Biochemistry 201 Biological Regulatory Mechanisms: Lecture 3 January 28, 2013
Chem 454: Regulatory Mechanisms in Biochemistry University ... · PDF fileChem 454: Regulatory...
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Chem 454: Regulatory Mechanisms in BiochemistryUniversity of Wisconsin-Eau Claire
Lecture 3 - Glycolysis and Gluconeogenesis
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Glycolysis converts glucose (C6H12O6) molecules to two molecules of pyruvic acid (C3H4O3).
Pyruvic acid is more oxidized than glucoseThe energy released from the oxidation is used to create 2 molecules of ATP from 2 ADP and 2 Pi
This is an anaerobic process.Under anaerobic conditions the pyruvic acid can be fermented to lactic acid or to ethanol plus CO2.Under aerobic conditions, glucose is oxidized all the way to C02 and H2O.
Introduction
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Glucose can also be synthesized from molecules such as pyruvic acid or lactic acid.
This process is called gluconeogenesis.
Introduction
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Glucose is an important fuel for most organisms.
In mammals, glucose is the preferred fuel source for the brain and the only fuel source for red blood cells.Almost all organisms use glucose
Introduction
CC
O H
CCCCH2 OH
OHOH
HOOHHH
HH
O
H
HO
H
HO
H
HOHH OH
OH
D-Glucose b-D-Glucose
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Fermentations provide usable energy in absence of oxygen.
Introduction
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Obligate anaerobes
Introduction
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Glycolysis is an energy-conversion pathway in many organisms.
The glycolytic pathway is common to virtually all organisms
Both eukaryotes and prokaryotes
In eukaryotes, it occurs in the cytosol
1. Glycolysis is Energy Conversion
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The glycolytic pathway is considered in three stages:
1. Glycolysis is Energy Conversion
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The glycolytic pathway is considered in three stages:
1. Glycolysis is Energy Conversion
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The glycolytic pathway is considered in three stages:
1. Glycolysis is Energy Conversion
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1. Stage 1
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Hexokinase traps glucose in the cell and begins glycolysis.
1.1. Hexokinase
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The formation of fructose 1,6-bisphosphate from glucose 6-phosphate
Phosphoglucose isomerase
1.2 Phosphoglucose Isomerase
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The formation of fructose 1,6-bisphosphate from glucose 6-phosphate
Phosphofructose kinase
1.2 Phosphofructokinase
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1. Stage 2
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The six-carbon sugar is cleaved into two three-carbon fragments by aldolase.
1.3. Aldolase
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Triose phosphate isomerase salvages a three-carbon fragments
1.4. Triose Phosphate Isomerase
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Triose phosphate isomerase salvages a three-carbon fragments
1.4. Triose Phosphate Isomerase
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Triose phosphate isomerase is an example of a kinetically perfect enzyme.
1.4. Triose Phosphate Isomerase
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1. Stage 3
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Energy transformation: Phosphorylation is coupled to the oxidation of glyceraldehyde 3-phosphate.
1.5. Glyceraldehyde 3-Phosphate Dehydrogenase
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Energy transformation: Phosphorylation is coupled to the oxidation of glyceraldehyde 3-phosphate.
1.5. Glyceraldehyde 3-Phosphate Dehydrogenase
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1.5. Glyceraldehyde 3-Phosphate Dehydrogenase
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The enzyme-bound thioester intermediate reduces the activation energy for the second reaction:
1.5. Glyceraldehyde 3-Phosphate Dehydrogenase
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The acyl phosphate in 1,3–bisphosphoglycerate has a high enough phosphoryl transfer potential to phosphorylate ADP to produce ATP:
1.6. Phosphoglycerate Kinase
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The next two reactions convert the remaining phosphate ester into a phosphate having a high phosphoryl transfer potential
The first is an isomerization reaction
1.7. Phosphoglycerate Mutase
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The next two reactions convert the remaining phosphate ester into a phosphate having a high phosphoryl transfer potential
The second is a dehydration (lyase) reaction
1.7. Enolase
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The final reaction in the glycolytic pathway transfers the phosphate from phosphoenolpyruvate to ADP to produce ATP:
1.7. Pyruvate Kinase
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1.8 The Net Reaction
Glucose + 2 NAD+ + 2 ADP 2 Pi+
Pyruvate + 2 NADH + 2 H+ + 2 ATP
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Summary of the reactions in the glycolytic pathway:
1.8. The Net Reaction
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There is a problem:
There are only catalytic quantities of NAD+ in the cell.
In order to continue to use glycolysis to generate ATP, there needs to be some means of reoxidizing the NADH + H+ that is produced in glycolysis
1.9.Maintaining Redox Balance
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The solution to this problem lies in what happens to the pyruvate that is produced in glycolysis:
1.9.Maintaining Redox Balance
FermentationPathways
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Ethanol fermentation is use by yeast and produces ethanol and CO2.
1.9.Maintaining Redox Balance
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Lactic acid fermentation is use by bacteria and human muscles and produces lactate.
1.9.Maintaining Redox Balance
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The fermentation pathways restore the redox balance:
1.9.Maintaining Redox Balance
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All three of the dehydrogenase in glycolysis and the fermentation pathways share a common domain for binding NAD+.
