When NADH is the electron donor to the respiratory chain, 2.5 ATP are formed, but when FADH2 is the electron donor, only 1.5 ATP are formed.This difference occurs because
A) complex I accepts electrons from both NADH and FADH2 but donates the electrons to different sites on the complex, which produces a larger proton gradient for NADH.
B) complex I accepts electrons from NADH but not FADH2, resulting in an extra step that allows a larger proton gradient to form.
C) complex II accepts electrons from both NADH and FADH2 but donates the electrons to different sites on the complex, which produces a larger proton gradient for NADH.
D) energy, in the form of heat, is lost when FADH2, but not NADH, is the electron donor, resulting in lower energy yield.
E) NADH interacts with ATP synthase more efficiently than FADH2, resulting in more ATP production.
Correct Answer:
Verified
Q168: The carbon-containing molecule that enters glycolysis differs
Q169: What is the cellular location of the
Q170: Which component of the respiratory chain is
Q171: In eukaryotes, the proton-motive force allows protons
Q172: The chemiosmotic mechanism explains
A) the coupling of
Q174: A student wants to develop a demonstration
Q175: Oxidative phosphorylation has two major components: _
Q176: ATP synthase is the protein complex that
A)
Q177: Some poisons are compounds that interfere with
Q178: The complete oxidation of pyruvate to carbon
Unlock this Answer For Free Now!
View this answer and more for free by performing one of the following actions
Scan the QR code to install the App and get 2 free unlocks
Unlock quizzes for free by uploading documents