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ATP production within a cell would be limited by removal of the cell's
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Glycolysis converts glucose into 2 molecules of
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Where does glycolysis occur?
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Cellular respiration releases energy by breaking down glucose in the presence of
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
The steps of cellular respiration in order are
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Fermentation converts _____________ to ___________ allowing it to go back into glycolysis to produce more ATP.
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
The purpose of the ETC is to
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Which energy molecules are produced by the Krebs cycle?
NADH to NAD+
oxygen.
mitochondria.
cytoplasm
NADH, FADH2, ATP
glycolysis, Krebs cycle, ETC.
generate ATP.
pyruvic acid.
Check it!