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1. Introduction to biochemistry
- Prof. Gerald W. Feigenson
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2. Amino acids and peptides
- Prof. Gerald W. Feigenson
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3. Protein structure principles
- Prof. Gerald W. Feigenson
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4. Observed protein structures
- Prof. Gerald W. Feigenson
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5. Protein folds and IV structure
- Prof. Gerald W. Feigenson
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6. Protein stability and folding
- Prof. Gerald W. Feigenson
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7. Haemoglobin structure and stability
- Prof. Gerald W. Feigenson
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8. Enzyme specificity and catalysis
- Prof. Gerald W. Feigenson
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9. Enzyme kinetics (Michaelis-Menten)
- Prof. Gerald W. Feigenson
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10. Enzyme inhibition; chymotrypsin
- Prof. Gerald W. Feigenson
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11. Enzyme regulation and coenzymes
- Prof. Gerald W. Feigenson
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12. Lipids, biomembranes and membrane proteins
- Prof. Gerald W. Feigenson
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13. Structure and function of carbohydrates
- Prof. Gerald W. Feigenson
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14. Metabolism principles
- Prof. Gerald W. Feigenson
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15. Glycolysis - energy and useful cell chemicals
- Prof. Gerald W. Feigenson
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16. Glycolysis control
- Prof. Gerald W. Feigenson
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17. Metabolism of pyruvate and fat
- Prof. Gerald W. Feigenson
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18. Urea cycle; oxidative phosphorylation 1
- Prof. Gerald W. Feigenson
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19. Urea cycle; oxidative phosphorylation 2
- Prof. Gerald W. Feigenson
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20. Light-driven reactions in photosynthesis
- Prof. Gerald W. Feigenson
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21. Gluconeogenesis and the Calvin cycle
- Prof. Gerald W. Feigenson
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22. Synthesis of lipids and N-containing molecules 1
- Prof. Gerald W. Feigenson
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23. Synthesis of lipids and N-containing molecules 2
- Prof. Gerald W. Feigenson
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24. Hormone mechanisms
- Prof. Gerald W. Feigenson
Printable Handouts
Navigable Slide Index
- Introduction
- Lecture outline
- Control: role of glycogen phosphorylase (GP)
- Phosphorolysis reaction catalysed by GP
- Hormonal control of glycogen phosphorylase (1)
- Hormonal control of glycogen phosphorylase (2)
- Regulation of glycogen phosphorylase
- Glycogen phosphorylase structure
- Controlled enzymes of glycolysis: hexokinase
- Controlled enzymes of glycolysis: PFK-1
- How is PFK-1 regulated in different tissues?
- Controlled enzymes of glycolysis: PK
- Why have several ATP-producing reactions?
- Lecture summary
Topics Covered
- Control of glycogen breakdown (hormonal and local)
- Hormone amplification
- Control of 3 key enzymes of glycolysis
- Universal principles of enzyme regulation
Links
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Talk Citation
Feigenson, G.W. (2022, November 27). Glycolysis control [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved November 21, 2024, from https://doi.org/10.69645/XKLH1347.Export Citation (RIS)
Publication History
Financial Disclosures
- Gerald Feigenson has no commercial/financial relationships to disclose.
Request access to the Principles of Biochemistry lecture series, an extensive introductory to the field of biochemistry. An HSTalks representative will contact you with more information about this series and getting unrestricted access to it.
A selection of talks on Metabolism & Nutrition
Transcript
Please wait while the transcript is being prepared...
0:00
Greetings. Welcome to this 16th lecture
in this Principles of Biochemistry lecture series.
My name is Jerry Feigenson.
I'm a professor in
the Department of Molecular Biology and Genetics at Cornell University in the USA.
In the previous lecture, number 15,
you learned that chemical reactions of metabolism are highly interconnected.
And you saw why cells used stored glucose as their energy source.
And that cells use glycolysis,
not just for energy,
but also to produce chemicals needed by the cell.
And study of glycolysis introduces
some important principles of metabolism that we will see throughout the course.
0:55
In this lesson, you will learn about hormonal control
and local control within each cell of glycogen breakdown.
And you will see that the steps of hormone amplification can result in
as much as a million-fold increase in signal response.
We will look at three exquisitely controlled enzymes of glycolysis: hexokinase,
phosphofructokinase-1, and pyruvate kinase.
And we'll see some very general principles of enzyme regulation.
One is that cells keep ATP concentration nearly constant,
and so use AMP concentration of the signal of the energy state of cells.
A second principle is that,
different tissues have different hormone sensitivity.
And at the end of this lecture,
you'll see that the body can switch among different kinds of
metabolism depending upon the rate of need for ATP.