Chapter 27 Specific Catabolic Pathways: Carbohydrate, Lipid & Protein Metabolism.
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Transcript of Chapter 27 Specific Catabolic Pathways: Carbohydrate, Lipid & Protein Metabolism.
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Chapter 27Chapter 27
Specific Catabolic Specific Catabolic Pathways:Pathways:Carbohydrate, Lipid & Carbohydrate, Lipid & Protein MetabolismProtein Metabolism
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1.
2. 3.
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GlycolysisGlycolysis: Follow Along: : Follow Along: Figure 27.3Figure 27.3
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GlycolysisGlycolysis• 10 enzyme-catalyzed reactions by which glucose is oxidized to two molecules of pyruvate.
• During glycolysis, there is net conversion of 2ADP to 2ATP.
C6H12O6Glucose
glycolysis2CH3CCOO-
Pyruvate
+ 2H+O
C6H12O6 + 2ADP + 2Pi 2CH3CCOO- + 2ATP
O
Glucose Pyruvate
HO
OHOH
HOCH2OH
O
O-
-O-P-O-P-O-AMP
O-
O O
Mg2+
OHOH
HOHO
CH2OPO32-
O-O-P-O-AMP
O
O-
ATP
ADP
-D-Glucose
+
+hexokinase
-D-Glucose 6-phosphate
NOTE: ATP = Energy molecule of choice
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Glycolysis - Rxn 1Glycolysis - Rxn 1• reaction 1reaction 1:: phosphorylation of -D-glucose.
HO
OHOH
HOCH2OH
O
O-
-O-P-O-P-O-AMP
O-
O O
Mg2+
OHOH
HOHO
CH2OPO32-
O-O-P-O-AMP
O
O-
ATP
ADP
-D-Glucose
+
+hexokinase
-D-Glucose 6-phosphate
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Glycolysis - Rxn 2Glycolysis - Rxn 2• reaction 2:reaction 2: isomerization of glucose 6-phosphate to fructose 6-phosphate.
O
OHOH
HOHO
CH2OPO32-
HO
CH2OPO32-
CH2OHO
OH
HH
HO
H
2
1
-D-Glucose 6-phosphate -D-Fructose 6-phosphate
phosphogluco- isomerase
6
12
6
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Glycolysis - Rxn 2Glycolysis - Rxn 2• This isomerization is most easily seen by considering the open-chain forms of each monosaccharide; it is one keto-enol tautomerism followed by another.
CHO
CH2OPO32-
OHHHHOOHHOHH
C
CH2OPO32-
OHHHOOHHOHH
CH OHC
CH2OPO32-
OHHOOHHOHH
CH2OH
Fructose 6-phosphateGlucose 6-phosphate (An enediol)
2
1 1
2
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Glycolysis - Rxn 3Glycolysis - Rxn 3• reaction 3:reaction 3: phosphorylation of fructose 6-phosphate.
1
HO
CH2OPO32-
CH2OHO
OH
HH
HO
-D-Fructose 6-phosphate
6
H
+ATP
phospho-fructokinase
Mg2+
1
HO
CH2OPO32-
CH2OPO32-O
OHH
HHO
-D-Fructose 1,6-bisphosphate
6
H
+ ADP
ATP ADP
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Glycolysis - Rxn 4Glycolysis - Rxn 4• reaction 4:reaction 4: cleavage of fructose 1,6-bisphosphate to two triose phosphates.
H
C=O
CH2OPO32-
HOH
CH2OPO32-
OHH
HO
CH2OPO32-
C
CHO
H OH
C=O
CH2OPO32-
CH2OHaldolase
Fructose 1,6-bisphosphate
D-Glyceraldehyde3-phosphate
Dihydroxyacetonephosphate
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Glycolysis - Rxn 5Glycolysis - Rxn 5• reaction 5: reaction 5: isomerization of triose phosphates.• Catalyzed by phosphotriose isomerase.• Reaction involves two successive keto-enol tautomerizations.
• Only the D enantiomer of glyceraldehyde 3-phosphate is formed.
