Biochem MCQs.pdf

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Which of following is correct about enzyme?

A. all enzymes are proteins
B. enzymes can not be updated in living tissue
C. enzymes are biocatalysts that catalyze the
multiple dynamic processes in the body
D. the substrates of enzyme are all organic
compounds
E. catalytic DNA and RNA are not biocatalysts

Answer: C
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Specificity of enzyme refers to：

A. enzymes have highly specificity for coenzymes
B. the ability of an enzyme to discriminate between
two competing substrates
C. specific site that enzyme exist
D. different catalytic mechanism
E. different classification of enzymes

Answer: B
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 Isoenzymes are enzymes that：

A. catalyze the same reaction
B. have the same structure
C. have the same physiocochemical properties
D. have the same immunological properties
E. show the same electrophoretic mobility

Answer: A
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 Which of following is not correct about LDH
isoenzymes?
A. LDH has five different isoenzymes
B. contains H and M subunits
C. different isoenzymes shows a characteristic
electrophoretic mobility
D. have the same Km to the same substrate
E. two subunits are products of different genes

Answer: D
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 Denatured apoenzyme lost its activity because

A. apoenzyme is decomposed to amino acids
B. primary structure of apoenzyme is destroyed
C. spatial structure of apoenzyme is destroyed
D. apoenzyme does not dissovle in water
E. it loses activator

Answer: C
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 Which of following is not the function of
coenzyme？
A.group transfer
B.hydrogen transfer
C.electron transfer
D.carrier of metabolite
E.determining the specificity of enzyme

Answer: E
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 Which of following is not the characteristics
of enzymatic reactions?
A.high efficiency
B.stereospecificity
C.absolute specificity
D.can be regulated
E.proximity and orientation

Answer: E
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 Which of following is not correct about active
site of an enzyme?
A. it is formed by groups that primary structure is
close to each other in the polypeptide sequence.
B. there are binding groups and catalytic groups in it.
C. it binds substrate and catalyzes the reaction.
D. all groups in active site are termed the essential
groups.
E. Substrate bind to the active site at a region
complementary to substrate that will undergo
chemical change.
Answer: A
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 Which of following is correct about active
site of enzyme？
A. all essential groups must located in active site
B. all enzymes must have active site
C. all active site binds and orients cofactors
D. all active site binds and orients metal ions
E. all inhibitors act on active site

Answer: B

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 Which of following determines specificity of
enzymatic reaction?

A.coenzyme
B.apoenzyme
C.metal ion
D.prosthetic group
E.holoenzyme
Answer:B

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 Which of following is not correct about Km?
A. Km is one of the characteristic constants of
the enzyme
B. Km is independent of enzyme structure
C. Km is independent of enzyme concentration
D. Km is equivalent to the substrate
concentration at which V is equal to Vmax/2
E. Km reflects approximately the affinity of
enzyme to substrate
Answer: B
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 When the velocity of enzyme catalyzed
reaction achieves 80% of Vmax, the substrate
concentration is equal to:

A: 1 Km
B: 2 Km
C: 3 Km
D: 4 Km
E: 5 Km

Answer: D
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 The kinetic property of competitive inhibition is：

A.Vmax is unchanged，Km is increased
B.Vmax is unchanged，Km is decreased
C.Vmax is decreased，Km is unchanged
D.Vmax is decreased，Km is increased
E.Vmax is decreased，Km is decreased

Answer: A
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 The relationship between competitive inhibitor
and substrate is that they have:
A. same physico-chemical property
B. same function
C. same molecular weight
D. same solubility
E. similar structure

Answer: E
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 The effect of temperature on the rate of
enzymatic reactions is:
A. the higher the temperature, the higher the
reaction rate
B.the lower the temperature, the higher the
reaction rate
C. each enzyme has an optimum temperature at
which it operates at maximal efficiency
D. optimum temperature is one of the
characteristic constants of the enzyme
E. an optimum temperature of enzymes is usually
37。C
Answer: C
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 Which of following is independent of Km?
A.enzyme structure
B.enzyme concentration
C.temperature
D.substrate
E.pH

Answer: B
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The kinetics of enzymatic reaction is the study on：
A.spatial conformation of enzyme
B.electrophoretic mobility of enzyme
C.the active site of enzyme
D.gene origin of enzyme
E.the velocity of enzymatic reactions and
influence of various elements on it

Answer: E
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 Which of followings is not the factors to affect
The velocity of enzyme-catalyzed reaction?
A. substrate concentration
B. enzyme concentration
C. zymogen concentration
D. pH
E. temperature

Answer: C
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 Which of following is not correct about
competitive inhibitor?

A.its structure resembles that of the substrate
B.it competes with the substrate for the active
site of an enzyme
C.it combines reversibly with the enzyme
D.it combines with the enzyme to form an EI
complex without leading to catalysis
E.it combines with the enzyme covalently

Answer: E
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Liaoning Medical University [email protected]
 Which of following is not correct about allosteric
enzyme?
A. it contains many subunits
B. allosteric effector binds with enzyme noncovalently
C. allosteric effector binds with enzyme reversibly
D. allosteric effector binds to active site of enzyme
E. it is known as rate-limiting enzyme

Answer: B
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 Which of following is not correct about
covalent modification?
A. enzyme binds with specific chemical groups
covalently
B. it is a fast regulation
C. it consumes ATP
D. the most common type is phosphorylation
E. activity of enzyme increased after
phosphorylated

Answer: E
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 Which of followings are correct about
zymogen?
A.it is inactive
B. can be converted into active enzyme by
the cleavage of some covalent bonds in their
peptide chains
C.it is activated by some metal ions
D.it has no acti vi ty for d eficiency o f
essential groups
E. the essence of zymogen activation is the
creation or exposure of the active site of an
enzyme
Answer: ABE
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 The fast regulation of enzymatic reaction
includes：

A.phosphorylation
B.allosteric regulation
C.acetylation
D.methylation
E.the synthesis of enzyme can be repressed

Answer: ABCD
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 Terms:
1．competitive inhibition
2．covalent modification
3．Isoenzymes
4．allosteric regulation

Question:
1．What is activation of zymogen？List
the significance of it.
2 ． W ha t a r e t h e c h a r a c t e r i s t i c s o f
competitive inhibition?
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 Terms:
1．enzyme
2．the active site of enzyme
3．essential group
4．competitive inhibition
5．Km
6．covalent modification
7．activation of zymogen
8．Isoenzymes
9．allosteric regulation

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 Which of the following metabolic process is
completed in mitochondrion totally

A. aerobic oxidation
B. petose phosphate pathway
C. gluconeogenesis
D. oxidative phosphorylation
E. glycogenesis

Answer: D

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 Which of the following is the most
important element in the regulation of
oxidative phosphorylation?
A.FADH2
B.O2
C.Cytaa3
D.[ADP]/[ATP]
E. NADH

Answer: D

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 Which of the following is not the energy-rich
compound?
A. creatine phosphate
B. ATP
C. phosphoenolpyruvate(PEP)
D. 1,3-bisphoglycerate
E. 2,3-bisphoglycerate

Answer: E

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 Which of following is the carrier of NADH
from cytosol to mitchondria?
A. carnitine
B. malate
C. oxaloacetate
D. α-ketoglutarate
E. aspartate

Answer: B

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 How many ATPs will be produced when
1 cytosolic NADH is transported into the
mitochondria by α-glycerophosphate shuttle?
A.1
B.2
C.3
D.4
E.5

Answer: B

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 The characteristic of biological oxidation is:
A. direct combination of hydrogen and oxygen to form
water
B. nonenzymatic reaction
C. taken place mainly in cytosol
D. energy released gradually and high availability
E. not regulated by circumstance

Answer: D

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 The pathway that NADH produced in the
cytoplasm during glycolysis go into the
mitochondria is:

A. citrate-pyruvate cycle
B. the Cori cycle
C. GSH cycle
D. α-glycerophosphate shuttle
E. alanine-glucose cycle
Answer: D

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 NADH equivalents are transported from the
cytosol to the mitochondrial matrix with which
shuttle systems?
A.α-glycerolphosphate shuttle
B. malate-aspartate shuttle
C.citrate-pyruvate cycle
D.alanine-glucose cycle
E.citrate acid cycle

Answer: AB

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 Terms:
1．Biological oxidation
2．Respiratory chain
3．Oxidative phosphorylation
4．Substrate level phosphorylation
5．P/O ratios
Question:
List the order of two important respiratory
chains

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 generation of ATP in aerobic oxidation of glucose
Reactions Methods of Moles of ATP
pathway
Catalyzed by ATP production formed per mol
of glucose

Glycolytic Glyceraldehyde 3-phosphate
dehydrogenase Respiratory chain Oxidation of 2 NADH 6 or 4
pathway
Phosphoglycerate kinase Phosphorylation at substrate level 2
Pyruvate kinase Phosphorylation at substrate level 2
Allow for consumption of ATP by reactions catalyzed by hexokinase and phosphofructokinase -2
Production of Pyruvate dehydrogenase Respiratory chain Oxidation
acetyl CoA complex
6
of 2 NADH
Tricarboxylic Isocitrate dehydrogenase Respiratory chain Oxidation of 2 NADH 6
acid cycle Alpha-ketoglutarate
Respiratory chain Oxidation of 2 NADH 6
Dehydrogenase complex
Succinyl CoA synthetase Phosphorylation at substrate level 2
Succinate dehydrogenase Respiratory chain Oxidation of 2 FADH2 4
Malate dehydrogenase Respiratory chain Oxidation of 2 NADH 6
Total per mole of glucose under aerobic conditions: 36 or 38 ATPs
 Summary of citric acid cycle
1. Location: mitochondria
2. Original material: Oxaloacetate, Acetyl-CoA, GDP, 3NAD+, FAD
3. End product: Oxaloacetate, GTP, 3 NADH+H+, FADH2 , 2CO2
4. Key enzymes: citrate synthase
isocitrate dehydrogenase
- ketoglutarate dehydrogenase complex
5. Overall process of TCA cycle:
Acetyl CoA+3NAD++FAD+GDP+Pi+2H2O
CoA-SH+3(NADH+H+)+FADH2+2CO2+GTP
6. Net amounts of ATP produced only in TCA cycle: 12

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 How many mols of ATP are yielded when 1
mol lactate is oxidized to CO2 and H2O?
List the main steps and key enzymes.

