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10-2 Glycogen (starch) metabolism Figures: Stryer-5ed; chapter: 21 Lehninger-4ed; chapters: 7, 15, 23.

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Presentation on theme: "10-2 Glycogen (starch) metabolism Figures: Stryer-5ed; chapter: 21 Lehninger-4ed; chapters: 7, 15, 23."— Presentation transcript:

1 10-2 Glycogen (starch) metabolism Figures: Stryer-5ed; chapter: 21 Lehninger-4ed; chapters: 7, 15, 23

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3 The structure of starch amylopectin Branch points occur every 24 to 30 residues!

4 The structure of amylose

5 The structure of glycogen More branched and compact: branch points occur every 8 to 12 residues!

6 Glycogen (starch) degradation (glycogenolysis)

7 Pyridoxal phosphate cofactor (also in amino acid metabolism)

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13 Glycogen synthesis (glycogenesis) D -Glucose + ATP  D -glucose-6-phosphate + ADP (hexokinase) Glucose-6-phosphate  glucose-1-phosphate (phosphoglucomutase) Glucose-1-phosphate + UTP  UDP-glucose + PP i (UDP-Glc pyrophosphorylase)

14 UDP-glucose is the substrate for glycogen synthesis ADP-glucose is the substrate for starch synthesis in plants

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20 The cost of converting Glc-6-P into glycogen: Glucose-6-phosphate  glucose-1-phosphate (phosphoglucomutase) Glucose-1-phosphate + UTP  UDP-glucose + PPi (UDP-glucose phosphorylase) PPi + H 2 O  2Pi (inorganic pyrophosphatase) UDP-glucose + glycogen (n)  glycogen (n+1) + UDP (glycogen synthase) UDP + ATP  UTP + ADP (nucleoside diphosphate kinase) Sum: Glc-6-P + ATP + glycogen (n) + H 2 O  glycogen (n+1) + ADP + 2Pi

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