Download 1. Which of the following are connected by hydrogen bonds? A

1.
Which of the following are connected by hydrogen bonds?
A.
Hydrogen to oxygen within a molecule of water
B.
Phosphate to sugar in a DNA molecule
C.
Base to sugar in a DNA molecule
D.
Hydrogen to oxygen between two different molecules of water
(Total 1 mark)
2.
The graph below shows the effect of substrate concentration on enzyme activity. What conclusion
can be drawn about section X of the graph?
A.
The enzyme has started to denature and the reaction slows down.
B.
The reaction has finished and the substrate has been used up.
C.
The enzyme is saturated and is working at its maximum reaction rate.
D.
Some of the enzyme has been consumed and the reaction has reached a plateau.
(Total 1 mark)
IB Questionbank Biology
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3.
Which type of molecule is shown in the diagram below?
A.
Peptide
B.
Carbohydrate
C.
Lipid
D.
Nucleic acid
(Total 1 mark)
4.
The percentage of thymine in the DNA of an organism is approximately 30%. What is the
percentage of guanine?
A.
70%
B.
30%
C.
40%
D.
20%
(Total 1 mark)
IB Questionbank Biology
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5.
What is denaturation?
A.
A structural change of a protein that results in the loss of its biological properties
B.
A change in the genetic code of an organism
C.
A change in the amino acid sequence of a protein causing a disruption of its 3D shape
D.
The process by which amino acids are broken down and ammonia is released
(Total 1 mark)
6.
How do cells capture the energy released by cell respiration?
A.
They store it in molecules of carbon dioxide.
B.
They produce glucose.
C.
The energy is released as pyruvate.
D.
They produce ATP.
(Total 1 mark)
7.
What is the source of the oxygen released into the air as a product of photosynthesis?
A.
Chlorophyll
B.
Carbon dioxide only
C.
Water only
D.
Both water and carbon dioxide
(Total 1 mark)
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8.
What property of water makes it a good evaporative coolant?
A.
High latent heat of evaporation
B.
Relatively low boiling point
C.
Volatility
D.
Transparency
(Total 1 mark)
9.
A number of different proteins are involved in nerve function. Which of the following does not
require a membrane protein?
A.
Active transport of sodium
B.
Diffusion of K+ into the cell
C.
Diffusion of the neurotransmitter across the synapse
D.
Binding of the neurotransmitter to the post-synaptic membrane
(Total 1 mark)
10.
What is the difference between galactose and lactose?
A.
Lactose is a disaccharide and galactose is a monosaccharide.
B.
Lactose is the product of anaerobic respiration in humans and galactose is the product of
anaerobic respiration in yeast.
C.
Lactose is an enzyme and galactose is a hormone.
D.
Galactose is a sugar found in milk but lactose is not found in milk.
(Total 1 mark)
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11.
Which process produces the most ATP per molecule of glucose?
A.
Anaerobic respiration in a yeast cell
B.
Aerobic respiration in a bacterial cell
C.
Glycolysis in a human liver cell
D.
The formation of lactic acid in a human muscle cell
(Total 1 mark)
12.
Which type of light is least useful for photosynthesis in terrestrial plants?
A.
Blue
B.
Green
C.
White
D.
Red
(Total 1 mark)
13.
How many molecules of water are required to completely hydrolyse a polypeptide made up of 23
amino acids?
A.
11
B.
22
C.
23
D.
44
(Total 1 mark)
IB Questionbank Biology
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14.
Which of the following is part of the process of cellular respiration?
A.
Changes in the volume of the thoracic cavity
B.
Exchange of gases across the surface of the alveoli
C.
Exchange of gases across the surface of capillaries
D.
Glycolysis
(Total 1 mark)
15.
Which variable has the least effect on enzyme activity?
A.
Temperature
B.
Light intensity
C.
pH
D.
Substrate concentration
(Total 1 mark)
IB Questionbank Biology
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16.
PanI is a gene in cod fish that codes for an integral membrane protein called pantophysin.
Two alleles of the gene, PanIA and PanIB, code for versions of pantophysin, that differ by four
amino acids in one region of the protein. Samples of cod fish were collected from 23 locations in
the north Atlantic and were tested to find the proportions of PanIA and PanIB alleles in each
population. The results are shown in pie charts, numbered 1–23, on the map below. The
proportions of alleles in a population are called the allele frequencies. The frequency of an allele
can vary from 0.0 to 1.0. The light grey sectors of the pie charts show the allele frequency of
PanIA and the black sectors show the allele frequency of PanIB.
[RAJ Case et al. 2005. “Macro- and micro-geographic variation in pantophysin (PanI) allele frequencies in NE
Atlantic cod Gadus morhua.” MEPS. Vol 301. Pp 267–278. Figs 1 and 3.]
(a)
(i)
State the two populations with the highest PanIB allele frequencies.
...........................................................................................................................
(1)
(ii)
State the population in which the allele frequencies were closest to 0.5.
...........................................................................................................................
(1)
IB Questionbank Biology
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(b)
Deduce the allele frequencies of a population in which half of the cod fish had the genotype
PanIA PanIA, and half had the genotype PanIA PanIB.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(1)
The graphs below show the latitude and the mean surface sea temperature in June of the sampling
locations and the frequency of the PanIA allele.
[RAJ Case et al. 2005. “Macro- and micro-geographic variation in pantophysin (PanI) allele frequencies in NE
Atlantic cod Gadus morhua.” MEPS. Vol 301. Pp 267–278. Figs 1 and 3.]
(c)
State the relationship between
(i)
latitude and the frequency of the PanIA allele.
...........................................................................................................................
...........................................................................................................................
(1)
(ii)
mean surface sea temperature in June and the frequency of the PanIA allele.
...........................................................................................................................
...........................................................................................................................
(1)
(d)
Suggest how natural selection could have caused the relationships shown in the graphs.
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......................................................................................................................................
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......................................................................................................................................
......................................................................................................................................
(2)
(e)
The sites close to Iceland, at a latitude of 60–65°, had very varied allele frequencies, with
both PanIA and PanIB occurring. The water at these sample sites was highly stratified, with
much warmer water at the surface and much colder water below. Suggest reasons for both
PanIA and PanIB alleles occurring at these sites.
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(2)
(f)
Using the data in this question, predict the effects of global warming on cod fish
populations.
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(2)
(Total 11 marks)
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17.
(a)
State the missing source, optimum pH requirement, substrate and product of the human
enzymes in the table below.
Enzyme
Source
Optimum pH
Amylase
Salivary gland
7
Lipase
Substrate
Products
Lipids
Fatty acids and glycerol
(2)
(b)
Explain the need for enzymes in digestion.
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(2)
(c)
Draw a labelled diagram to show the interconnections between the gall bladder, pancreas
and small intestine.
(3)
(Total 7 marks)
IB Questionbank Biology
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18.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Living organisms at every trophic level are part of the carbon cycle. Draw a labelled
diagram of the carbon cycle to show the processes involved.
(9)
(b)
Explain, using an example of a food chain, how trophic levels can be deduced.
(4)
(c)
Explain methods that can be used to measure the rate of photosynthesis.
(5)
(Total 20 marks)
19.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Escherichia coli is a unicellular organism, so each cell must carry out all of the processes
required for life. Outline the functions of each of the structures in the cells of Escherichia
coli.
(9)
(b)
Compare the use of carbohydrates and lipids in energy storage.
(4)
(c)
Compare how pyruvate is used in human cells when oxygen is available and when oxygen
is not available.
(5)
(Total 20 marks)
IB Questionbank Biology
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20.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Outline condensation and hydrolysis reactions using a different example for each.
(5)
(b)
Outline the effect of temperature and substrate concentration on the activity of enzymes.
(4)
(c)
Explain methods by which the rate of photosynthesis can be measured, including
conditions that affect the rate.
(9)
(Total 20 marks)
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21.
The rate of photosynthesis in the marine seagrass, Zostera marina, was investigated under a range
of pH conditions. After a period of darkness, the plants were illuminated at a constant light
intensity at 15°C and the rate of photosynthesis was measured. Zostera marina can use both
dissolved carbon dioxide (CO2) and hydrogen carbonate ions for photosynthesis. The rate of
photosynthesis is plotted on the y-axis on the left. In addition, the concentration of carbon dioxide
was measured for each pH investigated and is plotted on the y-axis on the right.
[Source: Plant physiology by AMERICAN SOCIETY OF PLANT PHYSIOLOGISTS. Copyright 2008 Reproduced
with permission of AMERICAN SOCIETY OF PLANT BIOLOGISTS in the format CD ROM via Copyright
Clearance Center.]
(a)
State the carbon dioxide concentration at pH 7.2.
......................................................................................................................................
......................................................................................................................................
(1)
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(b)
Calculate the percentage decrease in the rate of photosynthesis from pH 7 to pH 7.5.
......................................................................................................................................
......................................................................................................................................
(1)
(c)
Outline the relationship between pH and the rate of photosynthesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(d)
Suggest how Zostera marina can perform photosynthesis even at very low carbon dioxide
concentrations.
......................................................................................................................................
......................................................................................................................................
(1)
(e)
Based on the information and data provided, discuss the role of one limiting factor, other
than carbon dioxide, and suggest how this would affect the rate of photosynthesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 7 marks)
22.
(a)
State one example of a fibrous protein and one example of a globular protein.
Fibrous protein: ...........................................................................................................
Globular protein: .........................................................................................................
(1)
(b)
Compare the structure of fibrous and globular proteins.
......................................................................................................................................
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......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Amino acid polarity is an important factor in determining the functions of proteins.
Explain the importance of polar and non-polar amino acids in membrane proteins.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
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......................................................................................................................................
(3)
(Total 6 marks)
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23.
(a)
Draw a labelled diagram of a mitochondrion.
(3)
(b)
Explain how the structure of a mitochondrion is adapted for its function.
......................................................................................................................................
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......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
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(2)
(Total 5 marks)
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24.
The effect of temperature on photosynthesis was studied in sweet orange (Citrus sinensis) using
leaf discs. The production of oxygen was used to measure the rate of photosynthesis.
Gross photosynthesis refers to the sum of net photosynthesis and respiration. Net photosynthesis
was calculated by subtracting the rate of respiration in the dark from gross photosynthesis.
[Source: Adapted from R Ribeiro et al. 2006. Ciência e Agrotecnologia. Vol 30. Pp 670–678.]
(a)
Identify the optimum temperature for photosynthesis in this plant.
......................................................................................................................................
(1)
(b)
Determine the difference between gross photosynthesis and net photosynthesis at 40°C and
50°C.
40°C: ..........................................................................................................................