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 NADH+H +
LDH
lactate pyruvate cytosol
NAD+
NADH+H+

pyruvate Acetyl CoA
Pyruvate dehydrogenase
NAD + complex
oxaloacetate
citrate synthase
malate NADH+H+
citrate
f umarate
FADH2
isocitrate
isocitrate NAD+
succinate dehydrogenase
GTP

NADH+H+ NADH+H+
succinyl CoA α -ketoglutatrate
α -ketoglutatrate
dehydrogenase
complex
Mitochondrion
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 Key enzyme:
LDH, Pyruvate dehydrogenase complex, citrate synthase,
isocitrate dehydrogenase, α-ketoglutarate dehydrogenase complex,
malate dehydrogenase.

Amount of ATP:
Cytosol: 1 NADH 2/3 ATP
Mitochondrion:
4 NADH 4×3=12 ATP
1 FADH2 2 ATP
GTP
Total:2/3+12+2+1=17/18

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 Physiological Significance of
Aerobic Oxidation

In one word，
“provide energy”

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 How many ATPs are produced by the
oxidation of a molecule of aceyl CoA via the
citric acid cycle?
A.9
B.10
C.11
D.12
E.13

Answer: D

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 The products of the TAC are:

A.1 pairs of FADH2
B.3 pairs of NADH+H+
C.1 molecule of GTP
D.2 molecules of CO2
E.2 molecules of GTP

Answer: ABCD

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 The key enzymes of Krebs Cycle:
A.citrate synthase
B.isocitrate dehydrogenase
C.α-ketoglutarate dehydrogenase complex
D.fumarase
E.malate dehydrogenase

Answer: ABC

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 Which of following is correct about aerobic oxidation?

A. glucose is completely oxidized to CO 2 ,H 2 O
and energy under aerobic conditions
B. takes place in the mitochondria
C. this process is the major process to provide
energy for most tissues
D. 1 mol of glucose was oxidized completely will
be generated 36 or 38 mol of ATP
E. it start from Oxidation of pyruvate to acetyl-
CoA in mitochondrion

Answer: ACD
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 Which of the following enzyme uses FAD as
prothetic group?
A.lactate dehydrogenase
B.isocitrate dehydrogenase
C.succinate dehydrogenase
D.α-ketoglutarate dehydrogenase complex
E.malate dehydrogenase

Answer: C
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 n Significance of glycolysis*

ü To provide ATP in the absence of oxygen, such as run 100-
meters dash.
ü Glycolysis is the main way to produce ATP in some tissues,
even though the oxygen supply is sufficient, such as red
blood cells (Lack mitochondria), retina, testis, skin, medulla
of kidney.
ü In clinical practice, such as heart failure, circulation failure,
respiration failure, excessive loss of blood.

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 The end-product of glycolysis is:
A. pyruvate
B. lactate
C. acetyl-CoA
D. oxaloacetate
E. uric acid

Answer: B

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 The key enzyme of the glycolysis is:

A. pyruvate carboxylase
B. pyruvate dehydrogenase
C. pyruvate kinase
D. fructose 1,6-bisphophatase
E. LDH

Answer: C

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 In glycolysis, substrate level phosphorylation is
catalyzed by:
A. hexokinase
B. glyceraldehyde 3-phosphate dehydrogenase
C. phosphofructokinase-1
D. phosphoglycerate kinase
E. pyruvate dehydrogenase

Answer: D

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 Why erythrocytes metabolize glucose by
anaerobic glycolysis?

A. absence of oxygen
B. absence of TPP
C. absence of coenzyme A
D. lack of mitochondria
E. lack of microsome

Answer: D

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 Which of following about glycolysis is correct?

A. the end product is pyruvate
B. occurs in the cytosol of all cells
C. generates ATP via oxidative phosphorylation
D. does not consume ATP
E. all the reaction are reversible

Answer: B

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 Which of following will emerge in the urine
after a healthy person takes heavy exercises?
A.pyruvate
B.lactate
C.glucose
D.oxaloacetate
E.acetoacetate

Answer: B

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 Aerobic Oxidation of Glucose

The process of complete oxidation of glucose to
CO2 and H2O with liberation of energy as the form
of ATP is named aerobic oxidation.
This process is the major process to provide energy
for most tissues.

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 What are the most important products the cells
generate by means of the pentose phosphate pathway?

A. lactate and ATP
B.ribose-5-phosphate and NADPH
C.NADP+ and ribose-5-phosphate
D.NADPH and UDP-ribose
E.ribulose-1,5-biophosphate and NADPH

Answer: B

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 NADP+ is the coenzyme of:

A. LDH
B. succinate dehydrogenase
C. malate dehydrogenase
D. glyceraldehydes-3-phosphate dehydrogenase
E. glucose -6 phosphate dehydrogenase

Answer: E

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 Which of following is basic process of aerobic
oxidation of glucose?
A. glycolytic pathway
B. oxidation of pyruvate to acetyl-CoA
C.TAC
D. oxidative phosphorylation
E. glycolysis

Answer: ABCD

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 Clinic Aspect

Glycogen Storage Diseases
n Glycogen storage diseases are caused by
inherited defects of one or more enzymes
involved in glycogen synthesis or degradation

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 Glycogen Storage Diseases
n In afflicted individuals, the concentration of glucose
in the blood is low, and glycogen accumulates in the
liver and kidneys because glucose is not secreted
normally. Accumulation of glucose 6-phosphate
inhibits glycogen phosphorylase and activates
glycogen synthase. Relief can be obtained by eating
many small meals containing carbohydrate that is
slowly hydrolyzed. Ingestion of excess carbohydrate,
which is stored in the liver, may result in a greatly
enlarged liver.

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 The direct donor of glucose in glycogenesis is:

A.ADP-glucose
B.CDP-glucose
C.UDP-glucose
D.glucose-1-phosphate
E.glucose-6-phosphate

Answer: C

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 Glycogen stored in the muscle can not
maintain blood glucose levels because the
tissue does not contain :
A. pyruvate kinase
B. glucose 6-phosphatase
C. glycogen phosphorylase
D. debranching enzyme
E. pyruvate carboxylase

Answer: B

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 After phosphorylation of glycogen synthase and
phosphrylase:

A. activity of glycogen synthase and phosphorylase
unchanged
B. glycogen synthase is active, phosphorylase is inactive
C. both glycogen synthase and phosphorylase are inactive
D. both glycogen synthase and phosphrylase are active
E. glycogen synthase is inactive, phosphrylase is active

Answer: E
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 The major regulation of glycogenolysis and
glycogenesis is:
A. feedback regulation
B. positive coordinate regulation
C. negative coordinate regulation
D. methylation/demethylation
E. phosphorylation/dephosphorylation

Answer: E
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 Study Questions
Choose the ONE correct answer

The synthesis of glucose from pyruvate by
gluconeogenesis:
A. occurs exclusively in the cytosol.
B. is inhibited by an elevated level of glucagon.
C. requires the participation of biotin.
D. involves lactate as an intermediate.
E. requires the oxidation/reduction of FAD.

Answer: C
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 Gluconeogenesis is the synthesis of:

A. glucose from non-carbohydrate precursors
B. glycogen from glucose
C. pyruvate from glucose
D. fatty acids from glucose
E. amino acids from glucose

Answer: A

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 Which of the following statements is correct about lactate?

A.it is the dead end product of anaerobic respiration in the
muscle and liver
B.it is transported from the muscle to the liver where it
enters glycolysis
C.it is transported from the liver to the muscle where it
enters the citric acid cycle
D.it is transported from the muscle to the liver where it is
converted to glucose via gluconeogenesis
E.it is transported from the liver to the muscle where it
reforms glucose
Answer: D
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 The major substrates for gluconeogenesis are:

A.lactate
B.glycerol
C.Ala
D.Leu
E.Thr

Answer: ABCE

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 Which of following is not correct about
gluconeogenesis?
A.is the process of converting non-carbohydrates to
glucose or glycogen
B. is a reverse process of glycolysis
C. noncarbohydrate includes fatty acids and amino
acids and intermediate products mainly
D. key enzymes of gluconeogenesis exit in cytosol
E. glycolysis and gluconeogenesis were regulated
reciprocally

Answer: BCD

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 Which of the following reaction is completed in
mitochondrion?
A. glycolysis
B. gluconeogenesis
C. glycogen synthesis
D. Citric acid cycle
E. pentose phosphate pathway

Answer: D

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 Which of following is the major organ to
regulate the concentration of glucose?
A. brain
B. liver
C. kidney
D. adrenal gland
E. pancreas

Answer: B

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 Explain the following terms:

1. Glycolysis (location, initial material, the
end product, reaction condition)
2. Aerobic oxidation
3. Pentose phosphate pathway
4. Glycogenesis and Glycogenolysis
5. Gluconeogenesis
6. Substrate cycle
7. Substrate level phosphorylation
8. Cori cycle
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 Answer the following questions
1. What is the significance of glycolysis?
2. Indicate the key enzymes of glycolysis.
3. Indicate the physiological importance of tricarboxylic acid
cycle.
4. What is the physiological importance of pentose phosphate
pathway?
5. Indicate the key enzymes of glycogenesis and glycogenolysis.
6. Indicate the key enzymes of gluconeogenesis.
7. What is the physiological importance of gluconeogenesis?
8. Explain how the glycogenesis and glycogenolysis are
regulated.
9. How many mols of ATP are yielded when 1 mol lactate is
oxidized to CO2 and H2O? List the main steps and key enzymes.

