FUNDAMENTALS OF BIOCHEMISTRY WPNG 1-SEME
5th Edition
ISBN: 9781119750192
Author: Voet
Publisher: WILEY
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Chapter 15, Problem 36CQ
(a)
Summary Introduction
To identify: The closest counterparts of the enzyme galactose dehydrogenase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(b)
Summary Introduction
To explain: The closest counterparts of the enzyme GDP-D-mannose-3, 5-epimerase dehydrogenase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(c)
Summary Introduction
To explain: The closest counterparts of the enzyme phosphoglucose isomerase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(d)
Summary Introduction
To explain: The closest counterparts of the enzyme phosphomannose isomerase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(e)
Summary Introduction
To explain: The closest counterparts of the enzyme phosphomannose mutase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
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Arrange the four structures in order from most reduced to most oxidized.
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and cofactor(s) c reactants required, and any other products that would result.
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I
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After adding a small amount of ATP labeled with radioactive phosphorus in the terminal position, [7-32P]ATP, to a yeast extract,
a researcher finds about half of the 32P activity in P; within a few minutes, but the concentration of ATP remains unchanged. She
then carries out the same experiment using ATP labeled with 32P in the central position, [ẞ-³2P]ATP, but the 32P does not appear
in P; within such a short time.
Which statements explain these results?
Yeast cells reincorporate P; released from [ß-³2P]ATP into ATP more quickly than P¡ released from [y-³2P]ATP.
Only the terminal (y) phosphorous atom acts as an electrophilic target for nucleophilic attack.
The terminal (y) phosphoryl group undergoes a more rapid turnover than the central (B) phosphate group.
Yeast cells maintain ATP levels by regulating the synthesis and breakdown of ATP.
Correct Answer
Chapter 15 Solutions
FUNDAMENTALS OF BIOCHEMISTRY WPNG 1-SEME
Ch. 15 - Prob. 1ECh. 15 - Prob. 2ECh. 15 - 3. The reversible reaction shown here is part of...Ch. 15 - 4. Step 4 of the pentose phosphate pathway...Ch. 15 - 5. The aldolase reaction can proceed in revere as...Ch. 15 - Prob. 6ECh. 15 - 7. Identify the intermediate in the...Ch. 15 - 8. The compound you identified in Problem 7 is a...Ch. 15 - 9. The pyruvate ? lactate reaction in animals is...Ch. 15 - Prob. 10E
Ch. 15 - 11. Why is it possible for the ?G values in Table...Ch. 15 - 12. If a reaction has a ?G0' value of at least...Ch. 15 - 13. Although it is not the primary flux-control...Ch. 15 - 14. What is the advantage of activating pyruvate...Ch. 15 - 15. Tumor cells, which tend to grow rapidly,...Ch. 15 - 16. The pyruvate kinase isozyme in cancerous cells...Ch. 15 - 17. Compare the ATP yield of three glucose...Ch. 15 - 18. If G6P is labeled at its C2 position, where...Ch. 15 - Prob. 19ECh. 15 - Prob. 20ECh. 15 - Prob. 21ECh. 15 - 22. Describe the products of the transketolase...Ch. 15 - Prob. 23CQCh. 15 - 24. The enzyme phosphoglucomutase interconverts...Ch. 15 - 25. You combine 0.2 g of yeast. 0.2 g of sucrose...Ch. 15 - 26. Nerve cells require a source of free energy to...Ch. 15 - Prob. 27CQCh. 15 - Prob. 28CQCh. 15 - 29. Consider the pathway for catabolizing...Ch. 15 - 30. Yeast take up and metabolize galactose, using...Ch. 15 - 31. (a) Describe how glycerol enters the...Ch. 15 - 32. Some organisms can anaerobically convert...Ch. 15 - 33. Explain why some tissues continue to produce...Ch. 15 - 34. Some bacteria catabolize glucose by the...Ch. 15 - Prob. 35CQCh. 15 - 36. For enzymes a–e in Problem 35, identify their...Ch. 15 - Prob. 1MTE
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- Compare the structure of the nucleoside triphosphate CTP with the structure of ATP. NH₂ 0- 0- 0- ·P—O—P—O—P—O—CH₂ H H H H OH OH Cytidine triphosphate (CTP) Consider the reaction: ATP + CDP ADP + CTP NH 0- 0- 0- ¯0— P—O— P—O—P-O-CH₂ H Η о H H OH OH Adenosine triphosphate (ATP) NH₂ Now predict the approximate K'eq for this reaction. Now predict the approximate AG for this reaction. Narrow_forwardThe standard free energy, AGO, of hydrolysis of inorganic polyphosphate, polyP, is about −20 kJ/mol for each P; released. In a cell, it takes about 50 kJ/mol of energy to synthesize ATP from ADP and Pi. ○ P O Inorganic polyphosphate (polyP) Is it feasible for a cell to use polyP to synthesize ATP from ADP? Why or why not? No. The reaction is unidirectional and always proceeds in the direction of polyP synthesis from ATP. Yes. If [ADP] and [polyP] are kept high, and [ATP] is kept low, the actual free-energy change would be negative. No. The synthesis of ATP from ADP and P; has a large positive G'o compared to polyP hydrolysis. Yes. The hydrolysis of polyP has a sufficiently negative AG to overcome the positive AGO of ATP synthesis. Correct Answerarrow_forwardIn the glycolytic pathway, a six-carbon sugar (fructose 1,6-bisphosphate) is cleaved to form two three-carbon sugars, which undergo further metabolism. In this pathway, an isomerization of glucose 6-phosphate to fructose 6-phosphate (as shown in the diagram) occurs two steps before the cleavage reaction. The intervening step is phosphorylation of fructose 6-phosphate to fructose 1,6-bisphosphate. H H | H-C-OH H-C-OH C=0 HO-C-H HO-C-H phosphohexose isomerase H-C-OH H-C-OH H-C-OH H-C-OH CH₂OPO CH₂OPO Glucose 6-phosphate Fructose 6-phosphate What does the isomerization step accomplish from a chemical perspective? Isomerization alters the molecular formula of the compound, allowing for subsequent phosphorylation. Isomerization moves the carbonyl group, setting up a cleavage between the central carbons. Isomerization causes the gain of electrons, allowing for the eventual release of NADH. Isomerization reactions cause the direct production of energy in the form of ATP.arrow_forward
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