In eukaryotes the enzymes of the citric acid cycle are found in the ________.
A) cytosol
B) mitochondria
C) nucleus
D) endoplasmic reticulum

B

The order of prosthetic groups as they act in the three proteins of the PDH(pyruvate dehydrogenase) complex is:
A) FAD → thiamine pyrophosphate → NAD+
B) FAD → thiamine pyrophosphate → dihydrolipoamide
C) thiamine pyrophosphate → dihydrolipoamide → FAD
D) NAD+ → FAD → dihydrolipoamide

C

The arrangement of subunits in the PDH(pyruvate dehydrogenase) complex ensures that ________.
A) ATP is formed
B) the product of one enzyme is delivered to the next in turn
C) the dihydrolipoamide arm can react with NAD+
D) acetyl CoA enters into the series of reactions

B

Some bacteria and anaerobic eukaryotes not using PDH(pyruvate dehydrogenase) form acetyl CoA and CO2 from pyruvate with ________.
A) PDH modified with methyl groups
B) pyruvate:ferredoxin oxidoreductase
C) 2-oxoacid dehydrogenase
D) an isoenzyme of PDH

B

Pyruvate passes through the outer mitochondrial membrane by ________.
A) porin proteins
B) passive transport
C) pyruvate translocase
D) simple diffusion through the lipid bilayer

A

The enzyme pyruvate translocase is located ________.
A) in the cytosol
B) in the inner mitochondrial membrane
C) in the mitochondrial matrix
D) in the endoplasmic reticulum

B

Pyruvate translocase is a(n) ________ protein that transports ________.
A) antiport; pyruvate and H+ in opposite directions
B) uniport; only pyruvate
C) symport; pyruvate and H+ in the same direction
D) antiport; pyruvate and CO2 in opposite directions

C

Which is not a component of the pyruvate dehydrogenase complex?
A) Dihydrolipoamide dehydrogenase.
B) Isocitrate dehydrogenase.
C) Pyruvate dehydrogenase.
D) Dihydrolipoamide acetyltransferase

B

Which cofactor is not used by the pyruvate dehydrogenase complex?
A) Lipoamide.
B) Thiamine pyrophosphate.
C) FAD.
D) QH2.

D

Which carbon atom(s) of pyruvate is(are) first converted to carbon dioxide by pyruvate dehydrogenase complex?
A) The carboxylate carbon (#1).
B) The carbonyl carbon (#2).
C) The methyl carbon (#3).
D) Both carbons #1 and #3 in equal amounts.

A

Pyruvate dehydrogenase kinase catalyzes
A) the dephosphorylation and activation of E1.
B) the dephosphorylation and inactivation of E1.
C) the phosphorylation and inactivation of E1.
D) the phosphorylation and activation of E1

C

The pyruvate dehydrogenase complex is larger than a ribosome. In bacteria these complexes are located in the cytosol while they are found in ________ of eukaryotes
A) cell membranes
B) mitochondrial membranes
C) mitochondrial matrices
D) nuclei

C

A deficiency in thiamine causes the disease beriberi. Which might you expect to have a higher than normal blood concentration in an individual with this condition?
A) Isocitrate.
B) Pyruvate.
C) Oxaloacetate.
D) Acetyl CoA

B

Most of the energy released in citric acid cycle reactions is conserved in ________.
A) GTP
B) ATP
C) NADH and QH2
D) ADP

C

What are the fewest number of turns of the citric acid cycle needed before carbon radioactive in both carbons of the acetyl group in acetyl Co A are incorporated into all 4 carbons in every molecule of oxaloacetate produced?
A) 1
B) 2
C) 3
D) none

C

When energy-rich acetyl CoA is oxidized to carbon dioxide, eight electrons are released. Most often, electrons are released in such reactions because
A) double bonds formed in CO2 share electron pairs.
B) there are more electrons in the reactants than in the products.
C) water is not available in the reaction.
D) an electron acceptor is linked to the reaction.

A

Citrate can react asymmetrically in the citric acid cycle because the enzyme aconitase
A) binds citrate asymmetrically.
B) binds either form of citrate.
C) binds both forms of isocitrate.
D) does not distinguish the -CH2COO- group

A

What type of reaction is the conversion of fumarate to malate?
A) Oxidative decarboxylation.
B) Hydration.
C) Dehydrogenation.
D) Condensation

B

Carbons from acetyl CoA are transferred to the citric acid cycle. Which is the first round of the citric acid cycle that could possibly release a carbon atom originating from this acetyl CoA?
A) First round.
B) Second round.
C) Third round.
D) Fourth round

B

Which enzyme is the same in both the pyruvate dehydrogenase and α-ketoglutarate complexes?
A) Dihydrolipoamide dehydrogenase.
B) Aconitase.
C) Pyruvate decarboxylase.
D) The two complexes have no components that are similar.