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Lipids are metabolized in different ways in vivo

The metabolism of lipids includes two main
aspects:
Anabolism (biosynthesis) of lipids is the
process in which lipids are synthesized from
smaller, simple precursors.
Catabolism of lipids is the degradative phase
of metabolism in which lipids are converted
into smaller, simpler end products.
 Practise
1 lipids are classified into ( )( )( )
Simple lipids
Complex lipids
Precursors and derivatives of lipids

2 glycerophospholipids are composed of
( )( )( )( )
fatty acid,
Glycerol
phosphoric acid
nitrogen-containing bases
3 Depending on the nature of hydrocarbon chain
fatty acid are classified into ( )( )

Saturated, Unsaturated
4. ( )( )( ) are called essential fatty acids,

Linoleic acid , linolenic acid ,
arachidonic acids
5 During the digestion of Lipid the ( )take part
in the emulsification process

bile salts
6. pancreatic lipase requires a further pancreatic
protein ----( ) for its activity
colipase

7. During catalysis process of lipid, need
some pancreatic lipase, they are mainly
( )( )( )( )

steapsin; colipase ;
phospholipase A2(PLA2) ,

cholesteryl esterase
8、 Digestion of lipids contain two main
process , they are ( )( )
Emulsification, catalysis
 Defination
1 EFA
2 Colipase
3 unsaturated fatty acid

Short answer question
1 explain the classification of fatty acid
2 what is the function of bile salts during the digestion of
lipids
2 what is the function of colipase during the digestion of
lipids
 Sth for the Mid-term exam
1\ Choice (20 question , 2point per question ,40points all )
2\ Explain the word (5 questions, 3 point per question,15 points all )
4\Short question(3 questions , 10point per question,30points all )
5\ Long question (1 question , 15 point per question,15points all )

No review for all the students together
Review by yourself , if you have any question can go to the office
ask the teacher who give you class
Office site : the first building , 5 floor , 514 room
 Why mammals can not synthesize
essential fatty acid (EFA)?

Because they lack the enzymes to introduce
double bonds at carbon atoms beyond C-9
in the fatty acid chain.
 Summary
Places:
small intestine(use food fat to synthesize TG)
liver (main organ for synthesize, can not store)
adipose tissue (synthesize and store, don’t
have glycerol kinase so can not use glycerol)

Materials: Glycerol
glycerol 3-phosphate
free fatty acid
monoacylglycerol
 Practice
uThe enzyme responsible for fatty acid synthesis
are located in the( )of the cell
cytoplasm
uThe activated intermediates of fatty acids
synthesis are bound to the ( )
acyl carrier protein , ACP

uFatty acid synthesis is carried out by a
multienzyme complex known as( )
fatty acid synthase

u( )is the reducing agent for fatty acid synthesis
NADPH
 Main Site!

( ) is the main tissue for FA synthesis
16C palmitate is synthesis in ( ) elongation of
fatty acid chain take place in ( ) and ( )
Liver cytosol： Mitochondria endoplasmic reticulum

p Acetyl CoA for FA synthesis mainly come from
the metabolism of ( ). Transport system to
export acetyl CoA from matrix to cytosol for FA
syntheis is ( )

glucose , citrate-pyruvate cycle
 The sources of NADPH For FA syntheis mainly
come from ( ) Pentose Phosphate pathway

lThe carboxylation of Acetyl CoA is catylazed by ( ), The
production of the reaction is ( ). the prosthetic group of
the enzyme is ( ). It serve as the carrier of ( )

Acetyl-CoA Carboxylase Malonyl-CoA biotin CO2

The sequence of reactions, namely ( )( )( )
( ) are repeated during the synthesis of FA
condensation, reduction, dehydration and reduction
The site for the Biosynthesis of Triacylglycerols are ( )(
)( ),( )is the main organ
Liver , adipose tissue, intestines Liver

The are two pathway fro the synthesis of TG , they are
( ), ( )
Monoacylglycerol pathway
Diacylglycerol pathway

The utilization of glycerol depends on whether the
tissues possess( )
glycerol kinase.
 Defination

Lipogenesis
Citrate-pyruvate cycle
 Short answer question

1 Please write out the Materials for fatty acid
synthesis
2, The sources of NADPH for FA synthesis
3, Please explain Why mammals can not synthesize
essential fatty acid (EFA)?
4, When you eat more glucose , you will become fat,
please explain this phenomenon
 Summay
uThe ketone bodies----acetone, acetoacetate, and β-
hydroxybutyrate---are formed in liver mitochondria
uacetoacetate, and β-hydroxybutyrate serve as fuel in
extrahepatic tissues, through oxidation to acetyl-CoA
and entry into TAC.

uHMG-CoA synthase is the key enzyme in ketogenesis,

uwhile succinyl-CoA transsulfurase and acetoacetate
thiokinase are the key enzymes in ketolysis.
uOverproduction of ketone bodies in uncontrolled
diabetes can lead to ketosis.
 Practice
The process in which triacylglycrols strored in adipose
tissue are degraded to fatty acids and glycerol is called
( ) or( )

fat moblization , lipolysis

The key enzyme of lipolysis is ( )

hormone-sensitive lipase (HSL)

( ) carries long chain fatty acids across
the inner mitochondrial membrane

Carnitine
 Four steps in one round of B-oxidation of FA are( )
( )( )( )

Dehydrogenation Hydration Dehydrogenation Thiolysis

Rate-limiting enzyme of B-oxidation of FA is ( )

carnitine acyltransferase Ⅰ

Ketone bodies including( )( )( )

acetoacetate, β-hydroxybutyrate, acetone.

Oxidation of Fatty Acids occurs in ( )
mitchondria
 Effect of hormones on lipolysis

The hormones stimulating lipolysis are called
Lipolytic Hormones which including

A epinephrine
B norepinephrine
C adrenocorticotropic hormone (ACTH)
D thyroid stimulating hormone (TSH)
E Glucagon
l The hormones inhibiting lipolysis are called
Antilipolytic Hormones.

A insulin
B prostaglandin E2
C nicotinic acid.
D thyroid stimulating hormone (TSH)
E Glucagon
 Location for the formation of ketone bodies
Is ( )of ( ) , the material is ( ), which come from
( ),Rate-limiting enzyme of ketogenesis is ( )

Mitochondria, liver acetyl CoA
fatty acid oxidation HMG-CoA synthase
Because the lack of ( ) and ( )in the liver. So the liveer
can not utilize ketone bodies. these two enzyme are the key
enzyme of ketolysis
succinyl-CoA transsulfurase
acetoacetate thiokinase

The product of the β-oxidation ( )( ) ( )

FADH2, NADH, acetyl CoA,
 Defination

lLipolysis (fat mobilization）
lHSL
lKetone bodies
lKetogenesis
lKetolysis
lLipolytic Hormones
lAntilipolytic Hormones.
 Practice
1、 Glycerophospholipids are lipids with a( )、
( )、 ( ) 、( )

glycerol, fatty acids, phosphate group nitrogen containing base.

2、 There are two Pathways for the synthesis of
Glycerophospholipids , they are( ) and ( )

CDP-diacylglycerol pathway, Diacylglycerol pathway

3、 phosphotidyl ethanolamine , Phosphotidyl choline
are synthesized by( )
Diacylglycerol pathway
4、 Phosphatidylinositol , phosphatidylserine ,
And Cardiolipin are synthesized by ( )

CDP-diacylglyeerol pathway

5、Degradation of glycerophospholipids by( )

phospholipase

6、 During the synthesis of phosphotidyl
ethanolamine ,Phosphotidyl choline
, Choline and ethanolamine must be activated to ( ) and( )
CDP- choline
CDP- ethanolamine.
7、 the bond between phosphate and nitrogen containing
compound of Phosphatidylinositol was hydrolyzed
by( )
Phospholipase D

8 Phospholipid was hydrolyzed by PLA1 , produce
( ) and ( )

lysophospholipid 2, free fatty acidd
 Blood lipid exist and transport in the form of ( )
lipoprotein.
Protein constituents of lipoprotein particles are
called ( )
apolipoproteins(apo).
By Electrophoresis method , lipoprotein can be
classified into ( )( )( )( )

- Lipoprotein pre -Lipoprotein
-Lipoprotein CM (chylomicron)

By Ultracentrifuge method , lipoprotein can be classified
into ( )( )( )( )
CM\ VLDL \ LDL\ HDL
u( ) transports lipids resulting from
digestion and absorption CM

u ( )transport triacylglycerol from the
liver
VLDL

u( )deliver cholesterol from liver to
other tissue LDL

u( )remove cholesterol from the tissues in the
process known as reverse cholesterol transport

HDL
 Cholesterol and cholesterol ester are the
predominant lipids in( )

A CM
B VLDL
C LDL
D HDL
E - Lipoprotein
C
 LDL contain only ( )

A apoB100
B apoB48
C apoCⅡ、
D apoCⅢ
E apoE；

A
 CM contain a lot of apoprotein, ( ) is
unique to CM.