50°C: ..........................................................................................................................
(2)
(c)
Deduce what happens to the rate of respiration as the temperature increases between 40°C
and 50°C.
......................................................................................................................................
(1)
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(d)
(i)
Describe the general pattern of change in photosynthesis in sweet orange as the
temperature increases.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(1)
(ii)
Compare the effect of temperature on photosynthesis with the effect of temperature
on respiration in sweet orange.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(Total 7 marks)
25.
(a)
Distinguish between fibrous proteins and globular proteins giving one example of each.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
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(b)
Outline the differences between competitive and non-competitive inhibitors.
......................................................................................................................................
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(4)
(Total 7 marks)
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26.
Explain the link reaction that occurs between glycolysis and the Krebs cycle.
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(Total 4 marks)
27.
Which statement about water is correct?
A.
The atoms within a molecule of water are held together by hydrogen bonds.
B.
Water has a low heat capacity allowing enzymatic reactions to happen at a wide range of
temperatures.
C.
Water molecules are polar, therefore fatty acids do not dissolve.
D.
Ice has a higher density than liquid water, therefore some organisms can live under the ice.
(Total 1 mark)
IB Questionbank Biology
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28.
What does a nucleosome consist of ?
A.
DNA and histones
B.
DNA and chromatin
C.
Chromatin and nucleotides
D.
Mature RNA and histones
(Total 1 mark)
29.
What are Okazaki fragments?
A.
Short lengths of RNA primase attached to the DNA during replication
B.
Short sections of DNA formed during DNA replication
C.
Nucleotides added by DNA polymerase I in the same direction as the replication fork
D.
Sections of RNA removed by DNA polymerase III and replaced with DNA
(Total 1 mark)
30.
The sequence of nucleotides in a section of RNA is:
GCCAUACGAUCG
What is the base sequence of the DNA sense strand?
A.
CGGUAUGCUAGC
B.
GCCATACGATCG
C.
CGGTATGCTAGC
D.
GCCAUACGAUCG
(Total 1 mark)
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31.
The electron micrograph below shows an organelle in a eukaryotic cell. What is the area labelled
X and what is the type of reaction occurring there?
[Source: http://scienceblogs.com/clock/2006/11/cell_structure.php]
X
Reaction
A.
matrix
photolysis
B.
stroma
Krebs cycle
C.
stroma
photolysis
D.
matrix
Krebs cycle
(Total 1 mark)
32.
Where is chlorophyll found in a plant cell?
A.
Thylakoid membranes
B.
Stroma
C.
Matrix
D.
Cristae
(Total 1 mark)
IB Questionbank Biology
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33.
What is produced by the light-dependent reactions of photosynthesis and used in the Calvin
cycle?
A.
Hydrogen and oxygen
B.
ATP and NADPH
C.
NADPH and oxygen
D.
ATP and CO2
(Total 1 mark)
34.
Which base is connected to its complementary base in a base pair by three hydrogen bonds?
A.
Uracil
B.
Thymine
C.
Guanine
D.
Adenine
(Total 1 mark)
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35.
This question refers to the following micrograph of a liver cell.
In which organelle does the production of ATP, due to chemiosmosis, occur?
A.
A
B.
B
C.
C
D.
D
(Total 1 mark)
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36.
Which molecule is found in both DNA and RNA?
A.
Ribose
B.
Uracil
C.
Phosphate
D.
Amino acid
(Total 1 mark)
37.
The photosynthetic activity of desert plants is often reduced in the middle of the day. What is the
most reasonable explanation for this fact?
A.
Enzymes are denatured by the high temperatures.
B.
There is not sufficient water for photosystem I.
C.
Most of the light is reflected by the thick cuticle.
D.
The stomata close to preserve water and gas exchange decreases.
(Total 1 mark)
38.
Which of the following is true of the link reaction of aerobic respiration?
A.
The reduction of FAD+ occurs.
B.
The decarboxylation of pyruvate occurs.
C.
It occurs in the cytoplasm.
D.
The regeneration of NAD+ occurs.
(Total 1 mark)
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39.
Where does the RNA polymerase bind during the process of transcription?
A.
The polysome
B.
The operator
C.
The promoter
D.
The initiator
(Total 1 mark)
40.
What is a difference between cohesion and adhesion?
A.
Only adhesion is involved in transpiration pull.
B.
Only cohesion is involved in the movement of water in soil.
C.
Only cohesion involves the interaction of water with soil mineral particles.
D.
Only adhesion involves the interaction of water with xylem.
(Total 1 mark)
41.
The diagram below shows one DNA nucleotide and part of a second nucleotide.
(a)
State the names of structures I and II.
I. ..................................................................................................................................
II. .................................................................................................................................
(1)
(b)
On the diagram above, draw the structures that are missing from the second nucleotide.
(1)
(c)
The two nucleotides would be permanently separated during DNA replication. State one
process during which they would be temporarily separated.
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......................................................................................................................................
(1)
(d)
Outline the method that can be used to amplify small quantities of DNA to obtain large
enough quantities for DNA profiling.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 5 marks)
42.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Membrane proteins vary in their positions within the membrane and in their functions.
Outline the positions and functions of proteins in membranes.
(8)
(b)
Explain how polar and non-polar amino acids help channel proteins and enzymes carry out
their functions.
(5)
(c)
Compare competitive and non-competitive inhibition of enzymes.
(5)
(Total 20 marks)
43.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
All organisms in an ecosystem are involved in the carbon cycle. Outline the roles of living
organisms in the carbon cycle.
(8)
(b)
Explain how triose phosphate is produced and used in the chloroplasts of a plant.
(5)
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(c)
Explain the conditions that are needed to allow a seed to germinate.
(5)
(Total 20 marks)
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44.
Investigators carried out experiments to find the relationship between the energy used by mice
(the metabolic rate) and their activity. They found that the amount of time mice are active depends
on the time of day, whether they are single or in groups and on the temperature of their
surroundings. The bar chart below shows the percentage of time mice were active during
three-hour periods at three different temperatures.
[Source: L E Mount and J V Willmott. 1967. Journal of Physiology. Vol 190. Pp 371–380. Published by
Wiley-Blackwell. Used with permission]
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(a)
Calculate how many minutes the group mice are active between 21:00 and 00:00 at 8 °C.
......................................................................................................................................
(1)
(b)
Outline the relationship between activity and temperature from 21:00 to 03:00 in all of the
mice.
......................................................................................................................................
......................................................................................................................................
(1)
(c)
Animals which are active at night are nocturnal. Suggest one advantage for mice being
nocturnal.
......................................................................................................................................
......................................................................................................................................
(1)
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The investigators also found that the metabolic rate of the mice changed at different times of the
day. Mice were kept at one of the three constant temperatures for 24 hours and their oxygen
consumption was measured. The graph below shows the results for single mice and the mean
values for group mice.
[Source: L E Mount and J V Willmott. 1967. Journal of Physiology. Vol 190. Pp 371–380. Published by
Wiley-Blackwell. Used with permission]
(d)
State the relationship between temperature and metabolic rate.
......................................................................................................................................
(1)
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(e)
Compare the results for the single mice at 15 °C with those for the group mice at 15 °C.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(f)
Suggest one reason why the results differ for single mice and group mice.
......................................................................................................................................
......................................................................................................................................
(1)
(g)
Explain why oxygen consumption is used as a measure of metabolic rate.
......................................................................................................................................
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......................................................................................................................................
......................................................................................................................................
(2)
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(h)
Using the data from both graphs, evaluate the hypothesis that increased activity causes an
increase in metabolic rate in mice.
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(2)
(Total 11 marks)
45.
The diagram below shows two nucleotides linked together to form a dinucleotide.
(a)
(i)
Identify the chemical group labelled I.
...........................................................................................................................
(1)
(ii)
State the type of bond labelled II.
...........................................................................................................................
(1)
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(b)
Distinguish between the sense and antisense strands of DNA during transcription.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(1)
(c)
Compare the DNA found in prokaryotic cells and eukaryotic cells.
......................................................................................................................................
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......................................................................................................................................
(2)
(Total 5 marks)
46.
Which substance in prokaryotes contains sulfur?
A.
DNA
B.
Phospholipids
C.
Proteins
D.
Antibiotics
(Total 1 mark)
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47.
Which describes these molecules correctly?
I
II
A.
ribose
amino acid
B.
glucose
amino acid
C.
ribose
fatty acid
D.
glucose
fatty acid
(Total 1 mark)
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48.
What sequence of processes is carried out by the structure labelled X during translation?
A.
Combining with an amino acid and then binding to an anticodon
B.
Binding to an anticodon and then combining with an amino acid
C.
Binding to a codon and then combining with an amino acid
D.
Combining with an amino acid and then binding to a codon
(Total 1 mark)
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49.
The diagram below shows a biochemical pathway in a yeast cell. Which of the following correctly
identifies a compound in the diagram?
A.
I is fat.
B.
II is pyruvate.
C.
III is lactate.
D.
IV is carbon dioxide.
(Total 1 mark)
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50.
The following diagram shows a short stretch of DNA. What bases are indicated by labels Y and
Z?
Y
Z
A.
thymine
adenine
B.
thymine
guanine
C.
uracil
guanine
D.
uracil
adenine
(Total 1 mark)
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51.
A plant is exposed to increasing light intensity from very dim to bright light, while the carbon
dioxide concentration and temperature are kept at an optimum level. What will happen to the rate
of oxygen production?
A.
It will increase exponentially.
B.
It will remain constant.
C.
It will decrease to a minimum level.
D.
It will increase to a maximum level.
(Total 1 mark)
52.
In some people, hemoglobin always contains the amino acid valine in place of a glutamic acid at
one position in the protein. What is the cause of this?
A.
An error in transcription of the hemoglobin gene
B.
An error in translation of the mRNA
C.
Lack of glutamic acid in the diet
D.
A base substitution in the hemoglobin gene
(Total 1 mark)
53.
What is a role of sulfur in living organisms?
A.
Formation of proteins
B.
Formation of carbohydrates
C.
Formation of teeth
D.
Transmission of nerve impulses
(Total 1 mark)
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54.
Which molecules form the nucleotide marked in the diagram?
A.
phosphate, deoxyribose and nitrogenous base
B.
phosphorus, ribose and nitrogenous base
C.
phosphorus, deoxyribose and guanosine
D.
phosphate, ribose and guanine
(Total 1 mark)
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55.
Which enzyme catalyzes the elongation of the leading strand?
[Source: image from W K Purves, et al., (2003) Life: The Science of Biology, 4, Sinauer Associates (www.sinauer.com)
and W H Freeman (www.whfreeman.com)]
A.