A

Which step in the citric acid cycle is a rearrangement reaction?
A) Succinyl CoA to succinate.
B) Fumarate to L-malate.
C) Citrate to isocitrate.
D) Glucose 1,6-bisphosphate to fructose 1,6-bisphosphate

C

Which is not produced by the citric acid cycle?
A) NADH
B) FMN
C) CO2
D) QH2

B

Which enzyme does not catalyze a reaction that releases carbon dioxide?
A) α-ketoglutarate dehydrogenase complex.
B) Pyruvate dehydrogenase.
C) Malate dehydrogenase.
D) Isocitrate dehydrogenase

C

After passing through pyruvate dehydrogenase and the citric acid cycle, one mole of pyruvate will result in the formation of ________ moles of carbon dioxide and ________ mole(s) of ATP (or GTP).
A) 2; 2
B) 2; 1
C) 3; 2
D) 3; 1

D

Which statement is true about lactate dehydrogenase and malate dehydrogenase?
A) Both enzymes are highly specific for their own substrates.
B) A single amino acid change can convert lactate dehydrogenase to a malate dehydrogenase.
C) The naturally occurring enzymes do not have much sequence similarity, but do have closely related three-dimensional structures.
D) All of the above

D

Which intermediate of the citric acid cycle has a plane of symmetry?
A) Succinate.
B) Citrate.
C) Succinyl CoA.
D) α-ketoglutarate

A

The step at which acetyl CoA enters the citric acid cycle is classified as a ________ reaction.
A) condensation
B) substrate-level phosphorylation
C) decarboxylation
D) dehydrogenation

A

Which enzyme catalyzes the conversion of citrate to isocitrate?
A) Aldolase.
B) Citrate synthase.
C) Citrate isomerase.
D) Aconitase

D

Which 5-carbon intermediate of the citric acid cycle is converted to a 4-carbon molecule with the release of carbon dioxide?
A) Fumarase.
B) α-ketoglutarate.
C) Succinate.
D) Isocitrate

B

A carbon atom that has single bond to four substituents with exactly two of the four substituents identical is called a ________.
A) prochiral carbon atom
B) tetrahedral stereocenter
C) divalent carbon atom
D) anomeric carbon atom

A

Which of the following enzymatic reactions are examples of substrate level phosphorylation?
A) Succinyl Co-A synthetase.
B) Pyruvate kinase.
C) Phosphoglycerate kinase.
D) All of the above

D

During catalysis, succinyl CoA synthetase generates
A) an energy deficient, unstable phosphoenzyme intermediate.
B) an energy rich, unstable phosphoenzyme intermediate.
C) an energy rich, stable phosphoenzyme intermediate.
D) All of the above.

C

The succinate dehydrogenase complex catalyzes
A) the formation of a single hydrogen bond in the oxidation of succinate to fumarate.
B) the formation of a double bond in the oxidation of succinate to fumarate.
C) Both A and B.
D) None of the above

B

The succinate dehydrogenase reaction is unusual for a dehydrogenase because it uses ________ as an electron acceptor (oxidizing agent) that is regenerated by ubiquinone.
A) ATP
B) NADP
C) Malonate
D) FAD

D

Which of the following is/are true statements about the succinate dehydrogenase reactions?
A) It is stereospecific.
B) Only the cis-isomer of the product is formed.
C) It is not stereospecific.
D) Both B and C

A

Which of the following are components of the succinate dehydrogenase complex?
A) FAD prosthetic group.
B) Iron-sulfur clusters.
C) Malonate.
D) All of the above.
E) A and B only

E

When fumarate is positioned in the active site of fumarase, the double bond of the substrate can be attacked from only one side. Therefore, fumarate is a ________ molecule.
A) asymmetric
B) prochiral
C) isomeric
D) duplicate

B

Malonate
A) is a structural analog of succinate.
B) binds to the substrate-binding site of the succinate dehydrogenase complex but does not react.
C) undergoes an oxidation reaction.
D) Both A and B.
E) All of the above

D

Aqueous channels in cell membranes that small molecules such as pyruvate can pass through are formed by transmembrane proteins called
A) openings.
B) porins.
C) pores.
D) locase

B

Metabolites moved across the mitochondrial membrane by transporters include
A) pyruvate.
B) PEP.
C) citrate and malate.
D) All of the above.