A apoB100
B apoB48
C apoCⅡ、
D apoCⅢ
E apoE；
B
( )contains most protein

A CM
B VLDL
C LDL
D HDL
E - Lipoprotein
D
( )activates lipoprotein lipase（LPL）

A apo A II
B apo A I
C apo CⅡ、
D apoCⅢ
E apoE；

C
( )activates LCAT

A apo A II
B apo A I
C apoCⅡ、
D apoCⅢ
E apoE；
B
 Write out the Functions of
apolipoproteins

1) To combine and transport lipids
2) to stabilize the structure of lipoprotein.
3) Some of them are enzyme cofactors,
4) Some of them act as ligands which
interact with lipoprotein receptors in tissue.
 ( )carries endogenous triglycerides from
liver to peripheral tissues for energy needs.
VLDL

( )transport cholesterol
from liver to the peripheral tissues.
LDL

( ) transport cholesterol from
peripheral tissues to liver (RCT)
HDL
 Definition of RCT

The transport of cholesterol from the
peripheral tissues to the liver is known as
reverse cholesterol transport (RCT).
5. What is essential amino acids ,
which amino acid belong to essential amino acids.

v Definition : the amino acids which the body cannot make at all
or cannot make enough to meet physiological needs, and must
be supplied in the diet are called nutritionally essential amino
acids.

v 8 essential amino acid:
isoleucine, leucine, lysine, methionine, phenylalanine, threonine ,
tryptophan and valine.
6. Which is the primary proteolytic enzyme in
the stomach? Pepsin

7. What is Endopeptidase
the enzyme that cleave internal peptide bonds,forming shorter peptides.
Contain: Trypsin ,chymotrypsin, and elastase

8.What is exopeptidase
which remove amino acids from the amino terminus or carboxyl terminus
contain : carboxypeptidase and aminopeptidase

9. The absorption mechanism of amino acid
some amino acids requires the active transport
While others are absorbed via the facilitated diffusion
γ-glutamyl cycle
10.What is putrefaction ?
the proteins undigested and digestion products not absorbed in the
process of digestion , which will be used by bacteria in the large
intestine, this process is called putrefaction

11. Tyrosine is converted to ( )by decarboxylation ?
histidine to histimine
lysine to cadaverine
tryptophan to tryptamine
tyrosine to tyramine
phenylalanine to phenylethylamine

12. Decreasing the pH value will ( )
the absorption of ammonia decrease

13 what is protein turnover?
The constant recycling of proteins in the body is known as protein
turnover.
14. What is half-life?
t1/2, the time required to reduce the concentration of proteins
to 50% of its initial value.
15. What is amino acid pool?
amino acid released by hydrolysis of tissue protein are mixed
with those digested and absorbed from protein foods ,all of
these amino acids are distributed throughout the body and
collectively constitute the amino acid pool

16. Two major pathway of degradtion proteins
(1) ATP-independent process:
(2) ATP-dependent process:
17. The process of ATP-dependent process:
1) ubiquitination :
2) degradation in proteasome
 Questions
1. The ways for deamination:
transamination
oxidative deamination
combined deamination
transamination combined oxidative deamination
transamination combined purine nucleotide cycle

2. The prosthetic group of transaminase
is ( ) , come from( ), as a coenzyme
Which is act as ( ) in transamination
reactions,
pyridoxal phosphate (PLP vitamin B6 facilitating the
3. Write out the transamination reaction transfer of amino
groups between
catalyzed by GOT and GPT amino acids and
α-keto acids.
 4. Why Some Transaminase are of diagnositc
value?
Transaminases are normally intracellular enzyme.
physical trauma or a disease process can cause cell
lysis, resulting in release of intracellular enzymes
into the blood.So the mensuration of serume
transaminase can help the doctor to diagnosis the
disease
5. the oxidative deamination is catalyzed by
( ) glutamate dehydrogenase.
6.The most important manner for the removal of
amino group is ( ) , transamination reactions.
7. The reaction site of urea cycle. liver
8. The energy needed in the urea cycle. provided by ATP
and the hydrolysis of
ATP during various
9. The nitrogen materials of urea. come from steps of the cycle.
ammonia (NH3)
10.What is hyperammonemia.
A block in any of the urea cycle enzymes leads to an increase
in the amount of ammonia in the blood ,so called hyperammonemia

11. The reason of hyperammonemia?

the most common cause is a genetic
defect of urea synthesis enzymes.
12. the totally reaction of urea cycle?

uFormation of carbamoyl phosphate
uFormation of citrulline
uFormation of argininosuccinate
uFormation of arginine
uFormation of urea
 13. transamination combined
oxidative deamination take place in
the
( ) mitochondria.
transamination combined
purine nucleotide cycle take place
in ( ), because ( )

cytosol, because the enzymes involved in
the purine nucleotide cycle are located in
the cytosol.
 Questions :
1. the catabolism of the carbon skeletons of AA
converges to form seven products, they are

1) pyruvate,
2) acetyl CoA,
3) acetoacetyl CoA,
4)α-ketoglutarate ,
5) succinyl CoA,
6) fumarate ,
7) oxaloacetate.
2. Amino acids are grouped into 3
classes

Glucogenic
Ketogenic
Glucogenic and ketogenic
 3. What is Glucogenic AA
Glucogenic: Amino acids are termed as
glucogenic if their carbon skeletons can give
rise to the net synthesis of glucose.
4. What is Ketogenic AA
Ketogenic : Amino acids are termed as ketogenic
if their carbon skeletons can give rise to the net
synthesis of ketone bodies.

5. What is Glucogenic and
Ketogenic AA
 6 Ketogenic amino acid include :

7. There are three sulfur-containing amino acids :
methionine, cystine, cysteine.

8. the direct donor of methyl group is ( )
the indirect donor of methyl group is ( )
SAM, the N5-methyl-FH4

9. Aromatic amino acid include:
phenylalanine , tyrosine, tryptophan

10.Phenylketonuria Caused by the absence or
deficiency of ( ) phenylalanine hydroxylase
 11. Write down the metabolism pathway of
use aspartate to synthesis glucose.

GOT
Aspartate +а-ketoglutarate Oxaloacetate +glutmate

PEP carboxykinase Reverse of glycolysis
Oxaloacetate PEP
ATP ADP

Fuctose -1,6-biphosphatase
Fuctose -1,6-biphosphate Fuctose -6-phosphate

glucose-6-phosphatase
glucose-6-phosphate glucose
 12.Write down the thoroughly breakdowm
metabolism pathway of alanine, and calculate
how many ATP can produced by alanine.
 13. How alanine oxidized thoroughly , and how many
ATPs can be produced.
Write down the main reaction, and calculate ATPs

1. Alanine + α-Ketoglutarate ALT

Pyruvate + glutamate

2. Pyruvate Pyruvate dehydrogenase
Acetyl - CoA
NAD + NADH
NADH go into respiratory chain and oxidized produce 3 ATPs

3. Acetyl CoA go into TCA cycle , produce 12 ATPs
so , totally 15 ATPs are produced per alanine oxidized
 14. How aspartate oxidized thoroughly , and how
many ATPs can be produced.
Write down the main reaction, and calculate ATPs
GOT
1 Aspartate +а-ketoglutarate Oxaloacetate +glutmate
PEP carboxykinase
2 Oxaloacetate PEP
ATP ADP
Pyruvate kinase
3 PEP Pyruvate
ADP ATP

4 Pyruvate dehydrogenase
Pyruvate Acetyl - CoA
NAD + NADH
NADH go into respiratory chain and oxidized produce 3 ATPs
5. Acetyl CoA go into TCA cycle , produce 12 ATPs
so , totally 15 ATPs are produced per aspartate oxidized
15 ( ) is active methionine, serves
as major methyl group donor of in
biological reaction
S-Adenosyl methionine or SAM

16. ( ) is the donor of sulfate in vivo in
the reaction such as biotransformation.

PAPS
 Questions :
1. Creatin is produced from ( ) ( ) and ( )
glycine, arginine and methionine

2. Creatin is used for( ) in muscle and brain tissue
energy storage
3. γ-aminobutyrate is produced from( ) by decarboxylation
Glutamate

4. taurine is produced from( ) by decarboxylation
cystein
5. Catecholamines are produced from ( )
tyrosine
 6. What is one carbon unit ?
During the catabolism of amino acid ,some functional
group contained only one molecule of carbon element
will be got , which are called-------- one carbon unit

6. Which is not one carbon unit ?
CH3 , CH2 , CH , CH=NH , CHO , CO2

7. the carrier of one carbon unites is ( )
FH4/THF
8.Four kinds of amino acids are the major sources of
one carbon in the body,They are
Serine, Glycine , Histidine and Tryptophan
 Questions :
1. Biological function of nucleotide
1 They are the precursors for DNA and RNA synthesis.

2 They are served as carriers of the activated intermediates
in the synthesis of some carbohydrates,lipids and protein,
eg, UDPG, SAM.
3 Components of some essential coenzyme.such as FAD,
NAD+,NADP+,
4 pattern of energy utilization in vivo. ATP is basic energy
substance in body.

