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Gluconeogenesis.

Published byCordelia Nichols Modified over 6 years ago

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Presentation on theme: "Gluconeogenesis."— Presentation transcript:

1 Gluconeogenesis

2

3 Gluco neo genesis Standard free energies

4 Gluco neo genesis Working free energies

5 Gluconeogenesis starts in the mitochondrion

6 ..and finishes up in the endoplasmic reticulum (to release glucose).

7 - + -- -- +- - + Why control? Note possible futile cycle:
F1,6BP + H2O -> F6P + Pi F6P + ATP -> F1,6BP + ADP Net: ATP + H2O -> ADP + Pi + -- -- +- - +

8 While animals can use many amino acids to make
glucose, they cannot use acetyl-CoA from fatty acid breakdown. Removing malate from the TCA cycle means that there is a lack of OAA to form citrate. But plants and bacteria can convert acetyl-CoA to glucose using the glyoxylate cycle.

9 make carbohydrates from fats.
A modification of the TCA cycle (glyoxylate cycle) lets plants and bacteria make carbohydrates from fats. to glucose isocitric lyase malate synthase

10 Starch/glycogen synthesis

11 PPP: Pentose Phosphate Pathway

12 PPP: Pentose Phosphate Pathway P-pentose isomerase TK TK TA epimerase

13 Using the PPP to make NADPH

14 Using the PPP to make ribose

15 Summary Synthesis of glucose from pyruvate involves the glycolytic pathway plus 4 new enzymes. Glycolysis and gluconeogenesis show reciprocal controls to prevent futile cycles. Plants can direct acetyl-CoA to gluconeogenesis with the glyoxylate cycle. Starch/glycogen synthesis involves UDPG (ADPG). Pentose phosphate pathway provides a method for synthesizing NADPH and ribose, among other compounds.

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