Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.
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Transcript of Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.
![Page 1: Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.](https://reader036.fdocuments.net/reader036/viewer/2022083009/5697bf931a28abf838c8fccd/html5/thumbnails/1.jpg)
Cellular Respiration Part 4Oxidative PhosphorylationPages 98 to 100
![Page 2: Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.](https://reader036.fdocuments.net/reader036/viewer/2022083009/5697bf931a28abf838c8fccd/html5/thumbnails/2.jpg)
Oxidative Phosphorylation• Location
▫ Cristae of mitochondria
• Final Acceptor of Electrons▫ Oxygen
![Page 3: Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.](https://reader036.fdocuments.net/reader036/viewer/2022083009/5697bf931a28abf838c8fccd/html5/thumbnails/3.jpg)
Fig. 9-13
(from NADHor FADH2)
NADH
NAD+2FADH2
2 FAD Multiproteincomplexes
FAD
Fe•S
FMN
Fe•S
Q
Fe•S
Cyt b
Cyt c1 Cyt
cCyt a Cyt
a3
IV
Fre
e e
nerg
y (G
) re
lati
ve t
o O
2
(kcal /
mol )
50
40
30
20
10
2
0 2 H+ + 1/2 O2
H2O
e–
e–
e–
Electrons are transferred from NADH or FADH2 to the electron transport chain
Electrons are passed through a number of proteins to O2
The electron transport chain generates no ATP
The chain’s function is to break the large free-energy drop from food to O2 into smaller steps that release energy in manageable amounts
![Page 4: Cellular Respiration Part 4 Oxidative Phosphorylation Pages 98 to 100.](https://reader036.fdocuments.net/reader036/viewer/2022083009/5697bf931a28abf838c8fccd/html5/thumbnails/4.jpg)
Electron transfer in the electron transport chain causes proteins to pump H+ from the mitochondrial matrix to the intermembrane space
Intermembrane space becomes positively charged; the matrix because negatively charged – concentration gradient is established = potential energy
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Fig. 9-14INTERMEMBRANE SPACE
Rotor
H+
Stator
Internalrod
Catalyticknob
ADP+P AT
Pi
MITOCHONDRIAL MATRIX
As H+ escapes from positively charged intermembrane space through ATP Synthase to the negatively charged matrix, ATP synthase spins using energy released from H+ going down its concentration gradient to phosphorylate ADP making ATP
Chemiosmosis is using energy of a H+ gradient to do cellular work
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NADH makes 3 ATP; FADH2 makes 2 ATP
Process NADH FADH2 ATP
Glycolysis 2 0 2
Krebs Cycle 8 2 2
ETC & Chemiosmosis
10 X 3 = 30 2 X 2 = 4 30 + 4 = 34
Debt (entering mitochondria)
2 ATP expended to transport NADH to ETC from cytoplasm
-2
Total 36
ATP Yield from 1 glucose
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Certain Poisons Interrupt Events in Cellular Respiration
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3 Categories of Poison
•ETC Inhibitors▫Rotenone Blocks ETC at 1st protein complex▫Cyanide and CO2 block ETC at 3rd protein
complex RESULT = no H+gradient no ATP
•ATP synthase Inhibitors▫Oligiomycin ▫Keep H+ from passing through ATP
synthase RESULT = no chemiosmosis
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3 Categories of Poison
•Uncouplers ▫Make the membrane of the mitochondria
“leaky” to H+▫Dintrophenol (DNP) unsuccessfully used for
weight loss RESULT – Can’t establish H+ gradeint no
ATP
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Benefit of poisons…
•Pesticides•Antibodies•Help to understand the biochemistry of
cellular respiration