how cells release chemical energy chapter...
TRANSCRIPT
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How Cells Release Chemical Energy
Chapter 7
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7.1 Overview of
Carbohydrate Breakdown Pathways
All organisms (including photoautotrophs)
convert chemical energy of organic compounds
to chemical energy of ATP
ATP is a common energy currency that drives
metabolic reactions in cells
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Pathways of Carbohydrate Breakdown
Start with glycolysis in the cytoplasm
• Convert glucose and other sugars to pyruvate
Fermentation pathways
• End in cytoplasm, do not use oxygen, yield 2 ATP
per molecule of glucose
Aerobic respiration
• Ends in mitochondria, uses oxygen, yields up to
36 ATP per glucose molecule
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Pathways of Carbohydrate Breakdown
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Fig. 7.2b, p.108
a All carbohydrate breakdown pathways
start in the cytoplasm, with glycolysis.
b Fermentation pathways
are completed in the semifluid
matrix of the cytoplasm.
c In eukaryotes, aerobic
respiration is completed
inside mitochondria.
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Overview of Aerobic Respiration
Three main stages of aerobic respiration:
1. Glycolysis
2. Krebs cycle
3. Electron transfer phosphorylation
Summary equation:
C6H12O6 + 6O2 → 6CO2 + 6 H2O
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Overview of Aerobic Respiration
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Key Concepts: ENERGY FROM
CARBOHYDRATE BREAKDOWN
All organisms produce ATP by degradative
pathways that extract chemical energy from
glucose and other organic compounds
Aerobic respiration yields the most ATP from
each glucose molecule
In eukaryotes, aerobic respiration is completed
inside mitochondria
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7.2 Glycolysis –
Glucose Breakdown Starts
Enzymes of glycolysis use two ATP to convert
one molecule of glucose to two molecules of
three-carbon pyruvate
Reactions transfer electrons and hydrogen
atoms to two NAD+ (reduces to NADH)
4 ATP form by substrate-level phosphorylation
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Products of Glycolysis
Net yield of glycolysis:
• 2 pyruvate, 2 ATP, and 2 NADH per glucose
Pyruvate may:
• Enter fermentation pathways in cytoplasm
• Enter mitochondria and be broken down further in
aerobic respiration
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Glycolysis
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Glycolysis
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Key Concepts:
GLYCOLYSIS
Glycolysis is the first stage of aerobic respiration
and of anaerobic routes (fermentation pathways)
As enzymes break down glucose to pyruvate,
the coenzyme NAD+ picks up electrons and
hydrogen atoms
Net energy yield is two ATP
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7.3 Second Stage of Aerobic Respiration
The second stage of aerobic respiration takes
place in the inner compartment of mitochondria
It starts with acetyl-CoA formation and proceeds
through the Krebs cycle
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Second Stage of Aerobic Respiration
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Acetyl-CoA Formation
Two pyruvates from glycolysis are converted to
two acetyl-CoA
Two CO2 leave the cell
Acetyl-CoA enters the Krebs cycle
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Krebs Cycle
Each turn of the Krebs cycle, one acetyl-CoA is
converted to two molecules of CO2
After two cycles
• Two pyruvates are dismantled
• Glucose molecule that entered glycolysis is fully
broken down
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Energy Products
Reactions transfer electrons and hydrogen
atoms to NAD+ and FAD
• Reduced to NADH and FADH2
ATP forms by substrate-level phosphorylation
• Direct transfer of a phosphate group from a
reaction intermediate to ADP
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Net Results
Second stage of aerobic respiration results in
• Six CO2, two ATP, eight NADH, and two FADH2
for every two pyruvates
Adding the yield from glycolysis, the total is
• Twelve reduced coenzymes and four ATP for
each glucose molecule
Coenzymes deliver electrons and hydrogen to
the third stage of reactions
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Second Stage Reactions
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Fig. 7.6b, p.113
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7.4 Third Stage:
Aerobic Respiration’s Big Energy Payoff
Coenzymes deliver electrons and hydrogen ions
to electron transfer chains in the inner
mitochondrial membrane
Energy released by electrons flowing through
the transfer chains moves H+ from the inner to
the outer compartment
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Hydrogen Ions and Phosphorylation
H+ ions accumulate in the outer compartment,
forming a gradient across the inner membrane