C=O
CH2OPO32-
CH2OH
CH2OPO32-
CCHO
H OH
D-Glyceraldehyde3-phosphate
Dihydroxyacetonephosphate
C-OHCHOH
CH2OPO32-
An enediolintermediate
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Glycolysis - Rxn 6Glycolysis - Rxn 6• Reaction 6Reaction 6:: oxidation of the -CHO group of
D-glyceraldehyde 3-phosphate.• The product contains a phosphate ester and a high-energy mixed carboxylic-phosphoric anhydride.
CH2OPO32-
CCHO
H OH NAD+
CCH2OPO3
2-
C-OPO32-
OHH
O
NADH
1,3-Bisphospho-glycerate
D-Glyceraldehyde3-phosphate
+ + Pi
+
glyceraldehyde3-phosphate
dehydrogenase
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Glycolysis - Rxn 7Glycolysis - Rxn 7• Reaction 7: Reaction 7: transfer of a phosphate group from 1,3-bisphosphoglycerate to ADP.
CCH2OPO3
2-
C-OPO32-
OHH
O
-O-P-O-AMPO
O-
CCH2OPO3
2-
COO-
OHH
ADP
Mg2+
O
O-
-O-P-O-P-O-AMPO
O-
ATP
+
1,3-Bisphospho-glycerate
+
3-Phosphoglycerate
phospho-glycerate kinase
CCH2OPO3
2-
C-OPO32-
OHH
O
-O-P-O-AMPO
O-
CCH2OPO3
2-
COO-
OHH
ADP
Mg2+
O
O-
-O-P-O-P-O-AMPO
O-
ATP
+
1,3-Bisphospho-glycerate
+
3-Phosphoglycerate
phospho-glycerate kinase
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Glycolysis - Rxn 8 & Glycolysis - Rxn 8 & 99• Reaction 8: Reaction 8: isomerization of 3-
phosphoglycerate to 2-phosphoglycerate.
• Reaction 9: Reaction 9: dehydration of 2-phosphoglycerate.
C
CH2OPO32-
COO-
OHH CCH2OH
COO-
OPO32-H
3-Phosphoglycerate 2-Phosphoglycerate
phosphoglycerate mutase
CCH2OH
COO-
OPO32-H
Mg2+ CCH2
COO-
OPO32- H2O
2-Phosphoglycerate Phosphoenolpyruvate
+enolase
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Glycolysis - Rxn 10Glycolysis - Rxn 10• Reaction 10Reaction 10: phosphate transfer to ADP
CCH2
COO-
OPO32- -O-P-O-AMP
O-
O
C=OCH3
COO-
ADP
Mg2+
-O-P-O-P-O-AMPO-O-
O O
ATP
Phosphoenol- pyruvate
+
+
Pyruvate
pyruvate kinase
CCH2
COO-
OPO32- -O-P-O-AMP
O-
O
C=OCH3
COO-
ADP
Mg2+
-O-P-O-P-O-AMPO-O-
O O
ATP
Phosphoenol- pyruvate
+
+
Pyruvate
pyruvate kinase
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GlycolysisGlycolysis: SUMMARY: : SUMMARY:
Figure 27.3
Note: Glycer-3 phosphate X 22 ATP produced
2 ATP produced
1 ATP used 1 ATP used
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Glycolysis: SummaryGlycolysis: Summary• The net equation for glycolysis:
C6H12O6 + 2NAD+ + 2HPO42- + 2ADP
Glucose
glycolysis
2CH3CCOO-O
Pyruvate+ 2NADH + 2ATP + 2H2O + 2H+
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Confirming your Confirming your knowledgeknowledge
• Of the 36 molecules of ATP produced by the complete metabolism of glucose, how many are produced in glycolysis alone? ____
• What is the net total ATP production?
