etc and the kreb cycle 2
TRANSCRIPT
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The Electron Transport Chain
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NAD FMN
FAD
H + H+ H2
H2
CoQFe
+2FeFe
+2 +2
H2
Cyto b Cyto c
COMPLEX I
COMPLEX II
COMPLEX
III
COMPLEX
IVCOMPLEX
V
Cyto a + a3
+3 +3+3 +3 +3
2H+ + 2e -O + H2O
O
ETC ends here, whenhydrogen finally combines
with oxygen to form water
F r e e
E n e r g y
When free energy drops, it means the rxn
provides adequate energy for work: in this
case, pumping of H+
from the matrix to theintermembrane space
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Chemiosmotic Theory
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INTERMEMBRANE SPACEINTERMEMBRANE SPACE
M A T R I XM A T R I X
H+
H+ H+ H+
H+
H+
H+H+
H+
H+
H+
H+H+H+
H+
ADP Pi+ ATP
LESS ACIDIC
MORE ACIDIC
LOWER
POTENTIAL
ENERGY
HIGHER
POTENTIALENERGY
MORE
POSITIVE
LESS
POSITIVE
H+
POTENTIAL
DIFFERENCE
(VOLTAGE)
Releases
energy
I III IV
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Oxidative Phosphorylation
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The Kreb Cycle
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General Info
Also called Citric Acid Cycle or Tricarboxylic acid(TCA) cycle
Occurs inside the matrix of mitochondria
Uses Acetyl CoA as its raw material 1 Acetyl CoA is used up per cycle.
Provides 4 pairs of hydrogens, 3 of which arepicked up by the NAD and 1 by the F AD
Gives off 2 molecules of CO2 per molecule of Acetyl CoA (or per cycle)
Produces 1 GTP per cycle, which is convertibleto ATP
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FUNCTIONSFUNCTIONS
Produces most of theCO2
Source of pairs of Hwhich drive the ETC
Means by w/c excessenergy is available for fatty acid biosynthesis
Provides importantprecursors needed for biosynthesis of essentialbiomolecules
Some of its componentsprovide direct or indirectcontrol of other enzymes.
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SUMMARYSUMMARY
2-carbon molecule (acetyl CoA) attaches to apreexisting 4-carbon molecule (Oxaloacetate) toform a 6-carbon compound (citrate)
Then, one by one, 2 carbons will leave thestructure consecutively as CO2
From 6 to 5 to 4-carbon remnant molecule.
The 4-carbon remnant molecule will be
converted back to oxaloacetate The oxaloacetate is again ready to accept a new
acetyl CoA for another cycle.
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Carbohydrates
Glucose
pyruvate
Lipids
Fatty acid
Protein
Amino acid
glycolysis Beta-
oxidation
Catabolism of
amino acid
digestion digestion digestion
1
3
2
4
5
6
7
8
9This is a
³bridge¶
reaction
between
glycolysisand the Kreb
cycle
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OX ALO ACETATE
C
COO -
O
C
- OOC
H
H
Acetyl CoA attaches here. The reaction involved
is the typical nucleophilic addition reaction of
carbonyl group
- Preexisting inside the matrix
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The Individual Reaction of the
Kreb Cycle
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Oxidative decarboxylation of Pyruvate
Occurs inside the matrix
Bridge between glycolysis and the Kreb cycle
Provides 1 pair of H to the ETC via the NAD
C
C
C
H
H H
O
O- O
C
C
H
H H
OCoAS
CoASH NADNADH CO2
++ +
+
O f ETC
Undergoes
decarboxylation
Undergoes
oxidation
HO
pyruvate
Acetyl CoA
This product, w/c is now
in the matrix, needs a
preexisting oxaloacetateto entre the kreb cycle
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C
C
C
CO
O
O- O
HH
-
CC
O
H
H
CC
O
H
H
H
CoAS
O
CoAS-O
citrate
Synthesis of Citrate R egulates the Kreb cycle
Citrate inhibits phosphofructokinase, the ratesetting enzyme for glycolysis
Citrate activates acetyl CoA carboxylase, therate-limiting step for fatty acid synthesis
Acetyl CoA
Oxaloacetate
H
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Isomerization of
CitrateC
C
CC
O
O- O
HH
- O
C
C
O -
O
H
OH
H
CitrateIsocitrate
OH
H
Acetyl CoA
component
Oxaloacetate
component
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C
C
C
O- O
HH
C
C
O -
O
H
O
C
O
- OHH isocitrate
A-ketoglutarate
H
Oxidation and decarboxylation of isocitrate
Another rate-limiting
step
1st
decarboxylation
One pair of H
w/c is swiftlyhanded to the
NAD of the
ETC
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H
C
C
C
O- O
HH
C
H
O
C
O O -
A- ketoglutarateSuccinyl-CoA
Oxidative decarboxylation of a-
Ketoglutarate
CoAS H
CoAS
2nd
decarboxylation
Another pair of
H given to theNAD of ETC
Succinyl CoA is also
formed from fatty
acids with odd # of
carbons
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H
C
C
C
O- O
HH
C
H
OCoAS- O
Succinyl CoASuccinate
Cleavage of
Succinyl CoA
Succinyl CoA is
used in
biosynthesis of
Heme
This r xn producesGTP which is
convertible to ATP
This type of ATP production
w/out using the ETC is called
substrate level phosphorylation
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Oxidation of Succinate
- O
C
C
C
O- O
H
C
H
O
H
HSuccinateFumarate
Another pair of H is
produced here, but
this time it is theF ADin the ETC accepts
the pair
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- O
C
C
C
O- O
H
C
H
O
Hydration of Fumarate
HOH
FumarateL-Malate
OH
H
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Oxidation of L-Malate
O
H
- O
C
C
C
O- O
H
CO
HH
L-Malate
Oxaloacetate
The last pair of H
produced by the
cycle
The pair of H is
accepted by the
NAD of ETC
The cycle returns to
oxaloacetate
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ATP produced Per Cycle Note that each cycle uses one Acetyl CoA
Total # of Pairs of
Hydrogen produced= 4 pairs
# of pairs of H received
by the NAD
3 pairs
# of pairs of H received
by the F AD
1 pair
X
Each pair
can produce
3 ATP¶s =
2
ATP¶s
Each pair can
produce 2
ATP¶s
9
ATP¶s
X
=
= =
= = # of GTP produced 1 GTPEach GTP Can
be converted to
1 ATP
1 ATP
X
Oxidative
phosphorylation
Substrate levelphosphorylation
Total 12 ATP¶s per cycle