5 regulatory molecules , cAMP and cGMP play important
role in signal transduction as second messengers.
2. The sources of nitrogen and
carbon atoms of the purine ring
CO2 Glycine

Aspartate
N10-CHO-FH4
N10-CHO-FH4

Glutamine
3. Three process contribute to
purine nucleotide biosynthesis

de novo synthesis : Synthesis from
amphibolic intermediates
salvage synthesis:
phosphoribosylation of purines
phosphorylation of purine nucleosides
4. What is de novo synthesis
of purine nucleotides

De novo synthesis of purin nucleotides
is a metabolic pathway in which purine
nucleotides are synthesized by a series of
enzymatic reactions with ribose
phosphate, amino acid, one-carbon unit
and CO2 as materials.
5. What is salvage synthesis of
purine nucleotides

Salvage synthesis pathway is the
pathway in which purines, purine
ribonucleosides are converted to
mononucleotides.
6. Characteristics of the de novo
synthesis of purine nucleotides
1) purine nucleotides is synthesized step by
step on the basis of R-5-P.
2)Purine base is not synthesized first

3) biosynthesis of IMP need 5 ATP and 6
high-energy bond。
4)the synthesis of AMP or GMP needs one
more ATP or GTP。
7. physiological significance of
salvage synthesis pathway

l Salvage synthesis pathway requires far
less energy than dose de novo synthesis ,
so save energy and amino acids

l Some tissues and organs such as brain and
bone marrow can only carry out salvage
reaction
 8. in de novo synthesis of purin nucleotides, ( )
is synthesized first, and then ( ) and ( )is
sytnhesized.
phosphoribosyl pyrophosphate (PRPP)
inosine monophosphate AMP (adenosine
(IMP) monophosphate) /

9. de novo synthesis take place in ( ).
Cytosol of liver
GMP (guanosine
monophosphate) is
synthesized.

10. deoxynucleotides are not synthesized from the
beginning, but are formed from ( ). ribonucleotides.

11. Analogs of purine nucleotide is ( )
12. Analogs of glutamine is ( )
13.MTX is the analogue of ( ) inhibit ( )
so influence the metabolism of one carbon unit. 6-MP
(6-
merca

Cytosol of liver NDP 6-MP Azaserine
ptopuri
ne).

Folic acid dihydrofolate reductase
13 purines in humans are catabolized to
( )
14.( ) is a metabolic disorder of purine
catabolism ,
15. ( )is used for the therapy of
gout ,it can inhibit ( )

uric acid gout

Allopurinol Xanthine oxygenase
1. What is de novo synthesis
pathway of pyrimidine nucleotides

utilizing phosphoribose, amino
acid, one carbon unit , CO2 etc. as
materials and series of enzymes as
catalyst to synthesize pyrimidine
organisms.
2. the difference between CPSⅠ and CPSII

CPSⅠ CPSII
distribution in mitochondrium in cytosol

Nitrogen NH3 glutamine

activator N-AGA non

Function synthesis of urea synthesis of pyrimidine
 3.element sources of
pyrimidine base

Carbamoyl Gln asparate
phosphate
CO2
4. in de novo synthesis of pyrimidine
nucleotides ( ) is synthesized first, and
then ( ) and ( )is synthesized.
5. Analog of pyrimidine is ( )
6.De novo synthesis of pyrimidine take place
in ( )
7( ) is the methyl donor of TMP

UMP , CMP , dTMP Cytosol
5-FU, N5, N10-CH2-FH4
 Questions
1. What is biotransformation?
Definition :
biotransformation is the process of the
chemical alteration of some nonnutritive
substance by metabolic reaction in vivo
2. ( liver ) is the main organ for biotransformation

3. Biotransformation have two phase reaction ,

In Phase 1: ( ),( )( ) Phase 2: ( )
Conjugation
Oxidation, Reduction,
and Hydrolysis
 4. The main enzyme take part in oxidation reactions:
monooxygenase
monoamine oxidase(MAO)
alcohol dehydrogenase (ADH)
aldehyde dehydrogenase (ALDH)

5. The main enzyme take part in reduction reactions:
nitroreductase
azoreductase

6. In conjugation reaction, donor of glucuronyl is ( )
donor of sulfate is ( ),donor of CH3 is ( ),
1. UDPGA (Uridine 5’-diphosphate-glucuronic acid)
2. PAPS (3’-Phosphoadenosine-5’-phosphosulfate)

3. SAM (S-Adenosyl methionine)
7.The Factors affect the activity of the enzymes
disease
Inducers
Inhibitors
Differ among species
Differ among individuals
Vary according to age and sex
 Questions
1. Heme is synthesized with( ) and ( )as two starting
materials. The( ) iron incorporated after the
protoporphyrin has been assembled

succinyl-CoA glycine ferrous

2. For synthesis heme, the major site is ( ), The
initial reaction and the last three steps occur
in( ) , the intermidiate steps occur in the ( )

liver mitochondria, cytosol
3. In the process of heme synthesis,
( ) is the rate-limiting enzyme

ALA synthase
4. Catabolism of heme produces( ) bilirubin

5. Bilirubin is transported in blood by binding with ( )
albumin
6. in the liver bilirubin conjugate with( ),
mainly form( )

UDPGA Bilirubin diglucuronide
7. Conjugated bilirubin is reduced to ( ) by intestinal
bacteria, then excreted in the feces
urobilin

8. Conjugated bilirubin is also called ( )
unconjugated bilirubin is called ( )

direct reacting bilirubin; indirect reacting bilirubin”
9. What is jaundice?
refers to the yellow color of the skin and sclera caused
by deposition of bilirubin.

10.Classificaiton of jaundice are
( ),( ),( )

Hemolytic jaundice
Hepatocellular jaundice
Obstructive jaundice
11 whati is urobilinogen
enterohepatic circulation ?

In intestin , small fraction of the urobilinogens is
reabsorbed and enters liver through portal vein.Most
of these urobilinogens will be reexcreted into
intestinal tract along with bile, so to form the
urobilinogen enterohepatic circulation
13 , which is not the donor of conjugation
reaction during biotransformation?
A. UDPGA B.UDPG C.acetyl-CoA
D.PAPS E.SAM
 Study questions
The base sequence of one strand in a
DNA molecular is 5’-AACGT-3’,the sequence
of the opposite strand is:
A: ACGTT
B: UUGCA
C: AACGT
D: TTGCA
E: ACGTT

Answer: E
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 Study questions

Which of the following bond link the
nucleotide in the primary structure of nucleic
acid?
A. peptide bond
B. hydrogen bond
C. 3′,5′-phosphodiester bond
D. salt bond
E. hydrophobic bond

Answer: C
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 Which of the following nucleotide is not
in DNA molecule ?
A.dAMP
B.dGMP
C.dTMP
D.dUMP
E. dCMP

Answer: D
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 Which of the following is the common
component of DNA and RNA?
A.D-ribose
B. D-2-desoxyribose
C. uracil
D. thymine
E. guanine

Answer: E

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 Which of the following is the secondary
structure of DNA?
A.α-helix
B.β-folding
C.supercoil
D.β-turn
E.double helix structure

Answer: E

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 In DNA molecule, the adenine content
is 15%，so the cytosine content is :
A.0.15
B.0.3
C.0.4
D.0.35
E.0.07

Answer: D

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 A nucleotide consists of

A. a sugar, a base and a phosphate
B. a sugar and a phosphate
C. paired bases
D. a sugar, a base and three phosphates

Answer: A

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 Nucleoside is a pyrimidine or purine base

A. covalently bonded to a sugar
B. ionically bonded to a sugar
C. hydrogen bonded to a sugar
D. none of the above

Answer: A

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 Study questions

Which of the following DNA has the
lowest Tm?
A.A-T is 15%
B.G-C is 25%
C.G-C is 40%
D.A-T is 80%
E. G-C is 55%

Answer: D
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 Nucleic acids can absorb ultraviolet
light. Which is the sharp absorb band

A. 260 nm
B. 280 nm
C. 320 nm
D. 450 nm

Answer: A
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 Which of the following is correct about
DNA denaturation?
A. hydrogen bond between the complementary
base pair cleavage
B. the sequence of basic group is destroyed
C. DNA denaturation is irreversible
D. character of light absorption disappear
E. A260 is degraded

Answer: A
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 Study questions

Which of the following is the
common sequence of tRNA 3' end?
A.CCA
B.CAA
C. CCC
D.AAC
E.AAA

Answer: A
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 Explain the terms:
DNA denaturation; hyperchromic effect; Ribozymes

Questions:
1．Please explain briefly the difference between RNA
and DNA.
2．What is Tm? Write out the factors that affect the Tm.
3 ． Please state the structure characters of eukaryotic
mRNA.
4．There are how many RNA in cell? Please write out
the RNA and the function of the different RNA.
5. What are the characters of double helix of DNA?

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1.The rate-limiting step of fatty acid
synthesis is catalyzed by:

A.acetyl-CoA carboxylase
B. ATP-citrate lyase
C.malic enzyme
D. pyruvate dehydrogenase
E.thiolase
A.
 2.Which is the key enzyme in the
regulation of fatty acid synthesis?

A.fatty acid synthase
B.acetyl-CoA carboxylase
C.keto-acyl-ACP
D.enoyl-ACP reductase
E.thioesterasesynthase

B.
 3.NADPH in fatty acid synthesis comes
from:

A.aerobic oxidation of glucose
B. glycolytic pathway
C. gluconeogenesis
D.pentose phosphate pathway
E.glucuronate pathway

D
 4.Which is prosthetic group of acetyl-CoA
carboxylase?