1.10 NAD+ Binding
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The entry of fructose and galactose into glycolysis.
1.11 Other Points of Entry
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Fructose is phosphorylated to fructose 1–phosphate in the liver.
1.11 Other Points of Entry
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Galactose is urdidylated before epimerization to UDP-glucose:
1.11 Other Points of Entry
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Many adults are intolerant of milk because they are deficient in lactase
1.12 Lactose Intolerance
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Disruption of galactose metabolism is called galactosemia.
Usually due to loss of uridyl transferase activity
Symptoms includeFailure to thrive infants
Enlarged liver and jaundice, sometimes cirrhosis
Cataracts
Mental retardation
1.13 Galactose is Highly Toxic
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Two major needs of the the cell influence the flow of material from glucose to pyruvate:
The need for ATP (energy)
The need for building blocks for biosynthesis
2. Control of Glycolysis
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In metabolic pathways, control is focused on those steps in the pathway that are irreversible.
2. Control of Glycolysis
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The different levels of control have different response times:
2. Control of Glycolysis
Level of Control Response Time
Allosteric milleseconds
Phosphorylation seconds
Transcriptional hours
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Phosphofructokinase is the key enzyme in the control of glycolysis.
2.1 Phosphofructokinase
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Allosteric regulation of phosphofructo-kinase by ATP
2.1 Phosphofructokinase
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Phosphofructokinase is also regulated by fructose 2,6-bisphosphate:
2.1 Phosphofructokinase
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A regulated bifunctional enzyme synthesizes and degrades fructose 2,6-bisphosphate:
2.2. Fructose 2,6-bisphosphate
Phosphofructokinase 2 (PFK2)
2,6-Bisphosphofructophosphatase(FBPase2
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A regulated bifunctional enzyme synthesizes and degrades fructose 2,6-bisphosphate:
2.2. Fructose 2,6-bisphosphate
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Hexokinase and pyruvate kinase also set the pace of glycolysis.
2.3 Hexokinase and Pyruvate Kinase
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A family of transporters enables glucose to enter and leave animal cells.
2.4. Glucose Transporters
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Glucose can be synthesized from noncarbohydrate precursors.
The brain has a strong preference for glucose, while the red blood cells have and absolute requirement for glucose.
The brain needs 120 g of glucose/day
The liver has about a 190 g store of glucose as glycogen. (About a 1 day’s supply)
Glucose can be synthesized in the liver from pyruvate, glycerol and amino acids.
3. Gluconeogenesis
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Gluconeogenesis is not the reverse of glycolysis.
The ∆G°' for this reaction is +20 kcal/mol
3.1. Gluconeogenesis
2 Pyruvate + 2 ATP + 2 NADH + 2 H+ + 2 H2O → Glucose + 2 ADP + 2 Pi + 2 NAD+
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The three kinase reactions are the ones with the greatest positive free energies in the reverse directions
3.1. Gluconeogenesis
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The hexokinase and phosphofructokinase reactions can be reversed simply with a phosphatase
3.1. Gluconeogenesis
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Reversing the pyruvate kinase reaction is not as easily done
3.2. Formation of Phosphoenopyruvate
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The conversion of pyruvate into phosphoenolpyruvate begins with the formation of oxaloacetate.
3.2. Formation of Phosphoenopyruvate
CO O
C OCH3
+ ATP +C
O O
C OCH2
CO O
+ ADP + Pi
Pyruvate Oxaloacetate
CO2 H2O+
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3.2. Formation of Phosphoenolpyruvate
Pyruvate kinase uses the biotin cofactor to activate the CO2
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3.2. Formation of Phosphoenolpyruvate
The formation of phosphoenolpyruvate from oxaloacetate is driven both by the hydrolysis of GTP and a decarboxylation
CO O
C OCH2
CO O
Oxaloacetate
+ GTPC
O O
C OCH2
PO
OO
+ GDPCO2 +
Phosphoenolpyruvate
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Oxaloacetate is synthesized in the mitochondria and is shuttled into the cytosol where it is converted into phosphoenolpyruvate
3.3. Oxaloacetate Shuttle
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Six high–energy phosphate bonds are spent in synthesizing glucose from pyruvate.
Gluconeogenesis:
Reverse of Glycolysis:
3.6. “High-Energy” Phosphate Bonds
2 Pyruvate + 2 ATP + 2 NADH + 2 H+ + 2 H2O → Glucose + 2 ADP + 2 Pi + 2 NAD+∆G°’ = +20 kcal/mol
2 Pyruvate + 4 ATP + 2GTP + 2 NADH + 2 H+ + 6 H2O → Glucose + 4 ADP + 2 GDP + 6 Pi + 2 NAD+
∆G°’ = -9 kcal/mol
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Reciprocal regulation of glycolysis and gluconeogenesis in the liver
4. Regulation of Glycolysis and Gluconeogenesis
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Substrate cycles amplify metabolic signals and produce heat.
4.1. Substrate Cycles
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Lactate and alanine formed by contracting muscle are used by other organs
4.2. Lactate and Alanine
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Lactate and alanine formed by contracting muscle are used by other organs
4.2. Lactate and Alanine
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Glycolysis and Gluconeogenesis are evolutionarily intertwined.
4.3. Evolution of Glycolysis and Gluconeogenesis