100% Correct Answers
Name the three stages of respiration. Which of these stages does not require oxygen? - correct answers
1. Glycolysis 2. Citric Acid Cycle/Tricarboxylic Acid cycle/Krebs Cycle 3.Electron Transport/Oxidative
phosphorylation
Glycolysis does not require oxygen
Where in the cell does glycolysis occur, and what are the products of this process? - correct answers It
occurs in the cytosol. Glucose is metabolized into two molecules of pyruvic acid or pyruvate. And there
is a net gain of 2 ATP and 2NADH
What are the two energetic stages of glycolysis? - correct answers Energy-requiring steps: 2 ATP used to
prime initial reactions
Energy-releasing steps: 4 ATP made and 2 NADH.
How many ATP, FADH2, and NADH are used to prime glycolysis? - correct answers 2 molecules of ATP
are used to prime for glycolysis
How many ATP, FADH2, and NADH are produced by the energy-yielding steps in glycolysis? - correct
answers 4 ATP
2 NADH
In glycolysis, why is ATP and not just a Pi from the cell used to phosphorylate glucose or fructose-6-
phosphate? - correct answers Since the reactions are energetically unfavorable, they must be coupled to
ATP hydrolysis in order to proceed forward and favor the production of glucose-6-phosphate and
fructose-1,6 biphosphate
Name an enzyme that catalyzes the first step in glycolysis - correct answers Hexokinase uses the first
ATP to phosphorylate glucose to glucose-6-phosphate
, Name an enzyme that catalyzes the conversion of fructose-6-P into fructose-1, 6-biphosphate in
glycolysis - correct answers Phosphofructokinase
In glycolysis, which enzyme catalyzes the key rate limiting step? - correct answers Phosphofructokinase
is inhibited by ATP binding to its allosteric site
How does excess supply of ATP in the cell shut down glycolysis? - correct answers The excess ATP binds
to the allosteric site of Phosphofructokinase, rendering it inactive. This results in the build up of glucose-
6-phosphate, which inhibits the hexokinase by allosteric regulation. Shutting down the glycolytic
pathway
Name two 3-carbon compounds that are formed by splitting of fructose-1,6-biphosphate. Which of
these two will be further metabolized in the cell? - correct answers Glyceraldehyde-3-phosphate(GAP)
and its isomer dihydroxylacetone phosphate(DHAP). Only GAP can be further metabolized
In glycolysis, at which level is NADH produced? - correct answers Energy releasing steps. GAP converted
to 1,3 bis-PGA
Name two high energy intermediates in the glycolytic pathway - correct answers 1. 1,3
biphosphoglycerate
2. phosphoenolpyruvate (PEP)
At which two steps in the glycolytic pathway will ∆G be highly negative? Explain your answer - correct
answers 1. When GAP is phosphorylated by Pi to yield 1-3,BIS PGA
2. When 3-PGA is converted to PEP
Hydrolysis of high energy phosphates of PEP and 1-3, BIS PGA drives ATP synthesis
What is substrate level phosphorylation, and where in glycolysis does it occur? - correct answers It is the
direct transfer of a high energy phosphate group from the substrate to another molecule, resulting in
the formation of ATP. This occurs when high energy phosphate from 1,3-bisPGA drives ATP synthesis
from ADP. It also occurs during the conversion of PEP to pyruvate when its coupled to ATP synthesis