The hydrolysis of phosphate bonds provides the chemical energy to drive reactions in the cell. The amount of free energy contained in these bonds is dependent upon the donor potential of the molecule, where good donors have a reduced affinity for the phosphate group relative to those that are poor donors. Creatine phosphate can be hydrolyzed to creatine and has a AG = -43 kJ/mol. This allows the cell to generate ATP from ADP. Which of the following conditions would allow for ATP hydrolysis to generate creatine phosphate from creatine with an inorganic phosphate concentration of 10 mM? Choose one: O A. [ADP]/[ATP] = 5.75 x 10-8 O B. [ADP]/[ATP] = 5.75 x 10-7 O C. [ADP]/[ATP] = 5.75 x 10-6 O D. [ADP]/[ATP] = 5.75 x 10-⁹
The hydrolysis of phosphate bonds provides the chemical energy to drive reactions in the cell. The amount of free energy contained in these bonds is dependent upon the donor potential of the molecule, where good donors have a reduced affinity for the phosphate group relative to those that are poor donors. Creatine phosphate can be hydrolyzed to creatine and has a AG = -43 kJ/mol. This allows the cell to generate ATP from ADP. Which of the following conditions would allow for ATP hydrolysis to generate creatine phosphate from creatine with an inorganic phosphate concentration of 10 mM? Choose one: O A. [ADP]/[ATP] = 5.75 x 10-8 O B. [ADP]/[ATP] = 5.75 x 10-7 O C. [ADP]/[ATP] = 5.75 x 10-6 O D. [ADP]/[ATP] = 5.75 x 10-⁹
Human Anatomy & Physiology (11th Edition)
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ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
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Chapter1: The Human Body: An Orientation
Section: Chapter Questions
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![The hydrolysis of phosphate bonds provides the chemical energy to drive reactions in the cell. The amount of free energy contained in
these bonds is dependent upon the donor potential of the molecule, where good donors have a reduced affinity for the phosphate group
relative to those that are poor donors. Creatine phosphate can be hydrolyzed to creatine and has a AG° = -43 kJ/mol. This allows the
cell to generate ATP from ADP. Which of the following conditions would allow for ATP hydrolysis to generate creatine phosphate from
creatine with an inorganic phosphate concentration of 10 mM?
Choose one:
A. [ADP]/[ATP] = 5.75 x 10-8
B. [ADP]/[ATP] = 5.75 x 10-7
O C. [ADP]/[ATP] = 5.75 x 10-6
O D. [ADP]/[ATP] = 5.75 x 10-⁹](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb9554b7c-22ae-4e76-970d-81082fa10344%2Fcba71018-dba8-45cb-8cd6-482f1229731b%2Fgunmknb_processed.png&w=3840&q=75)
Transcribed Image Text:The hydrolysis of phosphate bonds provides the chemical energy to drive reactions in the cell. The amount of free energy contained in
these bonds is dependent upon the donor potential of the molecule, where good donors have a reduced affinity for the phosphate group
relative to those that are poor donors. Creatine phosphate can be hydrolyzed to creatine and has a AG° = -43 kJ/mol. This allows the
cell to generate ATP from ADP. Which of the following conditions would allow for ATP hydrolysis to generate creatine phosphate from
creatine with an inorganic phosphate concentration of 10 mM?
Choose one:
A. [ADP]/[ATP] = 5.75 x 10-8
B. [ADP]/[ATP] = 5.75 x 10-7
O C. [ADP]/[ATP] = 5.75 x 10-6
O D. [ADP]/[ATP] = 5.75 x 10-⁹
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