Given that the reduction potential Eo'= -320, +10, +816, and +50mV for NAD+, fumarate, O₂ and acyl-CoA DH bound- FAD, respectively, calculate the free energy for a pair of electrons originating from the first reaction of b-oxidation of a fatty acyl group, as it traverses the ETC. R = 8.315 x 10-³ J/mol K; Faraday constant, F= 96.48 KJ/V-mol, assume standard state T= 25°C and physiological conditions are T= 37°C. Report a whole number. 5 Remember a Reduction potential is DEFINED as X(ox) + e---> X(red) Be sure you have defined your oxidation and reduction species properly.
Given that the reduction potential Eo'= -320, +10, +816, and +50mV for NAD+, fumarate, O₂ and acyl-CoA DH bound- FAD, respectively, calculate the free energy for a pair of electrons originating from the first reaction of b-oxidation of a fatty acyl group, as it traverses the ETC. R = 8.315 x 10-³ J/mol K; Faraday constant, F= 96.48 KJ/V-mol, assume standard state T= 25°C and physiological conditions are T= 37°C. Report a whole number. 5 Remember a Reduction potential is DEFINED as X(ox) + e---> X(red) Be sure you have defined your oxidation and reduction species properly.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Transcribed Image Text:Given that the reduction potential Eo'= -320, +10, +816, and +50mV for NAD+, fumarate, O₂ and acyl-CoA DH bound-
FAD, respectively, calculate the free energy for a pair of electrons originating from the first reaction of b-oxidation of a fatty
acyl group, as it traverses the ETC.
R = 8.315 x 10¹³ J/mol K; Faraday constant, F= 96.48 KJ/V-mol, assume standard state T= 25°C and physiological conditions
are T= 37°C. Report a whole number.
Remember a Reduction potential is DEFINED as
X(ox) + e---> X(red)
Be sure you have defined your oxidation and reduction species properly.
kJ/mole
how many high energy ATP equivalents could theoretically be formed if the energy were captured in a phosphdiester bond?
1.5
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