H+ ions flow by concentration gradient back to
the inner compartment through ATP synthases
(transport proteins that drive ATP synthesis)
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The Aerobic Part of Aerobic Respiration
Oxygen combines with electrons and H+ at the
end of the transfer chains, forming water
Overall, aerobic respiration yields up to 36 ATP
for each glucose molecule
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Electron Transfer Phosphorylation
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Fig. 7.7a, p.114
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NADH FADH2
ATP
Fig. 7.7b, p.114
ADP + Pi
H+
H+
H+ H+
H+ H+
H+ H+ H+
H+ H+ H+
INNER
MITOCHONDRIAL
MEMBRANE
OUTER
COMPARTMENT
INNER
COMPARTMENT
H2O
1/2 O2
H+
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Key Concepts:
HOW AEROBIC RESPIRATION ENDS
In the Krebs cycle (and a few steps before)
• Pyruvate is broken down to carbon dioxide
• Coenzymes pick up electrons and hydrogen atoms
In electron transfer phosphorylation
• Coenzymes deliver electrons to transfer chains
that set up conditions for ATP formation
Oxygen accepts electrons at end of chains
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Summary: Aerobic Respiration
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Fig. 7.8, p.115
glucose
Glycolysis
2 pyruvate
Krebs
Cycle
Electron Transfer
Phosphorylation
(2 net)
2 NADH
ATP
2 FADH2
6 NADH
2 acetyl-CoA
32
ADP + Pi
H+
ATP
2 NADH
2 NADH
ATP
ATP
H+ H+ H+ H+
2 NAD+
2 CO2
4 CO2
2
oxygen
INNER MITOCHONDRIAL COMPARTMENT
OUTER MITOCHONDRIAL COMPARTMENT
CYTOPLASM
water
2
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7.5 Anaerobic
Energy-Releasing Pathways
Different fermentation pathways begin with
glycolysis and end in the cytoplasm
• Do not use oxygen or electron transfer chains
• Final steps do not produce ATP; only regenerate
oxidized NAD+ required for glycolysis to continue
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Anaerobic Pathways
Lactate fermentation
• End product: Lactate
Alcoholic fermentation
• End product: Ethyl alcohol (or ethanol)
Both pathways have a net yield of 2 ATP per
glucose (from glycolysis)
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Alcoholic and Lactate Fermentation
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Fig. 7.9a, p.116
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Fig. 7.9b, p.116
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glucose Glycolysis
2
pyruvate
NADH
2 CO2
2 NAD+
2 ATP
ATP 4
Fig. 7.9b, p.116
NADH
2 NAD+
2
Alcoholic
Fermentation acetaldehyde
ethanol
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Fig. 7.9c, p.116
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Fig. 7.9c, p.116
glucose Glycolysis
2
pyruvate
NADH
2 NAD+
2 ATP
ATP 4
NADH
2 NAD+
2
Lactate
Fermentation
lactate
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Alcoholic Fermentation
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7.6 The Twitchers
Slow-twitch and fast-twitch skeletal muscle fibers
can support different activity levels
Aerobic respiration and lactate fermentation
proceed in different fibers of muscles
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Muscles and Lactate Fermentation
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Key Concepts:
HOW ANAEROBIC PATHWAYS END
Fermentation pathways start with glycolysis
Substances other than oxygen are the final
electron acceptor
Compared with aerobic respiration, net yield of
ATP is small
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7.7 Alternative Energy Sources
in the Body
In humans and other mammals, foods enter
aerobic respiration at various steps
• Simple sugars from carbohydrates
• Glycerol and fatty acids from fats
• Carbon backbones of amino acids from proteins
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Disposition of Organic Compounds
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Fig. 7.12a, p.119
FOOD
fats COMPLEX CARBOHYDRATES PROTEINS
glucose, other simple sugars amino acids
Glycolysis
glycerol fatty acids
pyruvate
acetyl-coA
NADH
Krebs
Cycle
NADH, FADH2
PGAL acetyl-coA
oxaloacetate or another intermediate of the Krebs
Electron Transfer
Phosphorylation
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Key Concepts:
OTHER METABOLIC PATHWAYS
Molecules other than glucose are common
energy sources
Different pathways convert lipids and proteins to
substances that may enter glycolysis or the
Krebs cycle
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7.8 Life’s Unity
Photosynthesis and aerobic respiration are
interconnected on a global scale
In its organization, diversity, and continuity
through generations, life shows unity at the
bioenergetic and molecular levels
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Energy, Photosynthesis, and
Aerobic Respiration
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Key Concepts:
PERSPECTIVE AT UNIT’S END
Life shows unity in its molecular and cellular
organization and in its dependence on a one-
way flow of energy