Syllabus Edition

First teaching 2020

Last exams 2024

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Factors that Affect Enzyme Action (CIE A Level Biology)

Exam Questions

2 hours41 questions
1a
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2 marks
 

Fig. 1 shows how the addition of a molecule (molecule X) affects the rate of an enzyme-controlled reaction.

5-

Fig. 1

Describe how the addition of molecule X affects the rate of the reaction in Fig. 1.

1b
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2 marks

Fig. 2 shows how molecule X interacts with the enzyme.

6-1

Fig. 2

Explain the results shown in Fig. 1 by using the information in Fig. 2.

1c
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2 marks

Fig. 3 shows another molecule, molecule Y.

7-1

Fig. 3

Suggest how molecule Y might interact with the enzyme shown in Fig. 2.

1d
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2 marks

Sketch a line on Fig. 1 to show how molecule Y might affect the rate of the reaction.

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2a
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2 marks

Fig. 1 shows the results of an investigation into the effects of pH on the activity of two enzymes (X and Y) taken from two different parts of the human digestive system.

3-2-fig-1-1

Fig. 1

Describe the effect that increasing the pH from 3 to 5 would have on the structure of enzyme X, based on the information in Fig. 1.

2b
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2 marks

Use Fig. 1 to calculate the difference in the maximum enzyme activity of enzyme X and Y.

Give your answer in arbitrary units (a.u).

2c
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2 marks

Suggest which part of the digestive system enzyme Y was taken from and give a reason for your answer.

2d
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3 marks

Amylase is an enzyme involved with the digestion of starch. It is active across a pH range of 5 to 10, with an optimum pH of 7. The maximum enzyme activity of amylase is 16 a.u.

Plot a curve in Fig. 1 to show the effect of pH on the activity of amylase.

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3a
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2 marks

The Michaelis-Menten constant (Km) measures the affinity of an enzyme for its substrate.

Define the term Michaelis-Menten constant.

3b
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1 mark

An enzyme has a low Km value.

State the deduction that can be made regarding the affinity of the enzyme for its substrate.

3c
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3 marks

Temperature is a factor that will affect the rate of reaction of an enzyme catalysed reaction.

State and explain the effect that lower temperatures would have on the rate of reaction.

3d
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2 marks

Various factors may affect the rate of reaction of an enzyme catalysed reaction.

Other than temperature, state two such factors.

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1a
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2 marks

Fig. 1 shows the results of an investigation into the effects of pH on the activity of two enzymes (X and Y) taken from two different parts of the human digestive system.

3-2-fig-1-1

Fig. 1

Contrast the activity of enzymes X and Y in Fig. 1.

1b
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1 mark

State the role of a buffer solution when investigating the effect of pH on the rate of the reaction.

1c
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3 marks

Table 1 shows the results of an investigation into the effects of temperature on the reaction rate of amylase. Note that a.u. denotes arbitrary units.

Table 1

Temperature / °C Rate of the reaction / a.u.
10 0.5
20 1.1
30 2.8
40 4.5
50 3.2
60 0.3
70 0

Explain the results when the temperature increased above 40 °C.

1d
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2 marks

Calculate the percentage increase in the reaction rate between 10 °C and 40 °C. 

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2a
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2 marks

Explain the effect that increasing the concentration of an enzyme would have on the rate of a reaction.

2b
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2 marks

Sketch a graph showing enzyme concentration against the rate of reaction when the amount of substrate is limited.

2c
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2 marks

Hydrogen peroxide is broken down by the enzyme catalase into water and oxygen. Catalase can be found inside most types of living cells, including potato cells.

A group of students investigated the effect of various concentrations of hydrogen peroxide on the reaction rate of catalase. They ground up a 3 cm piece of potato cylinder with 5 cm3 of distilled water to provide a solution containing catalase. They then made a serial dilution of the original 100 % stock solution of hydrogen peroxide before setting up three test tubes for each concentration of hydrogen peroxide. For each test tube, they dipped a filter paper disc into the catalase suspension and placed the disc at the bottom of the test tube containing 10 cm3 of hydrogen peroxide. They measured the time taken for the disc to float up to the surface of the hydrogen peroxide solution.