RNA polymerase
B.
Helicase
C.
DNA polymerase
D.
Ligase
(Total 1 mark)
56.
Which of the following is a function of cellulose in plants?
A.
Storage of fat
B.
Formation of mitochondria
C.
Storage of energy
D.
Formation of cell walls
(Total 1 mark)
57.
Which of the following is the best definition of cell respiration?
A.
A process needed to use energy, in the form of ATP, to produce organic compounds
B.
A process used to provide oxygen to the atmosphere
C.
A controlled release of energy, in the form of ATP, from organic compounds in cells
D.
A controlled release of energy in the production of food from organic compounds
(Total 1 mark)
58.
The graph below shows the effect of temperature on the separation of the strands in DNA to form
single strands. The temperature at which 50% of the DNA is single-stranded is called the melting
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temperature (TM).
What do the results show?
A.
When the temperature reaches 85°C there are no more double-stranded DNA molecules.
B.
When the temperature reaches 85°C the DNA strands start separating rapidly.
C.
A TM of 85°C means that DNA is not stable at room temperature (25°C).
D.
The separation of the DNA strands is directly proportional to the increase in temperature.
(Total 1 mark)
59.
(a)
Glucose and galactose are examples of monosaccharides. State one other example of a
monosaccharide.
......................................................................................................................................
(1)
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42
(b)
The equation below shows the production of glucose and galactose from lactose.
(i)
There are several different types of carbohydrate. State which type of carbohydrate
lactose is.
...........................................................................................................................
(1)
(ii)
State the type of chemical reaction that occurs when lactose is digested into glucose
and galactose.
...........................................................................................................................
(1)
(c)
Lactase is widely used in food processing. Explain three reasons for converting lactose to
glucose and galactose during food processing.
1. ..................................................................................................................................
......................................................................................................................................
2. ..................................................................................................................................
......................................................................................................................................
3. ..................................................................................................................................
......................................................................................................................................
(3)
IB Questionbank Biology
43
(d)
Simple laboratory experiments show that when the enzyme lactase is mixed with lactose,
the initial rate of reaction is highest at 48°C. In food processing, lactase is used at a much
lower temperature, often at 5°C. Suggest reasons for using lactase at relatively low
temperatures.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 8 marks)
60.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Explain why DNA must be replicated before mitosis and the role of helicase in DNA
replication.
(4)
(b)
Explain how the base sequence of DNA is conserved during replication.
(5)
(c)
Describe the events that occur during mitosis.
(9)
(Total 20 marks)
61.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Plants are a diverse group of eukaryotic organisms. Describe the different characteristics of
the bryophyta, filicinophyta, coniferophyta and angiospermophyta.
(9)
(b)
Plants store carbohydrate in the form of starch. Explain the reasons for starch being
digested by the human digestive system.
(4)
(c)
Compare the structure of prokaryotic and eukaryotic cells.
(5)
(Total 20 marks)
62.
Male Lepidoptera (butterflies and moths) commonly drink from pools of water or from moist soil.
This behaviour, called puddling, was investigated in an undisturbed area where male tiger
swallowtails, Papilio glaucus, had been seen puddling.
IB Questionbank Biology
44
Four successive sets of experiments were performed under similar conditions of temperature and
humidity. In each set, equal samples of sand were spread out evenly on trays and then treated
differently. Except for one dry sample (in the first set), all others were saturated with a different
liquid. Results of the observations are given in the table below.
[Source: adapted from K Arms et al., “Sodium: Stimulus for Puddling Behaviour by Tiger Swallowtail Butterflies,
Papilio glaucus” (1974) Science, 185: 5 (5 July–27 Sept) #4148, pp. 372–374. Reprinted with permission from AAAS]
(a)
Identify the dissolved element always present in the three samples with most puddling
time.
......................................................................................................................................
(1)
IB Questionbank Biology
45
(b)
Discuss the relationship between sampling visits (V) and puddling time (T) in experiments
1, 2 and 3.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Analyse the results for experiment 4.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
46
Study of the male moth Gluphisia septentrionis revealed that their puddling behaviour can last for
hours. Though drinking results in the uptake of hundreds of gut-loads of fluid, this fluid becomes
rapidly expelled from the digestive system through frequent anal ejections. In this experiment, the
ion concentration change was calculated by subtracting ions ejected from ions taken in. The
following data was collected from males drinking laboratory solutions and from natural puddles.
[Source: adapted from SR Smedley and T Eisner “Sodium Uptake by Puddling in a Moth” (1995) Science, 270 (15 Dec)
#5243, pp. 1816–1818. Reprinted with permission from AAAS]
(d)
(i)
Identify which ion the moths are retaining in their body from the laboratory
solutions.
...........................................................................................................................
(1)
IB Questionbank Biology
47
(ii)
Compare the gain and loss of ions in the male moths which have drunk from
laboratory solutions with the changes in those that have drunk from natural puddles.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(3)
The diagram below shows the digestive system anatomy of the male and female moth.
[Source: adapted from SR Smedley and T Eisner “Sodium Uptake by Puddling in a Moth” (1995) Science, 270 (15 Dec)
#5243, pp. 1816–1818. Reprinted with permission from AAAS]
IB Questionbank Biology
48
(e)
Using the diagram above, evaluate the hypothesis that male moths are better adapted than
female moths to benefit from puddling behaviour.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(f)
Suggest one reason for puddling behaviour in male Lepidoptera.
......................................................................................................................................
......................................................................................................................................
(1)
(Total 12 marks)
63.
(a)
Outline the bonding between DNA nucleotides.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(b)
Explain how chemical bonding between water molecules makes water a valuable coolant in
living organisms.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
49
(c)
Describe the movement of water across membranes.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(d)
State the role of water in photosynthesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 8 marks)
64.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Outline the role of hydrolysis in the relationships between monosaccharides, disaccharides
and polysaccharides.
(4)
(b)
Describe the use of biotechnology in the production of lactose-free milk.
(6)
(c)
Explain the importance of enzymes to human digestion.
(8)
(Total 20 marks)
IB Questionbank Biology
50
65.
Global atmospheric carbon dioxide levels are rising. A study was carried out to test if the
temperature dependence of photosynthesis was altered by elevated atmospheric CO2.
Maize plants were grown in natural sunlight in controlled environmental chambers at different
temperatures using current atmospheric and doubled CO2 levels.
The graph below shows daily patterns of CO2 exchange at three different temperatures.
Open shapes (○, Δ, □) represent current atmospheric CO2 levels and closed shapes (●, ▲, ■)
represent elevated CO2 levels.
[Reprinted from: Kim, S H et al. 2007. “Temperature dependence of growth, development, and photosynthesis in maize
under elevated CO2”. Environmental and Experimental Botany. Vol 61. Pp 224–236.]
(a)
(i)
State the time at which carbon dioxide exchange rate is maximal.
...........................................................................................................................
(1)
(ii)
Explain the reasons for maximum carbon dioxide exchange rate at this time.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(b)
State the temperature that resulted in the highest rate of photosynthesis under current
atmospheric conditions.
IB Questionbank Biology
51
......................................................................................................................................
(1)
(c)
Using the data in the graph, discuss whether rising carbon dioxide levels in the atmosphere
will increase growth rates in maize.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 6 marks)
66.
(a)
State two functions of proteins, giving a named example of each.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(b)
Explain the significance of polar and non-polar amino acids.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 5 marks)
67.
The diagram below shows part of the respiratory pathway. The number of carbon atoms in each
molecule is indicated.
IB Questionbank Biology
52
(a)
(i)
Label pyruvate and acetyl coenzyme A on the diagram above.
(1)
(ii)
Indicate two places where decarboxylation occurs on the diagram.
(1)
(iii)
List one product other than carbon dioxide formed in this stage of respiration.
...........................................................................................................................
(1)
(b)
State precisely where in a cell this stage of respiration is occurring.
......................................................................................................................................
(1)
(Total 4 marks)
IB Questionbank Biology
53
68.
Explain the control of metabolic pathways.
................................................................................................................................................
................................................................................................................................................
................................................................................................................................................
................................................................................................................................................
................................................................................................................................................
................................................................................................................................................
................................................................................................................................................
(Total 3 marks)
69.
Primary production is directly related to the amount of photosynthesis that occurs in a cubic metre
of water. In the waters around Bermuda (32° N) in the Atlantic Ocean, microscopic
phytoplankton are the producers. They use trace nutrients from seawater in their metabolism.
These nutrients are a limiting factor in total population size. A dense phytoplankton population
makes the water cloudy. The data shows primary production per day for each month for the year
2000 at different water depths.
[Source: DataStreme Ocean, American Meteorological Society (2004). Reprinted with permission.]
IB Questionbank Biology
54
(a)
State the month when total photosynthesis was greatest.
......................................................................................................................................
(1)
(b)
Identify, with a reason, the water depth that receives no light.
......................................................................................................................................
......................................................................................................................................
(1)
(c)
In the upper 40 m there is a drop in photosynthesis from March to June. This is probably
due to lack of nutrients, reducing the population density.
Suggest, with a reason other than nutrient levels, what might have increased photosynthesis
at 100 m from April to August.
......................................................................................................................................
......................................................................................................................................
(1)
(d)
Compare production in March with production in September.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 6 marks)
IB Questionbank Biology
55
70.
(a)
Draw a labelled diagram showing the structure of a mitochondrion as seen in electron
micrographs.
(4)
(b)
Explain the relationship between the structure of the mitochondrion and its function.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 7 marks)
IB Questionbank Biology
56
71.
(a)
List three functions of proteins, giving a named example of each.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(b)
Explain the significance of polar amino acids and non-polar amino acids in membranes.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 5 marks)
72.
Which substance in prokaryotes contains sulfur?
A.
DNA
B.
Phospholipids
C.
Proteins
D.
Antibiotics
(Total 1 mark)
IB Questionbank Biology
57
73.
What is the reason for Okazaki fragments being formed during DNA replication?
A.
To enable replication of the 3′ → 5′ (lagging) strand
B.
To form the template for the RNA primers
C.
To initiate replication on the 5′ → 3′ (leading) strand
D.
To help the DNA helicase unwinding the DNA helix
(Total 1 mark)
74.
Which is correct for the non-competitive inhibition of enzymes?
Inhibitor resembles
substrate
Inhibitor binds to
active site
A.
yes
yes
B.
yes
no
C.
no
yes
D.
no
no
(Total 1 mark)
75.
What is removed during the formation of mature RNA in eukaryotes?
A.
Exons
B.
Introns
C.
Codons
D.
