Download 3-Glycolysis

Glycolysis
© Michael Palmer 2016
1
Overview of glucose metabolism
© Michael Palmer 2016
Pathway
Function
glycolysis, citric acid cycle, respiratory
chain
complete degradation of glucose for ATP production
hexose monophosphate shunt
degradation of glucose for regeneration of NADPH
glycogen synthesis and degradation
short-term glucose storage
gluconeogenesis
synthesis of glucose from amino acids, lactate, or
acetone
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The place of glycolysis in glucose degradation
© Michael Palmer 2016
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Alternate structures of D-glucose
© Michael Palmer 2016
4
Reactions in
glycolysis
© Michael Palmer 2016
5
The phosphate groups in ATP are shielded from nucleophilic
attack
© Michael Palmer 2016
6
The catalytic mechanism of hexokinase
© Michael Palmer 2016
7
Hexokinase envelopes its substrates to prevent ATP
hydrolysis
© Michael Palmer 2016
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Phosphohexose isomerase performs acid-base catalysis
© Michael Palmer 2016
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Glyceraldehyde-3-phosphate dehydrogenase carries out
covalent catalysis
© Michael Palmer 2016
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Structure and redox chemistry of NAD+ and NADP+
© Michael Palmer 2016
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Pyruvate Kinase
© Michael Palmer 2016
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Energy-rich functional groups in substrates of glycolysis
•
the enolphosphate in PEP
•
the carboxyphosphate in 1,3-bisphosphoglycerate
•
the thioester in the active site of glyceraldehyde-3-dehydrogenase
© Michael Palmer 2016
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Regeneration of cytosolic NAD+ under aerobic conditions
© Michael Palmer 2016
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Under anaerobic conditions, NAD+ is regenerated by lactate
dehydrogenase
© Michael Palmer 2016
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Ethanolic fermentation in yeast serves a dual purpose
© Michael Palmer 2016
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Kinetics of glucose transport by facilitated diffusion
© Michael Palmer 2016
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GLUT transporters in different tissues vary in their affinity
for glucose
© Michael Palmer 2016
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Reaction velocities of hexokinase and glucokinase
© Michael Palmer 2016
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