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Figure 17-24 Reaction mechanism of lactate dehydrogenase.

Figure 17-24 Reaction mechanism of lactate dehydrogenase. Page 603. Figure 17-25 The two reactions of alcoholic fermentation. Page 604. Figure 17-26 Thiamine pyrophosphate. Page 604. Figure 17-29 The formation of the active ylid form of TPP in the pyruvate decarboxylase reaction.

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Figure 17-24 Reaction mechanism of lactate dehydrogenase.

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  1. Figure 17-24Reaction mechanism of lactate dehydrogenase. Page 603

  2. Figure 17-25 The two reactions of alcoholic fermentation. Page 604

  3. Figure 17-26 Thiamine pyrophosphate. Page 604

  4. Figure 17-29 The formation of the active ylid form of TPP in the pyruvate decarboxylase reaction. Page 606

  5. Figure 17-30 The reaction mechanism of alcohol dehydrogenase involves direct hydride transfer of the pro-R hydrogen of NADH to the re face of acetaldehyde. Page 606

  6. Table 17-2 Some Effectors of the Nonequilibrium Enzymes of Glycolysis. Page 613

  7. Figure 17-32a X-Ray structure of PFK. (a) A ribbon diagram showing two subunits of the tetrameric E. coli protein. Mg+2 F6P Page 614 ATP

  8. Figure 17-33 PFK activity versus F6P concentration. Page 615

  9. Figure 17-35 Metabolism of fructose. Page 619

  10. Figure 17-36 Metabolism of galactose. Page 621

  11. Figure 17-37 Metabolism of mannose. Page 621

  12. Figure 17-31 Schematic diagram of the plasmid constructed to control the amount of citrate synthase produced by E. coli. Page 609

  13. “Alfonse, Biochemistry makes my head hurt!!” \

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