A.NAD+
B.biotin
C.NADP+
D.FAD
E.FMN
B.
 5.Which is the pathway that acetyl-CoA is
transported from the mitochondria into the
cytosol to allow fatty acid synthesis to
occur?

A.TAC
B.malate-asparate shuttle
C. glucose pyruvate cycle
D.citrate- pyruvate cycle
E.α-glycerophosphate shuttle
D
 6.Which of following is the most important
site to synthesize triacylglycerols?

A.liver
B.kindey
C.adipose tissue
D.brain
E.intestine
A
7 Which of the following are inhibitors of
acetyl-CoA carboxylase?

A.citrate
B.cAMP
C.CoA
D.ATP
E.acyl-CoA

E
 10.Which of following is not the product of
fatty acid β-oxidation in liver?

A.NADH+H+
B.FADH2
C.H2O
D.acetyl-CoA
E.acyl-CoA

C
 11.Which can transport acyl-CoA into the
mitochondria?

A.apolipoprotein
B.lipoprotein
C.albumin
D.citrate
E.carnitine

E
 13.How many mols of ATP are yielded
when 1 mol palmitic acid (16 C) is oxidized
to CO2 and H2O ?

A.129
B.131
C.165
D.182
E.199
A
 14.Which is not required in β-Oxidation of
fatty acids?

A.CoASH
B.NADP+
C.carnitine
D.FAD
E.NAD+
B.
 15.Which is the correct sequence of 4
reactions in fatty acids oxidation?

A.oxidation,oxidation,hydration,thiolysis
B.thiolysis,oxidation,oxidation,hydration
C. dehydrogenation, hydration,
dehydrogenation, thiolysis
D.hydration,oxidation,thiolysis,oxidation
E.oxidation,thiolysis,oxidation,hydration
C.
 16.Which is the rate –limiting enzyme in
the TG degradation?

A.HSL
B.LPL
C.DAG lipase
D.HL
E.MAG lipase
A
 17.Which hormone can accelerate fat
mobilization?

A.epinephrine
B.glucagons
C.TSH
D.ACTH
E. all above

E
 18.Which is anti-lipolytic hormone ?

A.epinephrine
B.glucagons
C.TSH
D.ACTH
E.prostaglandin E2

E
 19.Which is the key enzyme in β-oxidation
of fatty acids?

A.carnitine acyl transferaseⅠ
B.carnitine acyl transferaseⅠ
C.acyl-CoA synthetase
D.carnitine-acylcaritine translocase
E.acetyl-CoA carboxylase

A
 20.The following compounds are
generated accompanying with fatty acids β
－oxidation except:

A.H2O
B.acetyl-CoA
C.acyl-CoA
D. NADH+H+
E. FADH2
A
 21.Acetyl-CoA produced during fatty acid
mobilization in the liver can be mainly
converted to:

A.glucose
B.cholesterol
C.fat
D.ketone bodies
E.cholesterol ester
D
 22.In which following conditions are ketone
bodies synthesis greatly accelerated?

A.glycolysis is enhanced
B.fat mobilization is enhanced
C.fatty acid synthesis is enhanced
D. malonyl-CoA is reduced
E.aerobic oxidation of glucose is enhanced

B
 23.The lack of ( ) means that ketone
bodies are synthesized exclusively in the
liver and must be used elsewhere.

A.HMGCoA synthase
B.succinyl-CoA transsulfurase
C.HMGCoA reductase
D. acetoacetyl-CoA thiolase
E.HMGCoA thiolase
B
Acetoacetate thiokinase
 24.Which of following does not utilize
ketone bodies?

A.skeletal muscle
B.heart
C.brain
D.liver
E.kindey
D
 25.The direct precursor of acetoacetate in
ketone body formation in live is:

A.3-hydroxybutyrate
B.acetoacetyl-CoA
C.3-hydroxybutyral-CoA
D. mevalonate(MVA)
E.HMGCoA

E
 26.Which of followings will raise in blood in
long starvation？

A.glucose
B.hemoglobin
C.ketone bodies
D.lactic acid
E.pyruvate

C
 27.Which of followings is involved in
ketolysis at extrahepatic tissues?

A.oxaloacetate
B.succinyl-CoA
C.malonyl-CoA
D.acyl-CoA
E.pyruvate
B
 28.Energy for brain in long starvation
mainly comes from:

A.glucose oxidation
B.lactate oxidation
C.fatty acids oxidation
D.ketone bodies oxidation
E.amino acids oxidation

D
 29.The key enzyme of ketogenesis is:

A.HMGCoA synthase
B.HMGCoA reductase
C. HMGCoA lyase
D.acetoacetyl-CoA thiolase
E.acetoacetyl-CoA thiokinase

A
 30.Ketone bodies include:

A.β-hydroxybutyrate and oxaloacetic acid
B.pyruvate and acetoacetate
C.pyruvate and oxaloacetic acid
D.acetone and β- hydroxybutyrate
E.lactic acid and acetoacetate

acetoacetate, β-hydroxybutyrate, and acetone. D
 32.Which is not concerned with the
glycerophospholipid biosynthesis?

A.serine
B.GTP
C.ATP
D.CTP
E.choline

B
 33.Which is essential fatty acid?

A.stearic acid
B.oleic acid
C.linoleic acid
D.palmitic acid
E.oxaloacetic acid

Linoleic acid, linolenic acid arachidonic acids
C
 34.Choline is activated in the form of ( ),
before it enters diacylglycerol pathway.

A.ADP-choline
B.UDP-choline
C.CDP-choline
D.GDP-choline
E.CMP-choline
C
 36.Which of followings is indispensable in
synthesis of glycerolphospholipids

A.CTP
B.UTP
C.GMP
D.UMP
E.TDP

A
 37.Which is not concerned with the
cholesterol biosynthesis?

A.acetyl-CoA
B.HMGCoA
C.NADPH+H+
D.NADH +H+
E.ATP

D
 38.The raw material of cholesterol in the
body is:

A.pyruvate
B.oxaloacetate
C.malate
D.acetyl-CoA
E.α-ketoglutarate
D
 39.Which of following does not come from
cholesterol?

A.bile acid
B.epinephrine
C. glucocorticoids
D.sex hormone
E. vitamin D3
B
 40.The most important mechanism for
degrading and eliminating cholesterol is:

A.conversion to sex hormone
B. conversion to steroid hormones
C. conversion to vitamin D3
D.synthesis of the bile acids
E. conversion to urea

D
 42.Which is an intermediate on the
pathway for synthesis of ketone bodies
and cholesterol?

A.malonyl-CoA
B.acetoacetyl-CoA
C.HMG-CoA
D.acetyl-CoA
E.acetoacetate
C
 43.In the liver,( ) is the rate–limiting
enzyme on the pathway for synthesis of
cholesterol.

A.HMGCoA reductase
B.HMGCoA synthase
C.HSL
D.LCAT
E.ACAT
A
 44.The major place for cholesterol
biosynthesis is:

A.brain
B.liver
C.mature red blood cell
D.kidney
E.heart

B
 46.The sub-cell site of cholesterol
synthesis is:

A.mitochondria + lysosome
B. mitochondria + Golgi body
C. cytosol+ endoplasmic reticulum
D. lysosome + endoplasmic reticulum
E. cytosol+ Golgi body

C
 48.The major function of HDL is:

A.to carry exogenous TG and CE from the
intestine to the tissues
B.to transport endogenous TG from the
intestine to the tissues
C.to transport endogenous cholesterol from
the liver to the tissues
D.to transport free fatty acid
E.reverse cholesterol transport E
 49.Which is the specific function of apoAⅠ ?

A.activates LPL
B.inhibits HL
C.activates LCAT
D.inhibits LCAT
E.activates ACAT

C
 50.Which is the primary carrier of
cholesterol in the blood of humans?

A.CM
B.HDL
C.VLDL
D.LDL
E.IDL

D
 51.Which lipoprotein contains apoB48
mostly?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
D
 52.Which is the major form that transports
endogenous TAGs from the liver to the
tissues?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
C
 53.Which is the major form that
participates in the reverse cholesterol
transport?

A.IDL
B.HDL
C.LDL
D.VLDL
E.CM
B
 54.ApoC Ⅰ activates:

A.LPL
B.LCAT
C.ACAT
D.HL
E.HSL

A
 55.Based on density and size, plasma
lipoproteins can be classified into four
main groups,except:

A.CM
B.VLDL
C.LDL
D.HDL
E.albumin
E
 56.The enzyme which esterifies
cholesterol in cytosol is:

A.lipoprotein lipase
B.LCAT
C.ACAT
D. acyltransferase
E.hepatic lipase
C
 57.The enzyme which esterifies
cholesterol in blood plasma is:

A.phosphatidase
B.LCAT
C.ACAT
D.carnitine acyltransferase
E.lipoprotein lipase

B
 58.Which of followings is the carrier of free
fatty acids in blood?

A.lipoprotein
B.glycoprotein
C.albumin
D.globulin
E.apolipoprotein
C
 59.Which of following runs fast in
electrophoresis?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
A
 61.Which is the major form that transports
exogenous TAGs to the circulation?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
D
 62.Acetyl-CoA carboxylase catalyzes the
first committed step in the biosynthesis of
fatty acids. which of the following are
stimulators of the enzyme?

