chapter 9 biology sixth edition raven/johnson (c) the mcgraw-hill companies, inc
TRANSCRIPT
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Chapter 9
BiologySixth Edition
Raven/Johnson
(c) The McGraw-Hill Companies, Inc.
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Cellular respiration is the step-wise release of energy from molecules (usually carbohydrates) used to synthesize ATP molecules.
Drives ATP synthesis
Oxidation of glucose is an exergonic reaction (releases energy) which drives ATP synthesis - an endergonic reaction (energy is required).
Overall reaction for cellular respiration:
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NAD+ and FAD• Each step of cellular respiration requires a
separate enzyme• Some enzymes use the oxidation-reduction
coenzyme NAD+ or the coenzyme FAD.
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Remember:When NAD+ NADH it has been reduced.
Remember:When NADH NAD+ it has been oxidized.
The NAD+ cycle
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4 Phases of Complete Glucose Breakdown
• Glycolysis - yields 2 ATP• Pyruvate oxidation – oxidation reaction• Krebs cycle – yields 2 ATP• Electron transport chain – yields 32-34 ATP
• Net ATP produced from respiration: 36-38
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Universally found in all organisms.
Does not require oxygen.
Outside the Mitochondria: Glycolysis
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Glucose (6-C sugar)
3-C sugar-phosphate 3-C sugar-phosphate
3-C pyruvate 3-C pyruvate
Overview of Glycolysis
6-C sugar diphosphate2 ADP
2 ATP
2 NADH
2 ATP
2 NADH
2 ATP
2 ADP 2 ADP
2 NAD+ 2 NAD+
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Glycolysis summary
Inputs:
Glucose
2 NAD+
2 ATP
4 ADP + 4 P
Outputs:
2 pyruvate
2 NADH
2 ADP
4 ATP (2 net gain)
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Pyruvate
(Oxygen present) (Oxygen not present)
Cellular Respiration Fermentation
Fermentation inputs and outputs per glucose molecule
Inputs:
glucose
2 ATP
4 ADP + 4 P
Outputs:
2 lactate or 2 alcohol and 2 CO2
2 ADP
4 ATP (2 net gain)
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2-carbon molecule + 1
CO2
3-carbon molecule + 0
CO2
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2Pyruvate + 2CoA 2 Acetyl-CoA + 2CO2
2 NAD+ 2 NADH + H+
Pyruvate oxidation: if oxygen is present
Pyruvate is converted to a C2 acetyl group attached to coenzyme A (CoA), and CO2 is released. This occurs in the cytoplasm if oxygen is present.
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Krebs Cycle• The Krebs cycle is a cyclical metabolic
pathway located in the matrix of the mitochondria.
• At the start of the citric acid cycle, CoA carries the C2 acetyl group to join a C4 molecule, and C6 citrate results.
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C4
Acetyl-CoA (2 C)
C6NADH
CO2
C5
NADH
CO2
ATP
C4
FADH2
NADH
Krebs cycleNAD+
NAD+
NAD+
FADH
ADP + P
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Krebs cycle inputs and outputs per glucose molecule
Inputs:
2 acetyl groups
6 NAD+
2 FAD
2 ADP + 2 P
Outputs:
4 CO2
6 NADH
2 FADH2
2 ATP
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Electron Transport Chain• The electron transport chain located in the
cristae of mitochondria is a series of protein carriers
• Electrons carried by NADH and FADH2 enter the electron transport chain.
• As a pair of electrons is passed from carrier to carrier, energy is released and is used to form ATP molecules by oxidative phosphorylation.
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Oxygen receives energy-spent electrons at the end of the electron transport system then combines with hydrogen to form water:
½ O2 + 2 e- + 2 H+ → H2O
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Glucose + O2 CO2 + H2O + ATP
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NAD+
NADH
Glycolysis
Transition
Reaction
Krebs
Cycle
Electron
Transport
Chain
Remember: Electrons = Energy
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Feedback mechanisms
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R-g
rou
p
Acidic group
Amino group
H group
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With Beta-oxidation the last two carbons of a fatty acid chain enter the Krebs cycle.
This process is repetitive until the entire fatty acid chain is consumed.
A 6 Carbon fatty acid molecule produces more ATP than a glucose (based on the amount of NADH and FADH2 produced.
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When PEP transfers a phosphate group to ADP, pyruvate is formed. This is called substrate level phosphorylation.
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ADP and PEP are substrates and an enzyme facilitates the transfer of a phosphate group from PEP to ADP to create ATP. The energy in the bond is conserved.
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The End.