Nucleosomes
(Total 1 mark)
IB Questionbank Biology
58
76.
During glycolysis a hexose sugar is broken down to two pyruvate molecules. What is the correct
sequence of stages?
A.
Phosphorylation → oxidation → lysis
B.
Oxidation → phosphorylation → lysis
C.
Phosphorylation → lysis → oxidation
D.
Lysis → oxidation → phosphorylation
(Total 1 mark)
77.
Where are the light-dependent and light-independent reactions taking place in the diagram
below?
Light-dependent
Light-independent
A.
I
IV
B.
II
III
C.
III
II
D.
IV
I
(Total 1 mark)
IB Questionbank Biology
59
78.
The table below shows the codons that determine different amino acids in protein translation.
Second base in codon
First base
in codon
U
C
A
G
Third base
in codon
U
Phe
Ser
Tyr
Cys
U
Phe
Ser
Tyr
Cys
C
Leu
Ser
—
—
A
Leu
Ser
—
Trp
G
Leu
Pro
His
Arg
U
Leu
Pro
His
Arg
C
Leu
Pro
Gln
Arg
A
Leu
Pro
Gln
Arg
G
Ile
Thr
Asn
Ser
U
Ile
Thr
Asn
Ser
C
Ile
Thr
Lys
Arg
A
Met
Thr
Lys
Arg
G
Val
Ala
Asp
Gly
U
Val
Ala
Asp
Gly
C
Val
Ala
Glu
Gly
A
Val
Ala
Glu
Gly
G
C
A
G
What is the sequence of the amino acids that is being translated from the following mRNA
sequence?
5´ AUGGGUGCUUAUUGGUAA 3´
A.
Met-Pro-Arg-Ile-Thr
B.
Met-Cys-Ser-Tyr-Trp
C.
Met-Gly-Ala-Tyr-Trp
D.
Met-Gly-Tyr-Ala-Thr
(Total 1 mark)
IB Questionbank Biology
60
79.
What does the universal nature of the genetic code allow?
A.
Change of genetic code in the same species
B.
Transfer of genes between species
C.
Formation of clones
D.
Infection by bacteria
(Total 1 mark)
80.
Which of the following forms the nucleosome?
A.
DNA and histone molecules
B.
DNA only
C.
RNA and histone molecules
D.
Histone molecules only
(Total 1 mark)
81.
What happens during the formation of Okazaki fragments?
A.
DNA polymerase III adds nucleotides in the 3´ → 5´ direction.
B.
DNA polymerase III adds nucleotides in the 5´ → 3´ direction.
C.
DNA polymerase I adds nucleotides in the 5´ → 3´ direction.
D.
RNA polymerase adds nucleotides in the 3´ → 5´ direction.
(Total 1 mark)
IB Questionbank Biology
61
82.
Why is oxaloacetate a competitive inhibitor?
[Source: image from W K Purves, et al., (2003), Life: The Science of Biology, 4, Sinauer Associates
(www.sinauer.com) and W H Freeman (www.whfreeman.com)]
A.
It causes a conformational change to the active site.
B.
It binds to the enzyme away from the active site.
C.
It is structurally similar to succinate.
D.
It is structurally similar to succinate dehydrogenase.
(Total 1 mark)
83.
What is the link reaction in aerobic respiration?
A.
Pyruvate is carboxylated, acetyl reacts with coenzyme A, reducing NADH + H+
B.
Pyruvate is decarboxylated, acetyl reacts with coenzyme A, forming NADH + H+
C.
Pyruvate reacts with coenzyme A, forming NADH + H+
D.
Pyruvate is decarboxylated, reacting with coenzyme A, reducing NADH + H+
(Total 1 mark)
IB Questionbank Biology
62
84.
What is chemiosmosis?
A.
Coupling of ATP synthesis to the electron transport and proton movement
B.
Phosphorylation of glucose in the mitochondrial matrix
C.
H+ ions moving down a concentration gradient into the mitochondrial matrix
D.
Activation of ATPase in order to synthesize ATP
(Total 1 mark)
85.
The diagram below shows the structure of a chloroplast.
What is the structure labelled X?
A.
Ribosome
B.
Stroma
C.
Inner membrane
D.
Thylakoid
(Total 1 mark)
IB Questionbank Biology
63
86.
During aerobic cell respiration, oxygen is consumed and carbon dioxide is produced inside cells.
This generates concentration gradients between respiring cells and the environment, which cause
diffusion of oxygen and carbon dioxide. Both oxygen and carbon dioxide are soluble in water. As
the temperature rises, water becomes saturated at a lower concentration of the gas.
Laternula elliptica is a mollusc that lives on the sea bed in Antarctica. Its body temperature is
always similar to that of the environment around it. To investigate the effect of temperature on
Laternula elliptica, specimens were kept in temperature-controlled aquaria. The oxygen
concentrations of water near the gills and in the body fluids were measured, at a range of
temperatures from 0°C to 9°C. The graph below shows the mean results.
[With kind permission from Springer Science+Business Media and the author.]
(a)
(i)
Outline the relationship between temperature and oxygen concentration in the body
fluids in Laternula elliptica.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
IB Questionbank Biology
64
(ii)
Suggest two reasons for the relationship.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(b)
In its natural environment, Laternula elliptica buries itself in the mud on the sea bed.
In this investigation, it was found that above 6°C it is unable to bury itself. Suggest a reason
for this.
......................................................................................................................................
......................................................................................................................................
(1)
IB Questionbank Biology
65
The world’s oceans can absorb large amounts of carbon dioxide. This process has been studied in
the Pacific Ocean near Hawaii, by measuring carbon dioxide concentrations in the atmosphere
and in surface water every month, from October 1988 onwards. The graph below shows the
carbon dioxide concentration expressed as partial pressures (Pco2).
[Source: Nature by Nature Publishing Group. Reproduced with permission of Nature Publishing Group in the format
Journal via Copyright Clearance Centre.]
(c)
(i)
Describe the trends in atmospheric carbon dioxide concentration, shown in the
graph.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
IB Questionbank Biology
66
(ii)
Suggest two reasons for the trends that you have described.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(d)
(i)
Diffusion of carbon dioxide only occurs when there is a concentration gradient.
Deduce the pattern of carbon dioxide diffusion, between water and atmosphere, from
1988 to 2002.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(ii)
The graph provides evidence for the hypothesis that there will be no net diffusion of
carbon dioxide between water and atmosphere by 2020. Explain this evidence.
...........................................................................................................................
...........................................................................................................................
(1)
IB Questionbank Biology
67
The concentration of carbon dioxide in the atmosphere is currently 385 ppm (parts per million).
Variations in the concentration of carbon dioxide in the atmosphere can be studied using
ice-cores. An ice-core record covering the last 400 000 years has been obtained from Vostok in
the Antarctic. The graph below shows the carbon dioxide concentrations that were measured at
different depths in the ice. Atmospheric temperatures are also shown on the graph. These were
deduced from ratios of oxygen isotopes. The upper line on the graph shows CO2 concentrations
and the lower line shows temperature.
[Source: Nature by Nature Publishing Group. Reproduced with permission of Nature Publishing Group in the format
Journal via Copyright Clearance Centre.]
(e)
(i)
State the highest carbon dioxide concentration shown on the graph.
...........................................................................................................................
(1)
(ii)
State the highest temperature shown on the graph.
...........................................................................................................................
(1)
(f)
Using the data in the graph, deduce the relationship between atmospheric carbon dioxide
concentration and temperature.
......................................................................................................................................
......................................................................................................................................
(1)
IB Questionbank Biology
68
(g)
Using the data in this question, explain reasons for concern about the long-term survival of
Antarctic species, such as Laternula elliptica.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 18 marks)
87.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Eukaryotic cells have intracellular and extracellular components. State the functions of one
named extracellular component.
(4)
(b)
Outline, with an example, the process of exocytosis.
(5)
(c)
Translation occurs in living cells. Explain how translation is carried out, from the initiation
stage onwards.
(9)
(Total 20 marks)
88.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Most of the DNA of a human cell is contained in the nucleus. Distinguish between unique
and highly repetitive sequences in nuclear DNA.
(5)
(b)
Draw a labelled diagram to show four DNA nucleotides, each with a different base, linked
together in two strands.
(5)
IB Questionbank Biology
69
(c)
Explain the methods and aims of DNA profiling.
(8)
(Total 20 marks)
89.
Migrating birds must refuel along the way in order to continue flying. A field study was
conducted among four different species of migrating birds known to stop at high quality and low
quality food sites. Two techniques were used to assess food quality in the stopover sites. Birds
were captured and weighed at the two sites. Blood samples were taken from the birds to determine
nutrient levels in their blood. The two techniques were compared for their effectiveness.
The table below shows data collected from the two sites during one season.
Site 1
Species
Site 2
N
(number
captured)
Mean bird
mass / g
N
(number
captured)
Mean bird
mass / g
Hermit thrush
46
29.8
28
28.3
White-throated sparrow
47
27.9
48
27.2
American robin
8
78.3
10
77.6
Magnolia warbler
30
8.4
10
8.2
[Source: adapted from C Guglielmo, et al., (2005), Physiological and Biochemical Zoology, 78(1), pages 116–125]
(a)
Considering all the birds sampled, identify which species was sampled the most and which
was sampled the least.
Most: ...........................................................................................................................
Least: ...........................................................................................................................
(1)
(b)
Using the data from the table, calculate the percentage difference in mean bird mass for the
hermit thrushes refueling at Site 1 compared to those refueling at Site 2.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(1)
IB Questionbank Biology
70
A method was used to determine the average mass change in grams per hour (g h–1) during the
study. Graph A represents a summary of data collected during one season whereas Graph B
represents a summary of data collected over 17 years.
[Source: adapted from C Guglielmo, et al., (2005), Physiological and Biochemical Zoology, 78(1), pages 116–125]
(c)
Compare the 17-year summary data for the hermit thrush and the magnolia warbler.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(d)
Evaluate the one season data for the hermit thrush and the American robin with regard to
average mass change per hour at Site 1.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
Among birds, high triglyceride concentration in blood plasma indicates fat deposition whereas
high butyrate concentration in blood plasma indicates fat utilization and fasting.
IB Questionbank Biology
71
The following data summarizes triglyceride levels and butyrate levels measured for the same
groups of birds.
[Source: adapted from C Guglielmo, et al., (2005), Physiological and Biochemical Zoology, 78(1), pages 116–125]
(e)
Describe, using the triglyceride levels graph, the results at Site 1 and Site 2 for all of the
birds.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
72
(f)
Explain the differences in the triglyceride level and butyrate level for the hermit thrush at
Site 1 and Site 2.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(g)
Scientists have hypothesized that the food quality is better at Site 1 than at Site 2.