Their results are shown in Table 1.

Table 1

3-1-fig-2-1

Calculate the reaction rate for the 100% hydrogen peroxide concentration. Show your working.

2d
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2 marks

Explain the results of the investigation shown in Table 1.

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3a
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2 marks

Trypsin is an enzyme produced by the pancreas that hydrolyses proteins in the small intestine. 

The activity of trypsin was investigated by placing a small amount of the enzyme with a known concentration of protein.

Fig. 1 shows the progress of this reaction when it is carried out at 25 °C.

3-2-fig-3-1

Fig. 1

Calculate the initial rate of the reaction in Fig. 1. Show your working.

3b
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2 marks

The procedure was repeated at the same temperature in the presence of a competitive inhibitor of trypsin.

Predict the results that will be obtained using the competitive inhibitor.

3c
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2 marks

Describe how your prediction for part (b) would be different if a non-competitive inhibitor was used rather than a competitive inhibitor.

3d
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2 marks

The investigation was extended to compare the initial reaction rates of trypsin obtained from different species of animals. 

Suggest two advantages of calculating the initial reaction rates of enzyme catalysed reactions here rather than the reaction rates at another point during the experiment.

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4a
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3 marks

Researchers immobilised an amylase enzyme in alginate beads. They investigated the effects of temperature on the activity of the immobilised amylase compared with amylase that was free in solution.

The results for this investigation are shown in Fig. 1.

3-2-fig-5-1
Fig. 1

Compare the effects of temperature on the activity of immobilised and free amylase shown in Fig. 1.

4b
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2 marks

When the researchers immobilised amylase they had to ensure that the size of the alginate beads were all the same.

Suggest and explain one reason why using different sized alginate beads would affect the activity of immobilised amylase.

4c
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2 marks
(i)

State one variable other than bead size that the researchers should keep constant in this investigation.

[1]

(ii)

Explain your answer to part (i).

[1]

4d
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3 marks

State three advantages of using immobilised enzymes in industrial processes.

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5a
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1 mark

Fig. 1 shows the disaccharide lactose, which is found in milk.

fig2-1-qp-octnov-2018-9700-21

Fig. 1

Name the type of bond that joins the two monosaccharides in lactose.

5b
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3 marks

The enzyme lactase catalyses the breakage of the bond between the two monosaccharides in lactose.

(i)

Name the type of reaction that breaks this bond.

[1]

(ii)

Some people do not produce the enzyme lactase, so cannot digest lactose.

The presence of lactose in the lumen of the intestine reduces the volume of water absorbed into the blood, resulting in diarrhoea.

Suggest why the presence of lactose in the intestine reduces the volume of water absorbed.

[2]

5c
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5 marks

Enzymes, such as lactase, are often immobilised for use in the food industry.

A scientist carried out an investigation to determine the effects of temperature on the activity of lactase when it was immobilised and when it was free in solution.

The scientist produced alginate beads containing lactase for use in this investigation. The beads varied in size. The scientist selected small beads for the investigation and put them into a glass column.

(i)

Suggest the advantage of using small beads rather than large beads.

[2]

(ii)

Fig. 2 shows the results of the investigation to determine the effects of temperature on the activity of lactase when it was immobilised, I, and when it was free in solution, F.

fig2-2-qp-octnov-2018-9700-21

Fig. 2

With reference to Fig. 2, compare the effect of temperature on the activity of immobilised lactase, I, and lactase free in solution, F.

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1a
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2 marks

Table 1 provides information about the enzymes carbonic anhydrase and penicillinase.

