ATP, Water & Inorganic Ions (AQA A Level Biology)

Exam Questions

2 hours15 questions
1a2 marks

ATP is an important source of energy for cellular reactions. Write out the word equation for the hydrolysis of ATP as it releases its energy to cellular processes. 

1b1 mark

State the biochemical pathway in which ATP is produced from the oxidation of substrates.

1c2 marks

List two processes within cells that utilise the energy released from the hydrolysis of ATP. 

1d1 mark

ATP is described as a phosphorylated nucleotide. Name another common molecule in cells that fits this description. 

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2a1 mark

Sort the molecules ADP, AMP and ATP into increasing order of the number of phosphate groups that they possess. 

2b1 mark

Aerobic respiration of one molecule of glucose generates roughly 38 separate molecules of ATP. Suggest one cellular advantage of releasing energy in small packages of ATP, rather than one single, large energy release. 

2c1 mark

Name the enzyme which catalyses the hydrolysis of ATP

2d2 marks

Explain the process by which ATP can be recycled in the cell. 

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3a1 mark

State the type of bonding that forms between hydrogen and oxygen atoms within a molecule of water. 

3b1 mark

State the property of the bonds between hydrogen and oxygen within a water molecule that gives water many of the properties that make it an ideal medium for life.

3c1 mark

Four adjacent liquid water molecules are shown in Figure 1.

Figure 1

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Identify the kind of bond labelled X in Figure 1.

3d2 marks

Explain how the distribution of charge shown in Figure 1 gives water the ability to fulfil its role as a universal solvent. 

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4a2 marks

Water is recognised as having a high specific heat capacity. Explain how this allows aquatic habitats to maintain stable conditions. 

4b1 mark

Identify the property of water that allows it to form long, unbroken columns of water as it rises up xylem vessels in plants as they transpire. 

4c3 marks

Inorganic ions play a vital role in biology. List three important inorganic ions that form part of biological systems. 

4d2 marks

Table 1 shows the roles of selected inorganic ions in biological systems. 

Table 1

Inorganic ion

Animal / Plant systems

Biological role(s)

Iron / Fe2+

Animal

Haemoglobin

 

Animal

Co-transport of glucose in the small intestine

 

Plant 

Constituent of chlorophyll

Phosphate / PO43-

Animal / plant

Important constituent of nucleotides

Use your knowledge of mineral ions in biology to complete the empty boxes in Table 1.

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5a1 mark

Name the inorganic ion that forms part of the important proteins, haemoglobin and cytochrome c.

5b2 marks

Identify two types of biological molecules in which phosphorus (phosphate) plays a role.

5c1 mark

State a way in which calcium ions (Ca2+) are used in biological systems. 

5d1 mark

Table 1 shows the concentrations of typical mineral ions in a sample of a person's blood plasma. 

Table 1

Mineral ion

Concentration in plasma 

/ mmol dm-3

Na+

142.0

K+

5.0

Mg2+

1.5

Calculate how many times more sodium ions there are compared to potassium ions in the blood. 

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1a4 marks

Water plays a very important role within the cytoplasm of cells. State two properties of water that make it an important part of the cytoplasm of cells. For each property, explain why this makes water important for the cytoplasm.

1b2 marks

Give two similarities between the processes by which inorganic ions and water molecules enter cells.

1c1 mark

The relatively high specific heat capacity of water is of great biological significance to organisms. Give one example of how this property is biologically important.

1d2 marks

With reference to bonding, explain how the relatively high specific heat capacity of water enables it to buffer temperature changes.

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2a2 marks

Name two products created when ATP is hydrolysed by water.

2b1 mark

Name the enzyme that catalyses the reaction between ATP and water.

2c3 marks

Cells hydrolyse ATP to provide energy for other reactions or to add phosphate to other substances, making them more reactive. However, ATP needs to be resynthesised. Describe how this occurs.

2d3 marks

Identify the structures labelled X, Y and Z that make up ATP in Figure 1.

Figure 1   

screenshot-2023-05-21-173301

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3a2 marks

Sodium ions are of great biological significance in living organisms. State the chemical formula for this ion and give one example of its biological importance.

3b4 marks

Name two other inorganic ions and for each one, give an example of their biological importance in a cell.

3c1 mark

Cubes of potato were placed in a solution containing sodium ions. The concentration of oxygen in air bubbled through the solution was changed and the rates of respiration and uptake of sodium ions were measured. The results are shown in Table 1.

Table 1

Concentration of oxygen / %

Rate of respiration / arbitrary units

Rate of uptake of sodium ions /

arbitrary units

3.8

43

54

15.6

56

76

24.7

62

87

32.9

89

90

Describe the link between oxygen concentration, rate of respiration and rate of uptake of sodium ions.

3d3 marks

Explain the link between oxygen concentration, rate of respiration and rate of uptake of sodium ions shown by the results in Table 1.

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4a4 marks

Give two properties of ATP that make it advantageous as an energy-storage molecule within a cell and two properties of ATP that make it advantageous as a source of energy for biological processes.

4b1 mark

Write an equation to show how adenosine triphosphate is synthesised from adenosine diphosphate.

4c2 marks

Humans continuously synthesise ATP. Explain why we need to do this

4d2 marks

If ATP solution is added to a strip of muscle tissue, the strip of muscle tissue shortens in length. Table 1 shows the results of a study in which increasing concentrations of ATP solution were added to strips of muscle of the same starting length. The strips of muscle were left for 10 minutes before the final length was recorded

Table 1

Concentration of ATP solution added to muscle tissue / arbitrary units

Final length of muscle tissue / mm

10

51

20

42

30

37

40

33

50

26

Explain the results shown by the data in Table 1.

