Cellular Respiration Stage 4: Electron Transport Chain (Ch....
Transcript of Cellular Respiration Stage 4: Electron Transport Chain (Ch....
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Cellular RespirationStage 4: Electron Transport Chain (Ch. 6)
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Cellular respiration
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What’s thepoint?
The pointis to make
ATP!
ATP
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ATP accounting so far…
• Glycolysis 2 ATP
• Kreb’s cycle 2 ATP
• Life takes a lot of energy to run, need to extract more energy than 4 ATP!
A working muscle recycles over
10 million ATPs per second
There’s got to be a better way!
I need a lotmore ATP!
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There is a better way!
• Electron Transport Chain
– series of proteins built into inner mitochondrial membrane
• along cristae
• transport proteins & enzymes
– transport of electrons down ETC linked to pumping of H+ to create H+ gradient
– yields ~36 ATP from 1 glucose!
– only in presence of O2 (aerobic respiration)
O2
Thatsounds more
like it!
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Mitochondria • Double membrane
– outer membrane
– inner membrane
• highly folded cristae
• enzymes & transport proteins
– intermembrane space
• fluid-filled space between membranes
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Electron Transport Chain
Intermembrane space
Mitochondrial matrix
Q
C
NADH dehydrogenase
cytochromebc complex
cytochrome coxidase complex
Innermitochondrialmembrane
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G3PGlycolysis Krebs cycle
8 NADH
2 FADH2
Remember the Electron Carriers?
2 NADH
Time tobreak open
the piggybank!
glucose
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Electron Transport Chain
intermembranespace
mitochondrialmatrix
innermitochondrialmembrane
NAD+
Q
C
NADH H2O
H+
e–
2H+ + O2
H+H+
e–
FADH2
1
2NADH
dehydrogenasecytochromebc complex
cytochrome coxidase complex
FAD
e–
H
H e- + H+
NADH NAD+ + H
H
p
e
Building proton gradient!
What powers the proton (H+) pumps?…
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H+
H+H+
H+
H+ H+
H+H+H+
ATP
NAD+
Q
C
NADH H2O
H+
e–
2H+ + O2
H+H+
e–FADH2
1
2NADH
dehydrogenasecytochromebc complex
cytochrome coxidase complex
FAD
e–
Stripping H from Electron Carriers• Electron carriers pass electrons & H+ to ETC
– H cleaved off NADH & FADH2
– electrons stripped from H atoms H+ (protons)
• electrons passed from one electron carrier to next in mitochondrial membrane (ETC)
• flowing electrons = energy to do work
– transport proteins in membrane pump H+ (protons) across inner membrane to intermembrane space
ADP
+ Pi
TA-DA!!Moving electrons
do the work!
H+ H+ H+
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But what “pulls” the
electrons down the ETC?
electronsflow downhill
to O2 oxidative phosphorylation
O2
H2O
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Electrons flow downhill• Electrons move in steps from
carrier to carrier downhill to oxygen– each carrier more electronegative
– controlled oxidation
– controlled release of energy
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H+
ADP + Pi
H+H+
H+
H+ H+
H+H+
H+We did it!
ATP
• Set up a H+ gradient
• Allow the protonsto flow through ATP synthase
• Synthesizes ATP
ADP + Pi ATP
Are wethere yet?
“proton-motive” force
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• The diffusion of ions across a membrane
– build up of proton gradient just so H+ could flow through ATP synthase enzyme to build ATP
Chemiosmosis
Chemiosmosis
links the Electron
Transport Chain
to ATP synthesis
So that’sthe point!
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Peter Mitchell
• Proposed chemiosmotic hypothesis
– revolutionary idea at the time
1961 | 1978
1920-1992
proton motive force
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H+
H+
O2+
QC
ATP
Pyruvate from
cytoplasm
Electron
transport
system
ATPsynthase
H2O
CO2
Krebs
cycle
Intermembrane
spaceInner
mitochondrial
membrane
1. Electrons are harvested and carried to the transport system.
2. Electronsprovide energy to pump protons across the membrane.
3. Oxygen joins with protons to form water.
2H+
NADH
NADH
Acetyl-CoA
FADH2
ATP
4. Protons diffuse back indown their concentrationgradient, driving the synthesis of ATP.
Mitochondrial
matrix
21
H+
H+
O2
H+
e-
e-
e-
e-
ATP
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Show the Mitochondria Clip!
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Cellular respiration
2 ATP 2 ATP ~36 ATP+ +
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Summary of cellular respiration
• Where did the glucose come from?
• Where did the O2 come from?
• Where did the CO2 come from?
• Where did the CO2 go?
• Where did the H2O come from?
• Where did the ATP come from?
• What else is produced that is not listed in this equation?
• Why do we breathe?
C6H12O6 6O2 6CO2 6H2O ~40 ATP+ + +
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ETC backs up
nothing to pull electrons down chain
NADH & FADH2 can’t unload H
ATP production ceases
cells run out of energy
and you die!
Taking it beyond…• What is the final electron
acceptor in Electron Transport Chain?
O2
So what happens if O2 unavailable?
NAD+
Q
C
NADH H2O
H+
e–
2H+ + O2
H+H+
e–FADH2
1
2NADH
dehydrogenasecytochromebc complex
cytochrome coxidase complex
FAD
e–
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What’s thepoint?
The pointis to make
ATP!
ATP
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Review Questions
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1. Cyanide is a poison that blocks the passage of electrons along the electron transport chain. Which of the following is a metabolic effect of this poison?A. The lower pH of the intermembrane space is much lower
than normal.
B. Electrons are passed directly to oxygen, causing cells to explode.
C. Alcohol would build up in the cells.
D. NADH supplies would be exhausted, and ATP synthesis would cease.
E. No proton gradient would be produced, and ATP synthesis would cease.
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1. Cyanide is a poison that blocks the passage of electrons along the electron transport chain. Which of the following is a metabolic effect of this poison?A. The lower pH of the intermembrane space is much lower
than normal.
B. Electrons are passed directly to oxygen, causing cells to explode.
C. Alcohol would build up in the cells.
D. NADH supplies would be exhausted, and ATP synthesis would cease.
E. No proton gradient would be produced, and ATP synthesis would cease.
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2. You have a friend who lost 15 pounds of fat on a
diet. Where did the fat go (how was it lost)? *A. It was released as CO2 and H2O.
B. Chemical energy was converted to heat and then released.
C. It was converted to ATP, which weighs much less than fat.
D. It was broken down to amino acids and eliminated from the body.
E. It was converted to urine and eliminated from the body.
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2. You have a friend who lost 15 pounds of fat on a
diet. Where did the fat go (how was it lost)? *A. It was released as CO2 and H2O.
B. Chemical energy was converted to heat and then released.
C. It was converted to ATP, which weighs much less than fat.
D. It was broken down to amino acids and eliminated from the body.
E. It was converted to urine and eliminated from the body.
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