Evaluate this hypothesis using the data provided.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(h)
Suggest one advantage and one disadvantage for blood sampling rather than weighing
birds to assess food quality at stopover sites.
......................................................................................................................................
......................................................................................................................................
(1)
(Total 13 marks)
IB Questionbank Biology
73
90.
(a)
Outline the bonding between DNA nucleotides.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(b)
Explain how chemical bonding between water molecules makes water a valuable coolant in
living organisms.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
State a word equation for anaerobic cell respiration in humans.
......................................................................................................................................
(1)
(Total 5 marks)
91.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Outline the structure of a ribosome.
(4)
(b)
Distinguish between fibrous and globular proteins with reference to one example of each
protein type.
(6)
IB Questionbank Biology
74
(c)
Explain the role of auxin in phototropism.
(8)
(Total 20 marks)
92.
Up to two additional marks are available for the construction of your answers.
(2)
(a)
Outline the process of glycolysis.
(5)
(b)
Describe how pancreatic cells directly affect blood glucose levels.
(5)
(c)
Explain why diabetes could be detected through the analysis of urine.
(8)
(Total 20 marks)
IB Questionbank Biology
75
93.
A group of non-smoking men and women were studied for the effects of environmental
contamination with cadmium, a toxic metal. A study was conducted to see the effect of cadmium
exposure on the metabolism of the liver, as measured by the activity of a cytochrome enzyme that
metabolizes drugs, and on renal tubular damage in the kidney as indicated by the excretion of a
substance, NAG.
[Source: Satarug, S et al. 2004. Environmental Health Perspectives. Vol 111, issue 15. Pp 1512–1518. Reproduced
with permission from Environmental Health Perspectives.]
(a)
(i)
Identify the highest hepatic cytochrome activity value in women.
...........................................................................................................................
(1)
(ii)
Identify the lowest renal tubular damage value in men.
...........................................................................................................................
(1)
IB Questionbank Biology
76
(b)
Compare the correlation between hepatic and renal functions for men and for women.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
The scientists who conducted the study hypothesized that exposure to cadmium causes
toxicity in both hepatic and renal functions. Using the data, evaluate the hypothesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 6 marks)
IB Questionbank Biology
77
94.
Which diagram best illustrates the interactions between water molecules?
(Total 1 mark)
95.
What chemical reaction is taking place when a dipeptide becomes two amino acids?
A.
Condensation
B.
Hydrolysis
C.
Denaturation
D.
Polymerization
(Total 1 mark)
IB Questionbank Biology
78
96.
The base ratios in the DNA and RNA for an onion (Allium cepa) are given below.
Bases
A/%
G/%
C/%
T/%
DNA
31.8
18.4
18.2
31.3
Bases
A/%
G/%
C/%
U/%
RNA
24.9
29.8
24.7
20.6
What is the reason for the difference between these figures?
A.
DNA is only found in the nucleus but RNA is found throughout the cell.
B.
DNA is made entirely of double helix but RNA is not.
C.
In DNA, bases A and T are complementary but in RNA, bases A and C are complementary.
D.
RNA comes in three forms but DNA only comes in one form.
(Total 1 mark)
97.
Which of the following will cause an enzyme to permanently lose its properties?
I.
Hydrolysis
II.
Freezing to –20°C
III.
Dissolving it in water
A.
I only
B.
II only
C.
I and II only
D.
I and III only
(Total 1 mark)
IB Questionbank Biology
79
98.
What is lactase used for?
A.
It is used to make sugar-free milk.
B.
It hydrolyses lactose to glucose and fructose.
C.
It improves the digestion of milk by some people.
D.
It decreases the acidity of the milk.
(Total 1 mark)
99.
How can the rate of photosynthesis of a plant be directly measured?
A.
By measuring the rate of oxygen produced
B.
By measuring the rate of carbon dioxide produced
C.
By measuring the rate of plant growth
D.
By measuring the rate of light absorbed
(Total 1 mark)
100. What is true of the source, products and optimum pH of the lipase found in the human digestive
system?
Source
Products
Optimum pH
A.
salivary glands
fatty acids
8
B.
stomach
starch
2
C.
pancreas
fatty acids
8
D.
liver
amino acids
2
(Total 1 mark)
IB Questionbank Biology
80
101. Rice (Oryza sativa) is usually intolerant to sustained submergence under water, although it grows
rapidly in height for a few days before dying. This is true for one variety, Oryza sativa japonica.
The variety Oryza sativa indica is much more tolerant to submergence.
Three genetically modified forms of O. sativa japonica, GMFA, GMFB and GMFC, were made
using different fragments of DNA taken from O. sativa indica.
The plants were then submerged for a period of 11 days. The heights of all the plants were
measured at the beginning and at the end of the submergence period.
[Adapted by permission from Macmillan Publishers Ltd, Xu et al. 2006. “Sub1A is an ethylene-response-factor-like
gene that confers submergence tolerance to rice.” Nature. Vol 442. Pp 705–708. Copyright 2006.
http://www.nature.com/]
(a)
(i)
State which group of rice plants were the shortest at the beginning of the experiment.
...........................................................................................................................
(1)
IB Questionbank Biology
81
(ii)
Calculate the percentage change in height for the O. sativa japonica unmodified
variety during the submergence period. Show your working.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(b)
Explain how the error bars can be used to compare the results for O. sativa indica.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Deduce the general relationship between the growth of all the japonica varieties and their
stated tolerance level.
......................................................................................................................................
......................................................................................................................................
(1)
(d)
Outline the use of the binomial system of nomenclature in Oryza sativa.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
82
In the same experiment, the researchers hypothesized that the capacity to survive when
submerged is related to the presence of three genes very close to each other on rice chromosome
number 9; these genes were named Sub1A, Sub1B and Sub1C. The photograph below of part of a
gel shows relative amounts of messenger RNA produced from these three genes by the
submergence-intolerant variety, O. sativa japonica, and by the submergence-tolerant variety, O.
sativa indica, at different times of a submergence period, followed by a recovery period out of
water.
[Adapted by permission from Macmillan Publishers Ltd, Xu et al. 2006. “Sub1A is an ethylene-response-factor-like
gene that confers submergence tolerance to rice.” Nature. Vol 442. Pp 705–708. Copyright 2006.
http://www.nature.com/]
(e)
(i)
Determine which gene produced the most mRNA on the first day of the
submergence period for variety O. sativa japonica.
...........................................................................................................................
(1)
(ii)
Outline the difference in mRNA production for the three genes during the
submergence period for variety O. sativa indica.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
IB Questionbank Biology
83
(iii)
Compare the mRNA production for the three genes during the submergence period
between the two varieties.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(f)
Deduce, using all the data, which gene was used to modify GMFC.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(g)
Evaluate, using all the data, how modified varieties of rice could be used to overcome food
shortages in some countries.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 17 marks)
IB Questionbank Biology
84
102. Up to two additional marks are available for the construction of your answers.
(2)
(a)
State four elements that are needed by living organisms, other than carbon, hydrogen and
oxygen, giving one role of each.
(4)
(b)
Outline how light energy is used and how organic molecules are made in photosynthesis.
(6)
(c)
Explain the significance of complementary base pairing for replication, transcription and
translation.
(8)
(Total 20 marks)
103. What will be produced during aerobic respiration?
I.
Water
II.
ATP
III.
Ethanol
A.
I only
B.
I and II only
C.
II and III only
D.
I, II and III
(Total 1 mark)
IB Questionbank Biology
85
104. Which graph best represents the effect of temperature on the rate of photosynthesis of a plant?
(Total 1 mark)
IB Questionbank Biology
86
105. Which of the following correctly shows a peptide bond between two amino acids?
(Total 1 mark)
106. What is a polysome?
A.
A ribosome that is synthesizing proteins from several mRNA molecules at the same time
B.
A ribosome that is synthesizing different proteins for secretion
C.
Several ribosomes using a mRNA molecule to synthesize protein at the same time
D.
Several ribosomes that are synthesizing different proteins for use in the cytoplasm
(Total 1 mark)
IB Questionbank Biology
87
107. What does oxidation involve?
A.
A loss of electrons
B.
A gain of electrons
C.
A loss of oxygen
D.
A gain of hydrogen
(Total 1 mark)
108. What is required for ATP synthesis in mitochondria?
A.
Active pumping of protons into the matrix
B.
Diffusion of protons out of the matrix
C.
Accumulation of protons in the intermembrane space
D.
Accumulation of protons in the matrix
(Total 1 mark)
109. What happens in the light-independent reactions of photosynthesis?
A.
Splitting of water molecules
B.
ATP synthesis
C.
Reduction of NADP
D.
Reduction of CO2
(Total 1 mark)
IB Questionbank Biology
88
110. Which two tissues of a leaf are photosynthetic?
A.
Upper epidermis and palisade mesophyll
B.
Palisade mesophyll and spongy mesophyll
C.
Spongy mesophyll and xylem
D.
Upper epidermis and xylem
(Total 1 mark)
111. Gibberellin promotes both seed germination and plant growth. Researchers hypothesize that the
gene GID1 in rice (Oryza sativa) codes for the production of a cell receptor for gibberellin.
The mutant variety gid1-1 for that gene leads to rice plants with a severe dwarf phenotype and
infertile flowers when homozygous recessive. It is suspected that homozygous recessive gid1-1
plants fail to degrade the protein SLR1 which, when present, inhibits the action of gibberellin.
The graphs show the action of gibberellin on the leaves and α-amylase activity of wild-type rice
plants (WT) and their gid1-1 mutants.
[Adapted by permission from Macmillan Ltd, Ueguchi-Tanaka, M et al. 2005. “Gibberellin-insensitive dwarf1
encodes a soluble receptor for gibberellins”. Nature. Vol 437. Pp 693–698. Copyright (2005).]
(a)
(i)
State which variety of rice fails to respond to gibberellin treatment.
...........................................................................................................................
(1)
IB Questionbank Biology
89
(ii)
The activity of α-amylase was tested at successive concentrations of gibberellin.
Determine the increment in gibberellin concentration that produces the greatest
change in α-amylase activity in wild-type rice plants (WT).
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(1)
(iii)
Outline the role of α-amylase during the germination of seeds.
...........................................................................................................................
...........................................................................................................................