Table 1

Enzyme Substrate Vmax / arbitrary units Km / µmol dm-3
Carbonic anhydrase Carbon dioxide 550 000 7500
Penicillinase Penicillin 2300 54

(i)
Identify the enzyme that has the highest affinity for its substrate.

[1]

(ii)
Give a reason for your answer to part (i).

[1]

1b
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4 marks

Hydrogen peroxide is broken down by the enzyme catalase.

A student investigated the initial rates of reaction for seven different concentrations of hydrogen peroxide. The results of this investigation are represented by line A in Fig. 1.

The investigation was repeated after adding copper ions to the different concentrations of hydrogen peroxide. The results of this investigation are represented by line B in Fig. 1.

ijp~pzL5_3-2-fig-4-1Fig. 1

With reference to Fig. 1 explain the effect of copper ions on the action of catalase.

1c
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2 marks

Calculate the Km value for catalase in the absence of copper ions, using Fig. 1. 

1d
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1 mark

Describe the effect that a competitive inhibitor would have on the affinity of an enzyme for its substrate.

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2a
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7 marks

Neutrase® is an enzyme that is used to hydrolyse proteins in solution. When the enzyme is mixed with a 2% protein solution the reaction mixture changes from white to colourless.

A student carried out an experiment to find the effect of copper sulfate and potassium sulfate on the activity of Neutrase®.

The student made four reaction mixtures in test tubes A to D. Test tubes A to C contained equal volumes of protein solution and 0.1 cm3 of solutions of copper sulfate or potassium sulfate. Test tube D contained the same volume of protein solution and 0.1 cm3 of water.

0.5 cm3 of a 1% Neutrase® solution was added to test tube A and immediately placed into a colorimeter. The colorimeter was used to measure the intensity of light that is absorbed by the solution (absorbance) over 100 seconds. The procedure was repeated with the other reaction mixtures, B, C and D.

The results are shown in Fig. 1.

fig3-1-qp-mayjune-2019-9700-21

Fig. 1

(i)

Suggest and explain why measuring the absorbance of the reaction mixture over 100 s is a suitable method for determining the activity of Neutrase®.

[2]

(ii)

With reference to Fig. 1:

  • Describe the effects of copper sulfate solution and potassium sulfate solution on the activity of Neutrase®
  • Suggest explanations for the effects that you have described.
[5]
2b
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2 marks

Neutrase® can be immobilised in alginate. Immobilised Neutrase® is used in the food industry to produce foods with high nutritional content.

Explain the advantages of using immobilised enzymes, such as Neutrase®, compared with using the same enzymes free in solution.

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3a
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4 marks

The unicellular fungus Kluyveromyces lactis is found in dairy products. It is a safe microorganism to culture for the extraction of the enzyme lactase.

Lactase catalyses the breakdown of lactose, a sugar found in milk.

The reaction catalysed by lactase is summarised in Fig. 1.fig3-1-qp-specimen-2022-9700-02

Fig. 1

Describe the reaction that is catalysed by lactase. Use Fig. 1 to help you.

In your answer, identify Y and product Z.

3b
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4 marks

On a commercial scale, immobilised lactase can be used to produce lactose-free milk.

One of the products of the reaction shown in Fig. 1 acts as an inhibitor of lactase. This is an example of product inhibition.

(i)

Explain why product inhibition is useful in K. lactis when lactase is acting as an intracellular enzyme, but can be a disadvantage when extracted lactase is used free in solution for the production of lactose-free milk.

[2]

(ii)

Suggest how using immobilised lactase for the production of lactose-free milk helps to reduce the problem of product inhibition.

[1]

(iii)

The first large-scale production of lactose-free milk with an immobilised enzyme used lactase trapped in cellulose triacetate fibres.

Suggest one feature of cellulose triacetate that makes it useful as an immobilising material.

[1]
3c
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3 marks

When developing an enzyme-catalysed reaction for use in industry, the progress of the reaction is studied.

Outline how the progress of an enzyme-catalysed reaction can be investigated experimentally.

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