the citric acid cycle 4/16/2003. the citric acid cycle it is called the krebs cycle or the...
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The Citric acid cycle4/16/2003
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The Citric acid cycle
It is called the Krebs cycle or the tricarboxylic and is the “hub” of the metabolic system. It accounts for the majority of carbohydrate, fatty acid and amino acid oxidation. It also accounts for a majority of the generation of these compounds and others as well.
Amphibolic - acts both catabolically and anabolically
3NAD+ + FAD + GDP + Pi + acetyl-CoA
3NADH + FADH + GTP + CoA + 2CO2
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History
By 1930 it was established that the addition of lactate, acetate succinate, malate, -ketoglutaric acid (dicarboxylic acids) and citrate and isocitrate (tricarboxylic acids) when added to muscle mince that they stimulated oxygen consumption and release of CO2
1935Albert Szent-Gyorgyi showed that
Succinate Fumarate Malate Oxaloacetate
Carl Martius and Franz Knoop showed
Citrate cis-aconitate isocitrate ketoglutarate
succinate fumarate malate oxaloacetate
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Martius and Knoop showed that pyruvate and oxaloacetate could form citrate non-enzymatically by the addition of peroxide under basic conditions.
Krebs showed that succinate is formed from fumarate, malate or oxaloacetate. This is interesting since it was shown that the other way worked as well!!
Pyruvate can form citrate enzymatically
Pyruvate + oxaloacetate citrate + CO2
The interconversion rates of the intermediates was fast enough to support respiration rates.
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Overview
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The citric acid cycle enzymes are found in the matrix of the mitochondria
Substrates have to flow across the outer and inner parts of the mitochondria
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Nathan Kaplan and Fritz Lipmann discovered Coenzyme A and Ochoa and Lynen showed that acetyl-CoA was intermediate from pyruvate to citrate.
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CoA acts as a carrier of acetyl groups
Acetyl-CoA is a “high energy” compound: The G' for the hydrolysis of its thioester is -31.5 kJ• mol-1 making it greater than the hydrolysis of ATP
Pyruvate dehydrogenase converts pyruvate to acetyl-CoA and CO2
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Pyruvate dehydrogenase
A multienzyme complexes are groups of non covalently associated enzymes that catalyze two or more sequential
steps in a metabolic pathway.
E. coli yeast
Pyruvate dehydrogenase -- E1 24 60
dihydrolipoyl transacetylase --E2 24 60
dihydrolipoyl dehydrogenase--E3 12 12
Molecular weight of 4,600,000 Da
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24 E2 subunits 24 E1 orange a and b together
12 E3 Red
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EM based image of the core E2 from yeast pyruvate dh
60 subunits associated as 20 cone-shaped trimers that are verticies of a dodecahedron
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Why such a complex set of enzymes?
1 Enzymatic reactions rates are limited by diffusion, with shorter distance between subunits a enzyme can almost direct the substrate from one subunit (catalytic site) to another.
2. Channeling metabolic intermediates between successive enzymes minimizes side reactions
3. The reactions of a multienzyme complex can be coordinately controlled
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Covalent modification of eukaryotic pyruvate dehydrogenase
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The five reactions of the pyruvate dehydrogenase multi enzyme complex
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The enzyme requires five coenzymes and five reactions
Pyruvate + CoA + NAD+ acetyl-CoA + CO2 + NADH
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The Coenzymes and prosthetic groups of pyruvate dehydrogenase
Cofactor Location Function
Thiamine Bound to E1 Decarboxylates
pyrophosphate pyruvate
Lipoic acid Covalently linked Accepts to a Lys on hydroxyethyl E2 (lipoamide) carbanion from
TPP
CoenzymeA Substrate for E2 Accepts acetyl group from lipoamide
FAD (flavin) Bound to E3 reduced by lipoamide
NADH Substrate for E3 reduced by FADH2
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Domain structure of dihydrolipoyl transacetylase E2
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1. Pyruvate dh decarboxylates pyruvate using a TPP cofactor forming hydroxyethyl-TPP.
2 The hydroxyethyl group is transferred to the oxidized lipoamide on E2 to form Acetyl dihydrolipoamide-E2
3 E2 catalyzes the transfer of the acetyl groups to CoA yielding acetyl-CoA and reduced dihydrolipoamide-E2
4 Dihydrolipoyl dh E3 reoxidizes dihydrolipoamide-E2 and itself becomes reduced as FADH2 is formed
5 Reduced E3 is reoxidized by NAD+ to form FAD and NADH The enzymes SH groups are reoxidized by the FAD and the electrons are transferred to NADH
Pyruvate dehydrogenase
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NC
S
H3C R1
S
S
E2
C CH3HO
NC
S
H3C R1
S
HS
E2
C CH3HO
S
HS
E2
+
CH3O
NC
S
H3C R1
HS
HS
E2
S
HS
E2
+
CH3O
CoA SH
CoA S
Ch3
O
+
+
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HS
HS
E2
S
S
FAD
+
SH
SH
FAD
SH
SH
FAD
S
S
FADH2
S
S
FAD
NAD+ NADH + H+
S
S
E2
+
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SS
E2
HSS
E2
SSH
E2
SS
E2
SS
E2
SSH
E2
HSS
E2
SS
E2
CH3OCH3O
CH3OCH3O
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Arsenite or organic arsenical compound inhibition
HS
HS
R
O- AsOH
OH
+
S
S
R
AsO-
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