(1)
(b)
Discuss the consequence of crossing gid1-1 heterozygous rice plants amongst themselves
for food production.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
IB Questionbank Biology
90
Most rice varieties are intolerant to sustained submergence under water and will usually die
within a week. Researchers have hypothesized that the capacity to survive when submerged is
related to the presence of three genes very close to each other on rice chromosome number 9;
these genes were named Sub1A, Sub1B and Sub1C. The photograph below of part of a gel shows
relative amounts of messenger RNA produced from these three genes by the
submergence-intolerant variety, O. sativa japonica, and by the submergence-tolerant variety, O.
sativa indica, at different times of a submergence period, followed by a recovery period out of
water.
[Adapted by permission from Macmillan Publishers Ltd, Xu et al. 2006. Nature. Vol 442. Pp 705–708. Copyright 2006.
http://www.nature.com/]
(c)
(i)
Determine which gene produced the most mRNA on the first day of the
submergence period for variety O. sativa japonica.
...........................................................................................................................
(1)
(ii)
Outline the difference in mRNA production for the three genes during the
submergence period for variety O. sativa indica.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
IB Questionbank Biology
91
(d)
Using only this data, deduce which gene confers submersion resistance to rice plants.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
The OsGI gene causes long-day flowering and the effect of its overexpression has been observed
in a transgenic variety of rice. Some wild-type rice (WT) and transgenic plants were exposed to
long days (14 hours of light per day) and others to short days (9 hours of light per day).
The shades of grey represent the genotypes of the transgenic plants, where:
[Adapted by permission from Macmillan Ltd, Ueguchi-Tanaka, M et al. 2005. “Gibberellin-insensitive dwarf1
encodes a soluble receptor for gibberellins”. Nature. Vol 437. Pp 693–698. Copyright (2005).]
IB Questionbank Biology
92
(e)
(i)
State the overall effect of overexpression of the OsGI gene in plants treated with
short-day light.
...........................................................................................................................
...........................................................................................................................
(1)
(ii)
Compare the results between the plants treated with short-day light and the plants
treated with long-day light.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(iii)
State, giving one reason taken from the data opposite, if unmodified rice is a
short-day plant or a long-day plant.
...........................................................................................................................
...........................................................................................................................
(1)
(f)
Discuss, using only the data opposite, if OsGI+ and OsGI– behave as codominant alleles.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
93
(g)
Evaluate, using all the data, how modified varieties of rice could be used to overcome food
shortages in some countries.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 19 marks)
112. Up to two additional marks are available for the construction of your answers.
(2)
(a)
State four functions of proteins, giving a named example of each.
(4)
(b)
Outline the structure of ribosomes.
(6)
(c)
Explain the process of transcription leading to the formation of mRNA.
(8)
(Total 20 marks)
113. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram of the ultrastructure of Escherichia coli as an example of a
prokaryote.
(4)
(b)
Describe the events that occur in the four phases of mitosis in animals.
(6)
(c)
Explain the process of aerobic cell respiration after glycolysis has occurred.
(8)
(Total 20 marks)
IB Questionbank Biology
94
114. Superoxide dismutase is an enzyme used by cells to protect themselves against oxidative damage.
These enzymes can have different metals as part of their structure.
A study to compare two dismutases from Escherichia coli bacteria and two dismutases from
eukaryotic cells was undertaken. The following enzymes were used:
• E. coli dismutase with iron (Fe)
• E. coli dismutase with manganese (Mn)
• eukaryotic mitochondrial dismutase with manganese (Mn)
• eukaryotic cytoplasmic dismutase with copper-zinc (Cu-Zn).
The following shows part of the amino acid sequences of these enzymes. Boxes enclose identical
amino acids in the sequence of the two E. coli and mitochondrial dismutases.
[Steinman, H M and Hill, R L. 1973. “Sequence homologies among bacterial and mitochondrial superoxide
dismutases”. PNAS. Vol 70, issue 12. Pp 3725–3729. Used with the permission of the authors.]
(a)
State how many amino acids are in the same position in the E. coli (Fe), E. coli (Mn) and
the mitochondrial dismutase sequences shown.
......................................................................................................................................
(1)
IB Questionbank Biology
95
(b)
State the amino acids which are present in the same position in at least one bacterial
dismutase and in both eukaryotic dismutases.
......................................................................................................................................
(1)
(c)
Compare the E. coli (Mn) and the mitochondrial dismutases.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(d)
Using the diagram, suggest whether the evolution of bacterial dismutase and cytoplasmic
dismutase is convergent or divergent.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(1)
IB Questionbank Biology
96
(e)
The sequences of the two bacterial dismutases and the mitochondrial dismutase show a
high degree of homology. Discuss how this supports the endosymbiotic theory for the
origin of mitochondria.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 7 marks)
115. Which diagram represents the polarity of a water molecule?
(Total 1 mark)
IB Questionbank Biology
97
116. Which of these molecules is a disaccharide?
A.
Galactose
B.
Sucrose
C.
Cellulose
D.
Ribose
(Total 1 mark)
117. What is a codon?
A.
A sequence of nucleotides on rRNA that corresponds to an amino acid
B.
A sequence of nucleotides on mRNA that corresponds to an amino acid
C.
A sequence of nucleotides on tRNA that corresponds to an amino acid
D.
A sequence of nucleotides on DNA that corresponds to an amino acid
(Total 1 mark)
118. What happens as an enzyme becomes denatured?
A.
The enzyme works faster.
B.
The enzyme works slower.
C.
The enzyme can perform a new role.
D.
The enzyme can make the reverse reaction proceed faster.
(Total 1 mark)
IB Questionbank Biology
98
119. What happens during the pathway of glycolysis?
A.
Glucose is broken down into pyruvate.
B.
Carbon dioxide is produced.
C.
More ATP is consumed than is produced.
D.
Lactic acid is produced.
(Total 1 mark)
120. What is light energy used for during photosynthesis?
A.
To produce carbon dioxide
B.
To produce water molecules
C.
To produce ATP
D.
To break down sugar molecules
(Total 1 mark)
121. Which molecule is shown below?
A.
Glucose
B.
Galactose
C.
Ribose
D.
Sucrose
(Total 1 mark)
IB Questionbank Biology
99
122. Blood is a water-based transport medium. Which property of water makes it a good transport
medium?
A.
High specific heat
B.
Transparency
C.
Versatility as a solvent
D.
It has its greatest density at 4°C
(Total 1 mark)
123. What is replicated by a semi-conservative process?
A.
Messenger RNA (mRNA) only
B.
Messenger RNA (mRNA) and transfer RNA (tRNA) only
C.
Messenger RNA (mRNA), transfer RNA (tRNA) and DNA only
D.
DNA only
(Total 1 mark)
124. Which of the following processes produces CO2?
I.
Glycolysis
II.
Alcohol (ethanol) fermentation
III.
Lactic acid production
A.
I only
B.
II only
C.
I and II only
D.
I, II and III
(Total 1 mark)
IB Questionbank Biology
100
125. Which of the following colours of light is absorbed the most by chlorophyll?
A.
Blue
B.
Green
C.
Yellow
D.
Orange
(Total 1 mark)
126. (a)
Define active site.
......................................................................................................................................
......................................................................................................................................
(1)
(b)
Explain enzyme-substrate specificity.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 4 marks)
IB Questionbank Biology
101
127. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram to show how two nucleotides are joined together in a single strand
of DNA.
(3)
(b)
Outline a basic technique for gene transfer.
(6)
(c)
Explain the process of translation.
(9)
(Total 20 marks)
128. (a)
State the property of stem cells that makes them useful in medical treatment.
......................................................................................................................................
......................................................................................................................................
(1)
(b)
Explain how multicellular organisms develop specialized tissues.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
IB Questionbank Biology
102
(c)
Outline some of the outcomes of the sequencing of the human genome.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 6 marks)
129. Glucose has an important regulatory function in carbohydrate metabolism in yeast
(Saccharomyces cerevisiae). The enzyme α-glucosidase catalyses the breakdown of maltose to
two glucose molecules. The activity of yeast α-glucosidase was measured in cells which were
grown in three different media containing : 2 % maltose, 2 % glucose and 1 % of both.
[Boris U. Stambuk. 1999. “A simple experiment illustrating metabolic regulation: induction versus repression of yeast
α-glucosidase”. Biochemical Education. Vol 27, issue 3. Pp 177–180.]
IB Questionbank Biology
103
(a)
Calculate the difference in α-glucosidase activity at two hours in yeast grown with 2 %
maltose compared to yeast grown with 1 % of both.
......................................................................................................................................
(1)
(b)
Distinguish between α-glucosidase activity in yeast incubated only with glucose and yeast
incubated only with maltose.
......................................................................................................................................
......................................................................................................................................
(1)
(c)
Suggest the effect of incubating the yeast cells with both maltose and glucose in terms of
metabolic pathways.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(d)
Outline the metabolism of glucose during glycolysis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 7 marks)
IB Questionbank Biology
104
130. (a)
(i)
Explain the primary structure of proteins and secondary structure of proteins.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(3)
(ii)
Using named examples, distinguish between fibrous protein and globular protein.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(b)
State one difference between oxidation and reduction.
......................................................................................................................................
(1)
(Total 6 marks)
131. (a)
State the location in the chloroplast of the following reactions of photosynthesis.
Light-independent reactions: .......................................................................................
Light-dependent reactions: ..........................................................................................
(2)
IB Questionbank Biology
105
(b)
Explain what happens to the electrons in the light-dependent reactions of photosynthesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 5 marks)
IB Questionbank Biology
106
132. In the model of the DNA molecule shown below, which arrows point to covalent bonds?
A.
I, II and III only
B.
II, III and IV only
C.
I, III and IV only
D.
I, II and IV only
(Total 1 mark)
IB Questionbank Biology
107
133. The antisense strand on the DNA molecule coding for three codons of a gene is
TATCGCACG
What are the anticodons of the three tRNA molecules that correspond to this sequence?
A.
UAU, CGC and ACG
B.
ATA, GCG and TGC
C.
AUA, GCG and UGC
D.
TAT, CGC and ACG
(Total 1 mark)
134. What is the function of the tRNA activating enzyme?
A.
It links tRNA to ribosomes.
B.
It links tRNA to mRNA.
C.
It links tRNA to a specific amino acid.
D.
It links an amino acid on one tRNA to an amino acid on another tRNA.
(Total 1 mark)
135. Which best describes the tertiary structure of a protein?
A.
The interaction of polypeptide subunits and prosthetic groups
B.
Interactions forming hydrogen bonds between the amino acids
C.
The sequence of amino acids in the polypeptide chain
D.
The structure formed from interactions between the amino acid side groups
(Total 1 mark)
IB Questionbank Biology
108
136. Where is carbon dioxide produced in the mitochondrion?
(Total 1 mark)
137. In the mitochondrial electron transport chain, what is the last electron acceptor?
A.