A.citrate
B.AMP
C.palmitoyl-CoA
D. isocitrate
E.malonyl-CoA AD
 64.The sub-cell of stearic acid synthesis
includes:

A.mitochondria
B.peroxisome
C.cytosol
D.endoplasmic reticulum
E.nucleus
ACD
 65.Which of followings is correct about
acetyl-CoA carboxylase?

A.is a regulatory allosteric enzyme
B.is the key enzyme in lipogenesis
C.contains a biotin as prosthetic group
D.By phosphorylation make it inactive
E.is regulated by
phosphorylation/dephosphorylation
ABCDE
 66.The hormones stimulating lipolysis are
called lipolytic hormones,which includ:

A.glucagons
B.insulin
C.epinephrine
D.ACTH
E.prostaglandin E2

ACD
 69.Utilization of ketone bodies in:

A.heart
B.brain
C.kidney
D.liver
E.skeletal muscle

ABCE
 70.Ketone bodies are water-soluble fuels
normally exported by the liver including:

A.acetone
B.pyruvate
C.β-hydroxybutyrate
D.acetoacetyl-CoA
E. acetoacetate

ACE
 72.Which is essential fatty acid?

A.oleic acid
B.linolenic acid
C. linoleic acid
D.arachidonic acid
E. palmitic acid

BCD
 73.Which of followings are the basic
structure of glycerophospholipid?

A.sphingosine
B.fatty acids
C. nitrogenous base
D.glycerol
E. ceramide

BCD
 74.Which of followings employ CDP-
diacylglycerol pathway to synthesis
themselves?

A.phosphatidylinositol
B.phosphatidyl ethanolamine
C.phosphatidylserine
D.cardiolipin
E.phosphatidyl choline
ACD
 75.Which of followings are synthesized by
diacylglycerol pathway?

A.phosphatidylinositol
B.phosphatidyl ethanolamine
C. phosphatidylserine
D.cardiolipin
E.phosphatidyl choline

BE
 78.The raw materials in cholesterol
biosynthesis are:

A.acetyl-CoA
B.NADPH
C.ATP
D.CO2
E.O2

ABC
 80.Which of followings use acetyl-CoA as
raw materials?

A.cholesterol
B.fatty acid
C. pyruvate
D. ketone bodies
E.glucose

ABD
 82.The basic components of lipoprotein
includes:

A.cholesterol ester
B.albumin
C. phospholipid
D.apolipoprotein
E.triacylglycerol

ACDE
 85.The plasma lipoproteins which mainly
transport triacylglycerols are:

A.CM
B.LDL
C.VLDL
D.HDL
E.IDL
AC
1.The rate-limiting step of fatty acid
synthesis is catalyzed by:

A.acetyl-CoA carboxylase
B. ATP-citrate lyase
C.malic enzyme
D. pyruvate dehydrogenase
E.thiolase
A.
 2.Which is the key enzyme in the
regulation of fatty acid synthesis?

A.fatty acid synthase
B.acetyl-CoA carboxylase
C.keto-acyl-ACP
D.enoyl-ACP reductase
E.thioesterasesynthase

B.
 3.NADPH in fatty acid synthesis comes
from:

A.aerobic oxidation of glucose
B. glycolytic pathway
C. gluconeogenesis
D.pentose phosphate pathway
E.glucuronate pathway

D
 4.Which is prosthetic group of acetyl-CoA
carboxylase?

A.NAD+
B.biotin
C.NADP+
D.FAD
E.FMN
B.
 5.Which is the pathway that acetyl-CoA is
transported from the mitochondria into the
cytosol to allow fatty acid synthesis to
occur?

A.TAC
B.malate-asparate shuttle
C. glucose pyruvate cycle
D.citrate- pyruvate cycle
E.α-glycerophosphate shuttle
D
 6.Which of following is the most important
site to synthesize triacylglycerols?

A.liver
B.kindey
C.adipose tissue
D.brain
E.intestine
A
7 Which of the following are inhibitors of
acetyl-CoA carboxylase?

A.citrate
B.cAMP
C.CoA
D.ATP
E.acyl-CoA

E
 10.Which of following is not the product of
fatty acid β-oxidation in liver?

A.NADH+H+
B.FADH2
C.H2O
D.acetyl-CoA
E.acyl-CoA

C
 11.Which can transport acyl-CoA into the
mitochondria?

A.apolipoprotein
B.lipoprotein
C.albumin
D.citrate
E.carnitine

E
 13.How many mols of ATP are yielded
when 1 mol palmitic acid (16 C) is oxidized
to CO2 and H2O ?

A.129
B.131
C.165
D.182
E.199
A
 14.Which is not required in β-Oxidation of
fatty acids?

A.CoASH
B.NADP+
C.carnitine
D.FAD
E.NAD+
B.
 15.Which is the correct sequence of 4
reactions in fatty acids oxidation?

A.oxidation,oxidation,hydration,thiolysis
B.thiolysis,oxidation,oxidation,hydration
C. dehydrogenation, hydration,
dehydrogenation, thiolysis
D.hydration,oxidation,thiolysis,oxidation
E.oxidation,thiolysis,oxidation,hydration
C.
 16.Which is the rate –limiting enzyme in
the TG degradation?

A.HSL
B.LPL
C.DAG lipase
D.HL
E.MAG lipase
A
 17.Which hormone can accelerate fat
mobilization?

A.epinephrine
B.glucagons
C.TSH
D.ACTH
E. all above

E
 18.Which is anti-lipolytic hormone ?

A.epinephrine
B.glucagons
C.TSH
D.ACTH
E.prostaglandin E2

E
 19.Which is the key enzyme in β-oxidation
of fatty acids?

A.carnitine acyl transferaseⅠ
B.carnitine acyl transferaseⅠ
C.acyl-CoA synthetase
D.carnitine-acylcaritine translocase
E.acetyl-CoA carboxylase

A
 20.The following compounds are
generated accompanying with fatty acids β
－oxidation except:

A.H2O
B.acetyl-CoA
C.acyl-CoA
D. NADH+H+
E. FADH2
A
 21.Acetyl-CoA produced during fatty acid
mobilization in the liver can be mainly
converted to:

A.glucose
B.cholesterol
C.fat
D.ketone bodies
E.cholesterol ester
D
 22.In which following conditions are ketone
bodies synthesis greatly accelerated?

A.glycolysis is enhanced
B.fat mobilization is enhanced
C.fatty acid synthesis is enhanced
D. malonyl-CoA is reduced
E.aerobic oxidation of glucose is enhanced

B
 23.The lack of ( ) means that ketone
bodies are synthesized exclusively in the
liver and must be used elsewhere.

A.HMGCoA synthase
B.succinyl-CoA transsulfurase
C.HMGCoA reductase
D. acetoacetyl-CoA thiolase
E.HMGCoA thiolase
B
Acetoacetate thiokinase
 24.Which of following does not utilize
ketone bodies?

A.skeletal muscle
B.heart
C.brain
D.liver
E.kindey
D
 25.The direct precursor of acetoacetate in
ketone body formation in live is:

A.3-hydroxybutyrate
B.acetoacetyl-CoA
C.3-hydroxybutyral-CoA
D. mevalonate(MVA)
E.HMGCoA

E
 26.Which of followings will raise in blood in
long starvation？

A.glucose
B.hemoglobin
C.ketone bodies
D.lactic acid
E.pyruvate

C
 27.Which of followings is involved in
ketolysis at extrahepatic tissues?

A.oxaloacetate
B.succinyl-CoA
C.malonyl-CoA
D.acyl-CoA
E.pyruvate
B
 28.Energy for brain in long starvation
mainly comes from:

A.glucose oxidation
B.lactate oxidation
C.fatty acids oxidation
D.ketone bodies oxidation
E.amino acids oxidation

D
 29.The key enzyme of ketogenesis is:

A.HMGCoA synthase
B.HMGCoA reductase
C. HMGCoA lyase
D.acetoacetyl-CoA thiolase
E.acetoacetyl-CoA thiokinase

A
 30.Ketone bodies include:

A.β-hydroxybutyrate and oxaloacetic acid
B.pyruvate and acetoacetate
C.pyruvate and oxaloacetic acid
D.acetone and β- hydroxybutyrate
E.lactic acid and acetoacetate

acetoacetate, β-hydroxybutyrate, and acetone. D
 32.Which is not concerned with the
glycerophospholipid biosynthesis?

A.serine
B.GTP
C.ATP
D.CTP
E.choline

B
 33.Which is essential fatty acid?

A.stearic acid
B.oleic acid
C.linoleic acid
D.palmitic acid
E.oxaloacetic acid

Linoleic acid, linolenic acid arachidonic acids
C
 34.Choline is activated in the form of ( ),
before it enters diacylglycerol pathway.

A.ADP-choline
B.UDP-choline
C.CDP-choline
D.GDP-choline
E.CMP-choline
C
 36.Which of followings is indispensable in
synthesis of glycerolphospholipids

A.CTP
B.UTP
C.GMP
D.UMP
E.TDP

A
 37.Which is not concerned with the
cholesterol biosynthesis?

A.acetyl-CoA
B.HMGCoA
C.NADPH+H+
D.NADH +H+
E.ATP

D
 38.The raw material of cholesterol in the
body is:

A.pyruvate
B.oxaloacetate
C.malate
D.acetyl-CoA
E.α-ketoglutarate
D
 39.Which of following does not come from
cholesterol?

