Electron Transport Phosphorylation

occurs in the membranes of the mitochondria (cristae).

The generation of concentration gradients across the membranes of mitochondria is known as the chemiosmotic theory of ATP production.

This animation (Audio - Important) describes electron transport.

This animation (Audio - Important) describes how electron transport takes place in the mitochondrion.

How many ATP are formed at each step of the way:

Actually, the yield of ATP can vary somewhat because there are other pathways that can interact with the three pathways that we have been discussing and remove intermediates along the way.

This figure is a good overview of ATP yield and the interaction of glycolysis, the Krebs Cycle, and the Electron Transport Chain. When energy is transferred from glucose to ATP, the efficiency is about 40%. (Is that because of the first or second law of thermodynamics?)

These animations (Audio - Important) describes ATP yield
ATP yield version 1.
ATP yield version 2.
ATP yield version 3.

REVIEW: When glucose is used as the energy source, the largest amount of ATP is produced in

REVIEW: ATP is

REVIEW: ATP
a. can be produced by photosynthesis.
b. is produced in the degradation of organic compounds such as glucose.
c. is generated in anaerobic respiration.
d. is released in aerobic respiration.
e. all of these

REVIEW: Which liberates the most energy in the form of ATP?
a. aerobic respiration
b. anaerobic respiration
c. alcoholic fermentation
d. lactate fermentation
e. All liberate the same amount, but through different means.

REVIEW: The correct operational sequence of the three processes listed below is:
I. glycolysis
II. ETP
III. Krebs
a. I then II then III
b. II then I then III
c. III then I then II
d. II then III then I
e. I then III then II

REVIEW: The greatest number of ATP molecules is produced in

REVIEW: Electron transport systems involve _____ .
a. enzymes, coenzymes
b. electron transfers
c. cell membranes
d. all of the above

REVIEW: In the last stage of aerobic respiration, _____ is the final acceptor of electrons that originally resided in glucose.

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