CO2
B.
H2O
C.
O2
D.
NAD
(Total 1 mark)
138. Where are complex carbohydrates made in the chloroplast?
A.
In the intermembrane space
B.
In the stroma
C.
On the inner membrane
D.
In the thylakoid space
(Total 1 mark)
IB Questionbank Biology
109
139. Which of the following graphs represents the effect of changing light intensity on the rate of
oxygen production by a green plant?
(Total 1 mark)
140. Which of the following is true about a polar amino acid and cellulose?
A.
Both are polysaccharides.
B.
Both contain nitrogen.
C.
Both are hydrophobic.
D.
Both contain hydrogen atoms.
(Total 1 mark)
IB Questionbank Biology
110
141. What conclusion can be drawn from examining the action spectrum for a green plant shown
below?
A.
Yellow light is the most effective at promoting photosynthesis.
B.
Every colour of light is equally effective at promoting photosynthesis.
C.
Light of wavelength 550 nm is least effective at promoting photosynthesis.
D.
Light in the green range is the most effective at promoting photosynthesis.
(Total 1 mark)
142. Where in the cell does the Calvin cycle take place?
A.
Stroma of chloroplast
B.
Mitochondrial matrix
C.
Cytoplasm
D.
Inside thylakoid
(Total 1 mark)
IB Questionbank Biology
111
143. Blood is a water-based transport medium. Which property of water makes it a good transport
medium?
A.
High specific heat
B.
Transparency
C.
Versatility as a solvent
D.
It has its greatest density at 4°C
(Total 1 mark)
144. What is the distinction between highly repetitive DNA sequences and single-copy genes?
A.
The highly repetitive sequences have greater amounts of guanine.
B.
The highly repetitive sequences have greater amounts of cytosine.
C.
The highly repetitive sequences are not transcribed.
D.
The highly repetitive sequences are not replicated.
(Total 1 mark)
145. Which of the following statements is true about enzymes?
A.
They are used up in the reactions they catalyse.
B.
Allosteric inhibitors bind to the active site.
C.
They lower the energy of activation for a reaction.
D.
They supply the energy of activation for a reaction.
(Total 1 mark)
IB Questionbank Biology
112
146. Which of the following is not a function performed by a membrane protein?
A.
Hormone binding sites
B.
Cell adhesion
C.
Enzyme synthesis
D.
Pumps for active transport
(Total 1 mark)
147. Which chemical is shown in the diagram below?
A.
Monosaccharide
B.
Triglyceride
C.
Fatty acid
D.
Amino acid
(Total 1 mark)
IB Questionbank Biology
113
148. Genetic engineering allows genes for resistance to pest organisms to be inserted into various crop
plants. Bacteria such as Bacillus thuringiensis (Bt) produce proteins that are highly toxic to
specific pests.
Stem borers are insects that cause damage to maize crops. In Kenya, a study was carried out to see
which types of Bt genes and their protein products would be most efficient against three species of
stem borer. The stem borers were allowed to feed on nine types of maize (A–I), modified with Bt
genes. The graph below shows the leaf areas damaged by the stem borers after feeding on maize
leaves for five days.
[Source: S Mugo et al., Figure 3 from “Developing Bt maize for resource-poor farmers—Recent advances in the IRMA
project”, African Journal of Biotechnology (2005), volume 4, number 13, pp. 1490-1504]
IB Questionbank Biology
114
(a)
Calculate the percentage difference in leaf area damaged by Sesamia calamistis between
the control and maize type H. Show your working.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(b)
Discuss which species of stem borer was most successfully controlled by the genetic
engineering of the maize plants.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
IB Questionbank Biology
115
Before the use of genetically modified maize as a food source, risk assessment must be carried
out. A 90-day study was carried out in which adult male and female rats were fed either:
• seeds from a Bt maize variety
• seeds from the original non-Bt maize variety
• commercially prepared rat food.
All the diets had similar nutritional qualities.
[Source: Linda A. Malley et al. 2007. “Subchronic feeding study of DAS-59122-7 maize grain in Sprague-Dawley
rats”. Food and Chemical Toxicology. Vol 45, issue 7. Pp 1277–1292]
(c)
Calculate the change in mean mass of male and of female rats fed on Bt maize from day 14
to 42.
......................................................................................................................................
......................................................................................................................................
(2)
(d)
Evaluate the use of Bt maize as a food source on the growth of the rats.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(e)
Comment on the use of Bt maize as a food source compared to the other diets tested.
IB Questionbank Biology
116
......................................................................................................................................
......................................................................................................................................
(1)
Studies have shown that Bt proteins are released by plant roots and remain in the soil.
One study looked at the biomass of microorganisms in soil surrounding the roots of:
• Bt maize
• non-Bt maize
• non-Bt maize with an insecticide (I).
The graph below shows the biomass of microorganisms at two different times in the growth cycle
of the plants (Flower and Harvest). Error bars represent standard error of the mean.
[Source: Devare, M et al. “Neither transgenic Bt maize (MON863) nor tefluthrin insecticide adversely affect soil
microbial activity or biomass: A 3-year field analysis”. Soil Biology and Biochemistry. Vol 39, issue 6. Pp 2038–2047.
© Elsevier. Reproduced with permission.]
(f)
State one role of bacteria in a soil ecosystem.
......................................................................................................................................
......................................................................................................................................
(1)
(g)
Compare the biomass of microbes in the soils surrounding the roots of Bt maize and non-Bt
maize.
......................................................................................................................................
IB Questionbank Biology
117
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(h)
The researchers’ original hypothesis stated that microorganisms would be negatively
affected by the Bt protein released by the plant roots. Discuss whether the data supports the
hypothesis.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
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(2)
Bt proteins act as toxins to insects, primarily by destroying epithelial cells in the insect’s digestive
system. Below is the three-dimensional structure of one such protein.
[Reprinted from Mario Soberón. 2007. “Mode of action of mosquitocidal Bacillus thuringiensis toxins”. Toxicon. Vol
49, issue 5. Pp 597–600. Copyright (2007), with permission from Elsevier and the International Society on
Toxicology.]
IB Questionbank Biology
118
(i)
(i)
State the type of structure shown in the region marked A in the diagram above.
...........................................................................................................................
(1)
(ii)
Outline how this structure is held together.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(iii)
Region A inserts into the membrane. Deduce, with a reason, the nature of the amino
acids that would be expected to be found in this region.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(Total 20 marks)
149. (a)
Draw a labelled diagram of the structure of a chloroplast as seen with an electron
microscope.
(4)
(b)
Describe how water is carried by the transpiration stream.
(7)
(c)
Explain how flowering is controlled in long-day and short-day plants.
(7)
(Total 18 marks)
IB Questionbank Biology
119
150. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Distinguish between RNA and DNA.
(3)
(b)
Explain the process of DNA replication.
(8)
(c)
Outline how enzymes catalyse reactions.
(7)
(Total 20 marks)
151. (a)
Draw a labelled diagram showing two different complementary pairs of nucleotides in a
molecule of DNA.
(4)
IB Questionbank Biology
120
(b)
Outline the structure of nucleosomes.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Explain primary structures and tertiary structures of an enzyme.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 9 marks)
152. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram showing the tissues present in a dicotyledonous leaf.
(4)
(b)
Outline the light-dependent reactions of photosynthesis.
(6)
(c)
Explain the effect of light intensity and temperature on the rate of photosynthesis.
(8)
(Total 20 marks)
153. Up to two additional marks are available for the construction of your answers.
(2)
IB Questionbank Biology
121
(a)
Draw a labelled diagram showing the ultra-structure of a liver cell.
(4)
(b)
Distinguish between prokaryotic cells and eukaryotic cells.
(6)
(c)
Explain prokaryotic DNA replication.
(8)
(Total 20 marks)
154. Which of the following chemical elements are part of biochemical molecules in living organisms?
A.
nitrogen, sulfur, phosphorus and iron
B.
lead, oxygen, carbon and phosphorus
C.
helium, carbon, sulfur and nitrogen
D.
silicon, helium, oxygen and iron
(Total 1 mark)
155. Which of the following is an organic compound made by all plants?
A.
Carbon dioxide
B.
DNA
C.
Lactose
D.
Oxygen
(Total 1 mark)
IB Questionbank Biology
122
156. Which of the following graphs shows the relationship between substrate concentration and
enzyme activity with a fixed concentration of enzyme?
(Total 1 mark)
157. Oxygen is produced during photosynthesis. What is the source of this oxygen inside the plant?
A.
Air spaces in the leaf
B.
Carbon dioxide
C.
Glucose
D.
Water
(Total 1 mark)
158. (a)
State the type of bonds that
(i)
connect base pairs in a DNA molecule.
...........................................................................................................................
(1)
IB Questionbank Biology
123
(ii)
link DNA nucleotides into a single strand.
...........................................................................................................................
(1)
(b)
Distinguish between DNA and RNA nucleotides by giving two differences in the chemical
structure of the molecules.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Explain the role of transfer RNA (tRNA) in the process of translation.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
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......................................................................................................................................
(2)
(Total 6 marks)
159. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram to show the fluid mosaic structure of a plasma membrane,
indicating the hydrophilic and hydrophobic regions.
(5)
(b)
Distinguish between active and passive movements of materials across plasma membranes,
using named examples.
(4)
IB Questionbank Biology
124
(c)
Explain how the properties of water are significant to living organisms.
(9)
(Total 20 marks)
160. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram to show the human ventilation system.
(4)
(b)
Outline anaerobic cell respiration in plant cells.
(5)
(c)
Explain the concept of homeostasis, using the control of blood sugar as an example.
(9)
(Total 20 marks)
161. The graph below shows the results of an experiment to determine the effect of salt (NaCl)
concentration on photosynthesis of the freshwater green alga Chlorella vulgaris. The experiment
attempted to determine the effect of salt concentration on the light-dependent reactions overall
and separately on photosystem I and photosystem II.
[Source: M M El-Sheekh, “Inhibition of the water splitting system by sodium chloride stress in the green alga Chlorella
vulgaris”, Brazilian Journal of Plant Physiology, Volume 16, Issue 1, Figure 1, (2004)]
IB Questionbank Biology
125
(a)
Describe the effect of salt concentration on the activity of the light-dependent reactions
overall.
......................................................................................................................................
......................................................................................................................................
(1)
(b)
Compare the effect of increasing salt concentration on photosystem I with the effect on
photosystem II.
......................................................................................................................................
......................................................................................................................................