Total: 36 ATP
___ ATP
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Reactions of Pyruvate: Reactions of Pyruvate: Fig 27.4Fig 27.4• Pyruvate metabolized three ways:• depends on organism & presence/absence of O2
CH3CCOO-O
CH3CH2OH
CH3CHCOO-OH
+ CO2
Pyruvate
Ethanol
Lactate
anaerobic conditions
aerobic conditionsplants and animals
contracting muscle
anaerobic conditionsfermentation in yeast
Acetyl CoA Citric acid cycle
10
12
11
13
NOTE:Anaerobic = w/o OxygenAerobic = w/ Oxygen
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Reactions of PyruvateReactions of Pyruvate• A key to understanding the biochemical logic behind two of these reactions of pyruvate is to recognize that glycolysis needs a continuing supply of NAD+.• If no oxygen is present to reoxidize NADH to NAD+, then another way must be found to reoxidize it.
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Pyruvate to LactatePyruvate to Lactate• Under anaerobic (NO Oxygen) conditions, the most important pathway for the regeneration of NAD+ is reduction of pyruvate to lactate. Pyruvate, the oxidizing agent, is reduced to lactate.CH3CCOO- + NADH + H+
O
Pyruvate
CH3CHCOO- + NAD+OH
Lactate
lactatedehydrogenase
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Pyruvate to LactatePyruvate to Lactate• While reduction to lactate allows glycolysis to continue, it increases the concentration of lactate and also of H+ in muscle tissue
• When blood lactate reaches about 0.4 mg/100 mL, muscle tissue becomes almost completely exhausted, esp. b/c H+ ions.
C6H12O6
Glucose
2CH3CHCOO- + 2H+OH
Lactate
lactatefermentation
((ACID!))
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Pyruvate to EthanolPyruvate to Ethanol• Yeasts and several other organisms regenerate NAD+ by this two-step pathway:• decarboxylation of pyruvate to acetaldehyde.
• Acetaldehyde is reduced to ethanol.
Pyruvate
CH3CH + CO2
O
Acetaldehyde
pyruvatedecarboxylase
CH3CCOO- + H+O
CH3CH + NADH + H+O
Acetaldehyde
alcoholdehydrogenase
CH3CH2OH + NAD+
Ethanol
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Pyruvate to Acetyl-Pyruvate to Acetyl-CoACoA
• Under aerobic conditions, pyruvate undergoes oxidative decarboxylation.
• The carboxylate group is converted to CO2.
• The remaining two carbons are converted to the acetyl group of acetyl CoA.
Pyruvate
CH3CSCoA + CO2 + NADHO
Acetyl-CoA
oxidativedecarboxylation
CH3CCOO- + NAD+ + CoASHO
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Confirming your Confirming your knowledgeknowledge
• The end product of glycolysis (pyruvate) cannot enter as such into the citric acid cycle.
• What is the name of the process that converts this C3 compound to a C2 compound?
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Catabolism of GlycerolCatabolism of Glycerol• Glycerol enters glycolysis via dihydroxyacetone
phosphate.
CH
CH2OH
CH2OHOH
ATP ADPCH
CH2OPO32-
CH2OHOH
NAD+ NADHC=OCH2OH
CH2OPO32-
Glycerol Glycerol1-phosphate
Dihydroxyacetonephosphate
7.3 kcal/mole
3.4 kcal/mole.
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Challenge QuestionChallenge Question• Which yields more Energy upon hydrolysis:
ATP or glycerol 1- phosphate and Why?
CH
CH2OH
CH2OHOH
ATP ADPCH
CH2OPO32-
CH2OHOH
NAD+ NADHC=OCH2OH
CH2OPO32-
Glycerol Glycerol1-phosphate
Dihydroxyacetonephosphate
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SummarySummary• Glycolysis yields 2 net ATP• ATP is the molecule of choice for cell(s) Energy
• ATP is a High E yielding molecule (7.3 kcal/mole)
• Pyruvate is the END product of Glycolysis
» under aerobic conditions Acetyl CoA further ATP!!!
» under anaerobic conditions Lactate (muscle fatigue)
Pyruvate
CH3CSCoA + CO2 + NADHO
Acetyl-CoA
oxidativedecarboxylation
CH3CCOO- + NAD+ + CoASHO