • The food industry uses yeast to produce various
    food products

33
Related metabolic processes
  • Fermentation alcohol pyruvate to ethanol
    lactic acid pyruvate to lactate
  • Facultative anaerobes (yeast/bacteria)

34
Review Cellular Respiration
  • Glycolysis
  • 2 ATP (substrate-level phosphorylation)
  • Krebs Cycle
  • 2 ATP (substrate-level phosphorylation)
  • Electron transport oxidative phosphorylation
  • 2 NADH (glycolysis) 6ATP
  • 2 NADH (acetyl CoA) 6ATP
  • 6 NADH (Krebs) 18 ATP
  • 2 FADH2 (Krebs) 4 ATP
  • 38 TOTAL ATP/glucose


35
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36
Sunlight supplies the energy!
Sunlight energy
Bonds of Glucose, made in chloroplasts, contain
the stored energy
Ecosystem
Photosynthesis (in chloroplasts)
Raw materials for cellular respiration
Carbon dioxide
Raw materials for photosynthesis
Glucose
Oxygen
Water
Glucose broken down to release energy for
cellular work
Cellular respiration (in mitochondria)
Cellular energy
Heat energy
36
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