(1)
(c)
When salt concentration is increased, some algal cells increase their rates of cyclic
photophosphorylation. Deduce the reasons for this.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(d)
Using the graph, predict the effect of high salt concentration on the growth of Chlorella
vulgaris. Give a reason for your answer.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 6 marks)
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126
162. (a)
State one example of a fibrous protein.
......................................................................................................................................
......................................................................................................................................
(1)
(b)
Distinguish between the secondary structure and tertiary structure of proteins.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(c)
Explain what is meant by allosteric inhibition.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(3)
(Total 7 marks)
163. (a)
State the location of high proton concentration caused by electron transport in the
mitochondrion.
......................................................................................................................................
(1)
IB Questionbank Biology
127
(b)
Outline the role of oxygen in cellular respiration.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(c)
Explain how any two structural features of the mitochondrion are related to its function.
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
......................................................................................................................................
(2)
(Total 5 marks)
164. Which of the following chemical elements are part of biochemical molecules in living organisms?
A.
nitrogen, sulfur, phosphorus and iron
B.
lead, oxygen, carbon and phosphorus
C.
helium, carbon, sulfur and nitrogen
D.
silicon, helium, oxygen and iron
(Total 1 mark)
IB Questionbank Biology
128
165. The diagram below represents part of the DNA molecule.
What are the parts labelled I, II and III?
I
II
III
A.
hydrogen bond
base
deoxyribose
B.
hydrogen bond
deoxyribose
phosphate group
C.
covalent bond
base
deoxyribose
D.
covalent bond
deoxyribose
phosphate group
(Total 1 mark)
166. What principle is necessary to preserve the sequence of DNA during replication?
A.
Base pairing is complementary.
B.
One gene codes for one polypeptide.
C.
Substrates are specific to enzymes.
D.
The genetic code is universal.
(Total 1 mark)
IB Questionbank Biology
129
167. What happens during translation?
A.
Copying of DNA to produce DNA
B.
Copying of DNA to produce mRNA
C.
Copying of DNA to produce tRNA
D.
Polypeptide synthesis
(Total 1 mark)
168. Which equation shows a chemical reaction that occurs during anaerobic cell respiration?
(Total 1 mark)
IB Questionbank Biology
130
169. The diagram below shows part of a DNA molecule that is being replicated.
Where would DNA polymerase link the next nucleotide during replication?
A.
I
B.
II
C.
III
D.
IV
(Total 1 mark)
IB Questionbank Biology
131
170. The graph below shows energy changes during a chemical reaction that occurs without a catalyst.
What would change if the reaction was catalysed by an enzyme?
A.
The initial energy level (I) would be higher, speeding up the reaction.
B.
The maximum energy level (II) would be higher, speeding up the reaction.
C.
The maximum energy level (II) would be lower, speeding up the reaction.
D.
The final energy level (III) would be lower, speeding up the reaction.
(Total 1 mark)
171. What is the role of NADH + H+ in aerobic cell respiration?
A.
To transfer hydrogen to the electron transport chain
B.
To reduce intermediates in the Krebs cycle
C.
To accept electrons from the electron transport chain
D.
To combine with oxygen to produce water
(Total 1 mark)
IB Questionbank Biology
132
172. What reaction, involving glycerate 3-phosphate, is part of the light-independent reactions of
photosynthesis?
A.
Glycerate 3-phosphate is carboxylated using carbon dioxide.
B.
Two glycerate 3-phosphates are linked together to form one hexose phosphate.
C.
Glycerate 3-phosphate is reduced to triose phosphate.
D.
Five glycerate 3-phosphates are converted to three ribulose 5-phosphates.
(Total 1 mark)
173. What is the advantage of having a small volume inside the thylakoids of the chloroplast?
A.
High proton concentrations are rapidly developed.
B.
High electron concentrations are rapidly developed.
C.
Photosynthetic pigments are highly concentrated.
D.
Enzymes of the Calvin cycle are highly concentrated.
(Total 1 mark)
174. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Outline the thermal, cohesive and solvent properties of water.
(5)
(b)
Outline adaptations of xerophytes.
(4)
(c)
Explain the role of the kidney in maintaining water balance in humans.
(9)
(Total 20 marks)
IB Questionbank Biology
133
175. Carbon, hydrogen, nitrogen and sulphur are elements found in living cells. Which is the least
common?
A.
Carbon
B.
Hydrogen
C.
Nitrogen
D.
Sulphur
(Total 1 mark)
176. Which of the following terms correctly describe the molecule below?
H
H
OH
C
H
C
OH
C
O
H
OH
H
C
C
H
OH
H
C
OH
I.
Monosaccharide
II.
Ribose
III.
Carbohydrate
A.
I only
B.
I and III only
C.
II and III only
D.
I, II and III
(Total 1 mark)
IB Questionbank Biology
134
177. A certain gene in a bacterium codes for a polypeptide that is 120 amino acids long. How many
nucleotides are needed in the mRNA to code for this polypeptide?
A.
30
B.
40
C.
360
D.
480
(Total 1 mark)
178. What enzyme is used in transcription but not in translation?
A.
DNA polymerase
B.
Helicase
C.
Protease
D.
RNA polymerase
(Total 1 mark)
179. Humans can respire aerobically and anaerobically. Which are products of both aerobic cell
respiration and anaerobic cell respiration in humans?
A.
Pyruvate and ATP
B.
Pyruvate and lactate
C.
ATP and carbon dioxide
D.
Lactate and carbon dioxide
(Total 1 mark)
IB Questionbank Biology
135
180. Which two colours of light does chlorophyll absorb most?
A.
Red and yellow
B.
Green and blue
C.
Red and green
D.
Red and blue
(Total 1 mark)
# |181. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw and label a diagram of the digestive system.
(4)
(b)
Discuss factors that affect enzyme activity.
(9)
(c)
Outline one industrial use of lactase.
(5)
(Total 20 marks)
IB Questionbank Biology
136
182. Inflammation of human tissues often causes pain. Cyclooxygenases (COX) are a group of
enzymes that play a role in causing inflammation. Analgesics are drugs that can reduce pain. The
graph below shows how increasing concentrations of the analgesic drug dipyrone, affects the
activity of three different cyclooxygenases, COX-1, COX-2 and COX-3.
Enzyme activity / arbitrary units
Key:
120
COX-1
COX-2
COX-3
100
80
60
40
20
0
0
1
10
100
1000 10 000
Dipyrone concentration / μmol dm–3
[Source: Adapted from N V Chandrasekharan, et al, (2002), Proceedings of the National Academy of Sciences, USA, 99, (21),
pages 1392613931]
(a)
Outline the relationship between dipyrone concentration and COX-3 activity.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(2)
(b)
Deduce whether dipyrone is an inhibitor of COX-2.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(2)
IB Questionbank Biology
137
(c)
Evaluate the potential of dipyrone as an analgesic using the data in the graph.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(2)
(Total 6 marks)
183. (a)
List two examples of fibrous proteins.
1. .................................................................................................................................
2. .................................................................................................................................
(1)
(b)
(i)
State one protein involved in oxidative phosphorylation.
...........................................................................................................................
(1)
(ii)
Outline the role of this protein in oxidative phosphorylation.
...........................................................................................................................
...........................................................................................................................
...........................................................................................................................
(2)
(Total 4 marks)
IB Questionbank Biology
138
184. (a)
Explain why carbon dioxide concentration is a limiting factor of photosynthesis.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(3)
(b)
Explain the relationship between the structure of the chloroplast and its function.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(3)
(c)
State two products of the light-dependent reactions.
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
(2)
(Total 8 marks)
IB Questionbank Biology
139
185. The diagram shows part of a molecule produced by replication of DNA. What is the significance
of the shaded and the unshaded regions?
A.
The shaded parts are DNA and the unshaded parts are mRNA.
B.
The shaded parts contain adenine and thymine and the unshaded parts contain guanine and
cytosine.
C.
The shaded part is a codon and unshaded part is an anticodon.
D.
One of the parts has been newly synthesized and the other was part of a pre-existing DNA
molecule.
(Total 1 mark)
186. If mRNA has a codon CAU, what is the corresponding anticodon on the tRNA molecule?
A.
CAT
B.
GUA
C.
CAU
D.
GTA
(Total 1 mark)
187. Which graph shows the relationship between the substrate concentration and the rate of an
IB Questionbank Biology
140
enzyme controlled reaction?
B.
Rate of
reaction
Rate of
reaction
A.
Substrate
concentration
Substrate
concentration
C.
D.
(Total 1 mark)
188. What are pyrimidines in DNA?
A.
Types of nucleotides
B.
Types of base pairs
C.
Types of sugars
D.
Types of bases
(Total 1 mark)
IB Questionbank Biology
141
189. Which enzyme removes the RNA primer during replication?
A.
RNA primase
B.
DNA polymerase I
C.
DNA ligase
D.
Helicase
(Total 1 mark)
190. Consider the metabolic pathway shown below.
1
2
3
4
V  W X Y Z
If there is end-product inhibition, which product would inhibit which enzyme?
Product
Enzyme
A.
X
4
B.
W
3
C.
W
2
D.
Z
1
(Total 1 mark)
191. What is the net production of ATP, per molecule of glucose during the fermentation of glucose to
lactate?
A.
36 molecules
B.
4 molecules
C.
2 molecules
D.
None
(Total 1 mark)
IB Questionbank Biology
142
192. The diagram below summarizes the light-dependent reactions in photosynthesis. What is
occurring at X?
Electrons
X
Electrons
Light
Photosystem I
Light
Photosystem II
A.
ADP + phosphate  ATP
B.
NADP+NADPH + H+
C.
H2O  O2– + 2H+
D.
NADPH + H+  NADP+
(Total 1 mark)
193. What is the first identifiable product of carbon dioxide fixation in photosynthesis?
A.
Ribulose bisphosphate (RuBP)
B.
Glycerate3-phosphate (GP)
C.
Triose phosphate (TP)
D.
Acetyl CoA
(Total 1 mark)
IB Questionbank Biology
143
194. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram showing the structure of a plasma membrane.
(4)
(b)
Outline the role of chlorophyll and the effects of temperature, light intensity and carbon
dioxide concentration on the rate of photosynthesis.
(6)
(c)
Explain the production of energy during aerobic respiration from pyruvate that has been
produced by glycolysis.
(8)
(Total 20 marks)
195. Up to two additional marks are available for the construction of your answers.
(2)
(a)
Draw a labelled diagram showing the structure of the digestive system.
(4)
(b)
Outline the need for enzymatic hydrolysis in the digestive process.
(6)
(c)
Explain how the kidney prevents the body from losing important materials absorbed from
the digestive system.
(8)
(Total 20 marks)
IB Questionbank Biology
144