Download Problem Set# 3

Name____________________________________ Course:_______________________
Problem Set #3: Cellular Respiration, Fermentation, and Photosynthesis
Choose the best answer for the following questions, and then tell why the answer you choose is
correct.
1. Glycolysis leads to the production of two:
a. Lactic acid, NADH, ATP
d. Pyruvate, NADH, ATP
b. Pyruvate, NAD+, ATP
e. FADH2, Pyruvate, NAD+
c. CO2 , Pyruvate, NAD+
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2. During metabolism WHICH reaction proceeds in the absence of oxygen?
a. Glycolysis and ETS
c. Glycolysis and TCA cycle
b. Fermentation and the ETS
d. Glycolysis and Fermentation
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3. Which is true of the intermediate step of metabolism?
a. CO2 and ATP are released during the process
b. A multienzyme complex removes a carboxyl group, transfers electrons to NAD+, and
attaches a coenzyme.
c. NAD+ is rejuvenated so glycolysis can continue
d. Lactate is produced to rejuvenate free NAD+
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4. Which is the most important function of Glycolysis?
a. Production of NADH
b. Modification of Glucose
c. The production of ATP
d. The production of CO2
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5. In the Chemiosmotic (oxidative phosphorylation) mechanism,
a. ATP production results from a proton gradient established by the electron transport
chain.
b. The difference in pH between the intermembrane space and the cytosol drives the
formation of ATP.
c. The energy released by the reduction and subsequent oxidation of components of
the electron transport chain is transferred as a phosphate to ADP.
d. The production of water in the matrix by the reduction of oxygen leads to a net flow
of water out of the mitochondrion.
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6. The main function of the TCA cycle is accomplished between which stage?
a. Oxaloactetate and citrate
c. Citrate and Succinate
b. Isocitrate and Succinate
d. Succinyl CoA and Malate
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7. Which enzyme of the TCA cycle has a dual role with the ETS and is located in the inner
membrane of the mitochondrion:
a. Pyruvate dehydrogenase
c. Fructose dehydrogenase
b. NADH Dehydrogenase
d. Cytochrome oxidase
c. Succinate Dehydrogenase
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8. Fatty acids inter metabolism after they have been beta oxidized to form:
a. Carbon dioxide
c. Glucose
b. Acetyl groups
d. H2CO3
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9. The only usable ATP is produced here in the TCA cycle?
a. Between Malate and Fumerate
b. Between Succinate and Fumerate
c. Between Succinyl Co-A and Succinate
d. Between Succinate and Fumerate
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10. What is the terminal electron acceptor during mitochondrial respiration?
a. Water
c. Hydrogen
b. Oxygen
d. NADH
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11.
As a result of glycolysis, pyruvate oxidation and the citric acid cycle, only a small
portion of the energy of glucose has been converted to ATP. At this point, the majority of the
usable energy is contained in:
c. Acetyl coenzyme A
d.
Pyruvate
c. NADH and FADH2
d. Water
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12. ATPs are synthesized in glycolysis and the TCA cycle by:
a. Oxidative Phosphorylation
c. Photophosphorylation
b. Substrate-level Phosphorylation d. Anabolism
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13. A product derived from pyruvate crosses the inner mitochondrion membrane by which of
the following methods?
a. Diffusion
c. Active Transport
b. Facilitated transport
d. All of the above
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14. Suppose the hexokinase activity was destroyed in the cell. Which of the following will
occur?
a. The cell will continue to produce ATP through the ETS
b. The cell will continue to produce ATP in the citric acid cycle
c. The cell will continue to produce ATP through Fermentation
d. The cell will stop producing ATP
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15. Dinitrophenol was once used as a component of diet pills for weight loss however, users
were dying due to its consumption because the drug cause the inner mitochondrion
membrane to become highly permeable which prevented ATP synthesis. How?
a. After coenzymes dropped off electrons, they diffused into the intermembrane space
from the matrix
b. Electrons diffused from the matrix to the intermembrane space
c. Protons diffused from the intermembrane space to the matrix, by-passing
ATPsynthase
d. Pyruvate is not allowed to enter the matrix
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16. Which of the following least support the contention that the mitochondrion is a descendant
of prokaryotes?
a. They have porins in their outer membranes
b. They have a diameter of .2 microns
c. They swim freely in the eukaryotic cells
d. They have circular chromosomes and 80s ribosomes
17. The light reactions of photosynthesis occurs:
a. The stroma
c. The matrix
b. The thylakoid membrane
d. The stoma
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18. Which molecule binds to carbon dioxide to form a six-carbon sugar in the Calvin Benson
Cycle?
a. Ribulose Bisphosphate
c. Glyceraldehyde-3-phosphate
b. Citrate
d. Phosphoglyceraldehyde
19. The Calvin-Benson Cycle occurs:
a. The stroma
c. The matrix
b. The thylakoid membrane
d. The stoma
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20. Which is not a product of Photosystem II?
a. NADPH
c. O2
b. ATP
d. All are products of Photosystem II
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21. CO2 required for carbon fixation, gets into the Calvin-Benson cycle through which
structure of the leaf?
a. The stroma
c. The matrix
b. The thylakoid membrane
d. The stroma
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22.
How many pairs of electrons are removed in the TCA cycle?
a. 4
b. 5
c. 6
d. 12
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23.
The reason that anaerobes can produce a maximum of 38 ATPs from a molecule of
glucose while aerobes can only produce 36 is because:
a. Anaerobes do not lose two ATPs in glycolysis
b. Anaerobes do not have an ETS
c. Anaerobes do not undergo oxidative phosphorylation
d. Anaerobes produces an extra FADH2 during the TCA cycle
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24. During glycolysis, ATP are synthesized by:
a. substrate-level phosphorylation
b. oxidative phosphorylation
c. photophosphorylation
d. all of the above
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25. Cyanide is a poison that blocks the passage of electrons along the electron transport chain.
Which of the following is a metabolic effect of this poison?
a. The pH of the intermembrane space is much lower than normal
b. Electrons are passed directly to oxygen, causing cells to explode.
c. Alcohol would build up in the cells
d. NADH supplies would be exhausted, and ATP synthesis would cease.
e. No proton gradient would be produced, and ATP synthesis would cease.
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Study
-The detail structure and function of the mitochondrion
-The detail structure and function of the chloroplast
I.
Glycolysis
Fermentation
II. & III: Intermediate Step & Kreb Cycle (TCA Cycle)
IV. Electron Transport System & Oxidative Phosphorylation
Overview of Photosynthesis
Photosystems I & II
Calvin Benson Cycle