A.bile acid
B.epinephrine
C. glucocorticoids
D.sex hormone
E. vitamin D3
B
 40.The most important mechanism for
degrading and eliminating cholesterol is:

A.conversion to sex hormone
B. conversion to steroid hormones
C. conversion to vitamin D3
D.synthesis of the bile acids
E. conversion to urea

D
 42.Which is an intermediate on the
pathway for synthesis of ketone bodies
and cholesterol?

A.malonyl-CoA
B.acetoacetyl-CoA
C.HMG-CoA
D.acetyl-CoA
E.acetoacetate
C
 43.In the liver,( ) is the rate–limiting
enzyme on the pathway for synthesis of
cholesterol.

A.HMGCoA reductase
B.HMGCoA synthase
C.HSL
D.LCAT
E.ACAT
A
 44.The major place for cholesterol
biosynthesis is:

A.brain
B.liver
C.mature red blood cell
D.kidney
E.heart

B
 46.The sub-cell site of cholesterol
synthesis is:

A.mitochondria + lysosome
B. mitochondria + Golgi body
C. cytosol+ endoplasmic reticulum
D. lysosome + endoplasmic reticulum
E. cytosol+ Golgi body

C
 48.The major function of HDL is:

A.to carry exogenous TG and CE from the
intestine to the tissues
B.to transport endogenous TG from the
intestine to the tissues
C.to transport endogenous cholesterol from
the liver to the tissues
D.to transport free fatty acid
E.reverse cholesterol transport E
 49.Which is the specific function of apoAⅠ ?

A.activates LPL
B.inhibits HL
C.activates LCAT
D.inhibits LCAT
E.activates ACAT

C
 50.Which is the primary carrier of
cholesterol in the blood of humans?

A.CM
B.HDL
C.VLDL
D.LDL
E.IDL

D
 51.Which lipoprotein contains apoB48
mostly?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
D
 52.Which is the major form that transports
endogenous TAGs from the liver to the
tissues?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
C
 53.Which is the major form that
participates in the reverse cholesterol
transport?

A.IDL
B.HDL
C.LDL
D.VLDL
E.CM
B
 54.ApoC Ⅰ activates:

A.LPL
B.LCAT
C.ACAT
D.HL
E.HSL

A
 55.Based on density and size, plasma
lipoproteins can be classified into four
main groups,except:

A.CM
B.VLDL
C.LDL
D.HDL
E.albumin
E
 56.The enzyme which esterifies
cholesterol in cytosol is:

A.lipoprotein lipase
B.LCAT
C.ACAT
D. acyltransferase
E.hepatic lipase
C
 57.The enzyme which esterifies
cholesterol in blood plasma is:

A.phosphatidase
B.LCAT
C.ACAT
D.carnitine acyltransferase
E.lipoprotein lipase

B
 58.Which of followings is the carrier of free
fatty acids in blood?

A.lipoprotein
B.glycoprotein
C.albumin
D.globulin
E.apolipoprotein
C
 59.Which of following runs fast in
electrophoresis?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
A
 61.Which is the major form that transports
exogenous TAGs to the circulation?

A.HDL
B.LDL
C.VLDL
D.CM
E.IDL
D
 62.Acetyl-CoA carboxylase catalyzes the
first committed step in the biosynthesis of
fatty acids. which of the following are
stimulators of the enzyme?

A.citrate
B.AMP
C.palmitoyl-CoA
D. isocitrate
E.malonyl-CoA AD
 64.The sub-cell of stearic acid synthesis
includes:

A.mitochondria
B.peroxisome
C.cytosol
D.endoplasmic reticulum
E.nucleus
ACD
 65.Which of followings is correct about
acetyl-CoA carboxylase?

A.is a regulatory allosteric enzyme
B.is the key enzyme in lipogenesis
C.contains a biotin as prosthetic group
D.By phosphorylation make it inactive
E.is regulated by
phosphorylation/dephosphorylation
ABCDE
 66.The hormones stimulating lipolysis are
called lipolytic hormones,which includ:

A.glucagons
B.insulin
C.epinephrine
D.ACTH
E.prostaglandin E2

ACD
 69.Utilization of ketone bodies in:

A.heart
B.brain
C.kidney
D.liver
E.skeletal muscle

ABCE
 70.Ketone bodies are water-soluble fuels
normally exported by the liver including:

A.acetone
B.pyruvate
C.β-hydroxybutyrate
D.acetoacetyl-CoA
E. acetoacetate

ACE
 72.Which is essential fatty acid?

A.oleic acid
B.linolenic acid
C. linoleic acid
D.arachidonic acid
E. palmitic acid

BCD
 73.Which of followings are the basic
structure of glycerophospholipid?

A.sphingosine
B.fatty acids
C. nitrogenous base
D.glycerol
E. ceramide

BCD
 74.Which of followings employ CDP-
diacylglycerol pathway to synthesis
themselves?

A.phosphatidylinositol
B.phosphatidyl ethanolamine
C.phosphatidylserine
D.cardiolipin
E.phosphatidyl choline
ACD
 75.Which of followings are synthesized by
diacylglycerol pathway?

A.phosphatidylinositol
B.phosphatidyl ethanolamine
C. phosphatidylserine
D.cardiolipin
E.phosphatidyl choline

BE
 78.The raw materials in cholesterol
biosynthesis are:

A.acetyl-CoA
B.NADPH
C.ATP
D.CO2
E.O2

ABC
 80.Which of followings use acetyl-CoA as
raw materials?

A.cholesterol
B.fatty acid
C. pyruvate
D. ketone bodies
E.glucose

ABD
 82.The basic components of lipoprotein
includes:

A.cholesterol ester
B.albumin
C. phospholipid
D.apolipoprotein
E.triacylglycerol

ACDE
 85.The plasma lipoproteins which mainly
transport triacylglycerols are:

A.CM
B.LDL
C.VLDL
D.HDL
E.IDL
AC
 1.Where does de novo synthesis of
purine nucleotide mainly take place?

A. thoracic gland
B. small intestine
C. liver
D. spleen
E. marrow
C
 2.Which of the following is first
synthesized in the process of de novo
synthesis of purine nucleotide?
A.GMP
B. AMP
C. IMP
D. ATP
E. GTP
C
 3.Which of the following is the end production
of purine nucleotide catabolic metabolism?

A. urea
B. creatine
C. creatinine
D. uric acid
E. β-alanine
D
4.Which of the following is the methyl
group donor of TMP ?

A. N10-CHO-FH4
B. N5，N10=CH-FH4
C. N5，N10-CH2-FH4
D. N5-CH3-FH4
E. N5-CH=NH-FH4
C
5.Which of the following is the enzyme
that catalyze the synthesis of uric acid ?
A. urate oxidase
B. xanthine oxidase
C. adenosine deaminase
D. Guanosine deaminase
E. nucleophosphatase
B
 6.Which of the following substance
directly link nucleotide synthesis and
glucose metabolism?
A.glucose
B. glucose-6-phosphate
C. glucose-1-phosphate
D. glucose-1,6-diphosphate
E. ribose-5-phosphate
E
 7.Which of the following reaction need
HGPRT(hypoxanthine guanine
phosphoribosyltransferase) ?

A.de nove synthesis of purine nucleotide
B.de nove synthesis of pyrimidine nucleotide
C.salvage synthesis of purine nucleotide
D.salvage synthesis of pyrimidine nucleotide
E.catabolism of pyrimidine nucleotide

C
 8.Which of the following is not the direct material
of de novo synthesis of purine nucleotide ?

A. glycine
B. aspartate
C. glutamate
D. CO2
E. one carbon unit
C
 9.Which of the following is directly reduced,
and produce dNDP?

A.ribose
B. ribonucleoside
C.NM
D. NDP
E. NTP
D
 10.Which of the following does not directly
inhibit the synthesis of purine nucleotide ?

A. TMP
B. IMP
C. AMP
D. GMP
E. ADP
A
 11.Which of the following is the analogue of
azaserine ?

A.serine
B. glycine
C. aspartate
D. glutamine
E. asparagine
D
 12.Which of the following is the common
material of IMP and UMP?

A. asparagine
B. ribose phosphate
C. glycine
D. methionine
E. one carbon unit

B
 13.Which of the following is the direct
precursor of dTMP ?

A.dUMP
B. TMP
C. TDP
D. dUDP
E. dCMP
A
 15.Which of the following provide only one C
atom for purine synthesis?

A.CO2
B. glutamine
C. glycine
D. aspartate
E. foric acid
A
 16.Which of the following atom of pyrimidine
ring is provided by CO2?

A.C1
B. C6
C. C5
D. C4
E. C2
E
 17.Which of the following provide two N
atoms for pyrimidine ring?

A.glutamine and ammonia
B. glutamine and glutamate
C.glutamine and carbomoyl phosphate
D. aspartate and carbomoyl phosphate
E. aspartate and glutamate

D
 18.Which of the following provide CH3 for
dTMP?

A. SAM
B. N5-CHO- FH4
C. N5-CH3-FH4
D. N5，N10-CH2-FH4
E. N5，N10-CH2=FH4
D
 19.Which of the following is the common
material for the synthesis of pyrimidine and
purine nucleotide?

A.fumarate
B. glutamine
C. folic acid
D. asparagine
E. glycine
B
 20.Which of the following amino acid totally
participate in the synthesis of purine nucleotide?

A.glycine
B. aspartate
C. glutamate
D. glutamine
E. asparagine

A
 21.Which of the following are materials for de
novo synthesis of purine nucleotide?

A.ribose phosphate
B. CO2
C. one carbon unit
D. glutamine and aspartate
E. glycine