lehninger principles of biochemistry 5/e - yusron...
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BIOCHEMISTRY
YUSRON SUGIARTO
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LEHNINGERPRINCIPLES OF BIOCHEMISTRY
Fifth Edition
David L. Nelson and Michael M. Cox
© 2008 W. H. Freeman and Company
CHAPTER 14Glycolysis, Gluconeogenesis, and the
Pentose Phosphate Pathway
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Although not theonly possible fates for glucose, these four pathways are the most significant in terms of the amount of glucose that flows through them in most cells
MAJOR PATHWAYS OF GLUCOSE UTILIZATION
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GLYCOLYSISIn glycolysis (from the Greek glykys, “sweet” or “sugar,” and lysis, “splitting”), a molecule of glucose is degraded in a series of enzyme-catalyzed reactions to yield two molecules of the three-carbon compound pyruvate.
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Glycolysis Has Two PhasesFor each molecule of glucose that passes through the preparatory phase (a), two molecules ofglyceraldehyde 3-phosphate are formed; both pass through the payoffphase (b). Pyruvate is the end product of the second phase of glycolysis. For each glucose molecule, two ATP are consumed in the preparatory phase and four ATP are produced in the payoff phase, giving a net yield of two ATP per molecule of glucose converted to pyruvate.
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THREE POSSIBLE CATABOLIC FATES OF THE PYRUVATE FORMED IN GLYCOLYSIS
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THE PREPARATORY PHASE OF GLYCOLYSIS REQUIRES ATP
In 1906, Arthur Harden and William Young tested their hypothesis that inhibitors of proteolytic enzymes would stabilize the glucose-fermenting enzymes in yeast extract to predicted stimulation of glucose metabolism.
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1. PHOSPHORYLATION OF GLUCOSE In the first step of glycolysis, glucose is activated for subsequent reactions by its phosphorylation at C-6 to yield glucose 6-phosphate, with ATP as the phosphoryl donor
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2. CONVERSION OF GLUCOSE 6-PHOSPHATE TO FRUCTOSE 6-PHOSPHATE
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THE PHOSPHOHEXOSE ISOMERASE REACTION
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3. PHOSPHORYLATION OF FRUCTOSE 6-PHOSPHATE TO FRUCTOSE 1,6-BISPHOSPHATE
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4. CLEAVAGE OF FRUCTOSE 1,6-BISPHOSPHATE
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5. INTERCONVERSION OF THE TRIOSE PHOSPHATES
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6. OXIDATION OF GLYCERALDEHYDE 3-PHOSPHATE TO 1,3-BISPHOSPHOGLYCERATE
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7. PHOSPHORYL TRANSFER FROM 1,3-BISPHOSPHOGLYCERATE TO ADP
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8. CONVERSION OF 3-PHOSPHOGLYCERATE TO 2-PHOSPHOGLYCERATE
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9. DEHYDRATION OF 2-PHOSPHOGLYCERATE TO PHOSPHOENOLPYRUVATE
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10. TRANSFER OF THE PHOSPHORYL GROUP FROM PHOSPHOENOLPYRUVATE TO ADP
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ΔG is the standard free-energy change, as defined in Chapter 13 (pp. 491–492). ΔG is the free-energy change calculated from the actual concentrations of glycolytic intermediates present under physiological conditions in erythrocytes, at pH 7. The glycolytic reactions bypassed in gluconeogenesis are shown in red.
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For these times, organisms need a method for synthesizing glucose from noncarbohydrate precursors. This is accomplished by a pathway called gluconeogenesis “new formation of sugar”, which converts pyruvate and related three- and four-carbon compounds to glucose.
GLUCONEOGENESIS
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OPPOSING PATHWAYS OF GLYCOLYSIS AND GLUCONEOGENESIS IN RAT LIVER
The reactions of glycolysis are on the left side, in red; the opposing pathway of gluconeogenesis is on the right, in blue.
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GENERAL SCHEME OF THE PENTOSE PHOSPHATE PATHWAY
NADPH formed in the oxidative phase is used to reduce glutathione, GSSG and to support reductive biosynthesis.
The other product of the oxidative phase is ribose 5-phosphate, which serves as a precursor for nucleotides, coenzymes, and nucleic acids.
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YUSRON SUGIARTO