D

What is the role of mitochondrial PEPCK?
A) It converts oxaloacetate to PEP, which can then be transported to the cytoplasm.
B) It aids in the transport of pyruvate across the inner mitochondrial membrane.
C) It converts oxaloacetate to malate, which feeds into the malate-aspartate shuttle.
D) It converts acetyl CoA to citrate, which can then be transported to the cytoplasm.

A

NAD-dependent malate dehydrogenase
A) catalyzes the oxidation of malate to regenerate oxaloacetate.
B) catalyzes the conversion of fumarase to malate.
C) catalyzes a reaction which results in the formation of an NADH molecule.
D) All of the above.
E) A and C only.

E

The pyruvate dehydrogenase complex is located inside mitochondria . Pyruvate is formed by glycolysis in the cytoplasm. Pyruvate is brought into the mitochondrion by
A) diffusion.
B) TCA transporter.
C) PEP transporter.
D) Pyruvate transporter

D

About how many total ATP equivalents are generated by the complete oxidation of one molecule of acetyl CoA?
A) 1.5
B) 2.5
C) 3
D) 10
E) 30

D

Which product of the citric acid cycle produces the most ATP equivalents?
A) NADH.
B) QH2.
C) GTP.
D) CO2

A

Which of the following inhibit(s) pyruvate dehydrogenase kinase?
A) Pyruvate.
B) NADH.
C) Acetyl-CoA.
D) All of the above

A

Pyruvate dehydrogenase is inactivated by phosphorylation. This can be prevented by a chemical, dichloroacetate, and this disrupts many cancer cells because they are
A) aerobic.
B) anaerobic.
C) fast growing.
D) non-fermenting

B

Mammalian pyruvate dehydrogenase is inactivated when pyruvate dehydrogenase kinase is activated by
A) NADH.
B) ADP.
C) pyruvate.
D) AMP.

A

Each of the following catalyzed reactions of the citric acid cycle appears to be regulated except
A) citrate synthase.
B) fumarase.
C) isocitrate dehydrogenase.
D) a-ketoglutarate dehydrogenase complex.

B

Which of the following allosterically activates mammalian isocitrate dehydrogenase?
A) ADP.
B) NADH.
C) calcium.
D) All of the above.
E) A and C only

E

Each of the following leads to a biosynthetic pathway except
A) a-ketoglutarate.
B) succinyl CoA.
C) oxaloacetate.
D) citrate.
E) None of the above

E

Which of the following is not a fate of a citric acid cycle intermediate?
A) A-ketoglutarate reversibly converting to glutamate.
B) The biosynthesis of porphyrins from succinyl CoA's interaction with glycine.
C) Oxaloacetate as a carbohydrate precursor.
D) None of the above.

D

A metabolic pathway that is both catabolic and anabolic is ________. An example of such a pathway is ________.
A) ambibolic; glycolysis
B) amphibolic; the citric acid cycle
C) duplibolic; the pentose phosphate pathway
D) Pathways cannot be both anabolic and catabolic, so there are no example pathways.
Answer: B

B

The glyoxylate cycle is
A) a catabolic pathway in plants and some microorganisms.
B) an anabolic pathway in plants and some microorganisms.
C) regarded as a shunt within the citric acid cycle.
D) A and C only.
E) B and C only

E

The following enzyme(s) is/are unique to the glyoxylate cycle:
A) Malate synthase.
B) Malate dehydrogenase.
C) Isocitrate lyase.
D) All of the above.
E) A and C only.

E

True statements about the glyoxylate cycle include
A) four carbon atoms of the acetyl group of acetyl CoA are released as carbon dioxide during operation of the glyoxylate cycle.
B) the net formation of a four carbon molecule from two acetyl CoA molecules supplies a precursor that can be converted to glucose.
C) the reaction catalyzed by malate synthase is the first bypass enzyme of the glyoxylate cycle.
D) it is inactive in oily seed plants

B

The glyoxylate cycle leads from two carbon compounds to glucose in each organism below except
A) animals.
B) plants.
C) bacteria.
D) yeast.
E) None of the above.

A

Which statement is false about the glyoxylate cycle?
A) In mammals the glyoxylate cycle is used to replenish citric acid cycle intermediates.
B) It is an anabolic alternative for the metabolism of acetyl CoA.
C) It can be regarded as a shunt in the citric acid cycle.
D) In eukaryotes, metabolites must be transferred from the mitochondria to the cytosol to be used in the glyoxylate cycle.

A

Which process is not implicated in the evolution of the citric acid cycle pathway?
A) Gene duplication.
B) Palindromic inversion.
C) Pathway extension.
D) Pathway reversal.
E) Enzyme theft

B