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5a1 mark

Which properties (A, B, C) explain the ability of water to dissolve solutes?

Property A: Polarity of water molecules 

Property B: High specific heat capacity of water 

Property C: Hydrogen bonding

5b4 marks

Describe the properties of water that make it a useful component of blood.

5c2 marks

A group of students wanted to investigate the thermal properties of water. To do this,they poured hot water into two thin plastic cups and measured the rate of cooling of each cup. The sides of one cup were covered with tissue paper soaked in hot water. The sides of the other cup were left uncovered. The temperature of the water in each cup was recorded with a thermometer every 2 minutes for 10 minutes. The result are shown in the graph in Figure 1 below.

Figure 1

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Other than the starting temperature of the water, give two conditions that must be kept the same for each cup throughout the experiment.

5d4 marks

With reference to the thermal properties of water, explain how the experiment in part c) can demonstrate how humans respond to overheating.

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1a2 marks

Sucrose is formed from a molecule of glucose bonded to a molecule of fructose. Explain the role played by water in the synthesis and digestion of sucrose.

1b3 marks

Water is described as a polar molecule. Define the term ‘polar’ and describe how this property manifests itself in the structure of a water molecule. 

1c3 marks

Astronomers looking for evidence of life on other planets and moons often look for signs of water existing or having existed on those bodies. Use your knowledge of the properties of water to explain why. 

1d2 marks

Figure 1 shows the structures of water (H2O) and hydrogen sulfide (H2S). Oxygen and sulfur are both members of Group 6 of the Periodic Table. Those elements, and their compounds, have some analogous properties.

Figure 1

edited

Despite the structural similarities shown in Figure 1, there are several significant differences between the properties of the two molecules, as set out in Table 1.

Table 1

H2O

H2S

Boiling point 100°C

Boiling point -60°C

Non-toxic - necessary for life

Highly toxic

High electronegativity

Low electronegativity

Requires channel proteins to pass through cell membranes

Can easily diffuse through cell membranes

 Use your knowledge of the structure of water to explain the large differences in boiling points between water and hydrogen sulfide. 

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2a5 marks

The total volume of water on Earth is estimated to be  1.4 x 1021 dm3

The number of molecules in one mole of a substance (Avogadro’s number) is  6.02 x1023;

A teaspoon measures 5 cm3 of liquid;

The atomic mass of hydrogen is 1; the atomic mass of oxygen is 16;

1 cm3 of water has a mass of 1.0 g 

Calculate whether the number of water molecules in one teaspoon of water is greater than or less than the number of teaspoonfuls of water on Earth. Show your calculations to back up your claim. 

2b2 marks

Identify the components that condense together to form ATP

2c1 mark

A researcher carried out an experiment to examine the effect of substrate concentration on the activity of ATP hydrolase, which catalyses the hydrolysis of ATP. He dropped ATP solutions of varying concentrations onto fresh muscle tissue cut into narrow strips of 63 mm length. He measured the length of each strip of muscle tissue after 3 minutes. His results are shown in Figure 1

Figure 1

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Suggest why the strips of muscle in zero concentration ATP solution grew in length (by 2 mm), rather than contracted. Ignore sources of measurement error.

2d3 marks

Hydrolysis of a solution of ATP of concentration 0.1 mol dm-3 releases 3,050 J of energy per dm3. 58% of the energy released from the hydrolysis of ATP is released as heat; the remainder is used for muscle contraction. The researcher used 50 μl of ATP solution of concentration 8 x 10-6 mol dm-3 for one of the experiments of his investigation. Calculate the energy transferred to the muscle tissue in this experiment. 

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3a4 marks

Water has one of the highest known latent heat of vaporisation values of any substance.  Define this term and explain how water’s high value benefits organisms.   

3b3 marks

Aquatic habitats such as seas, oceans and large lakes often experience greater temperature stability than terrestrial ones. Use your knowledge of the properties of water to explain this phenomenon.  

3c2 marks

Describe and explain the structural feature of water that gives it the two properties  outlined in part (a) and (b).

3d3 marks

Most substances are denser as solids than in their liquid states. Use your knowledge of the structure of water to explain why water does not obey this rule. Explain the advantages to aquatic life that this provides.  

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4a2 marks

Outline the differences between adenine and adenosine.

4b2 marks

The level of ATP in cells can be used as a marker for the viability of tissue. ATP can be   assayed using an enzyme-controlled reaction that generates light in proportion to the concentration of ATP present in that tissue.  

Suggest why the level of ATP is a measure of cell viability.  

4c2 marks

Research has shown that the ratio of daily ATP usage in the human body to body mass is approximately 1:1. Considering that at any one moment, a human body will contain a total of approximately 100 g of ATP, account for the very large mass of ATP being consumed.  

4d2 marks

Glucose has an energy content of 917 kJ mol-1. In aerobic respiration, each glucose yields ATP, which has an energy content of 30.5 kJ mol-1, when hydrolysed to ADP and inorganic phosphate.  

Explain why the respiration of glucose transfers small amounts of energy into each ATP molecule. 

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5a1 mark

Inorganic ions play a vital role in many biological processes. Define the term, ‘inorganic ion’. 

5b2 marks

The pH inside a cell is a function of the hydrogen ion concentration [H+]. Describe the nature of this relationship and outline the consequences of a change in pH inside a cell.

5c6 marks

Figure 1 shows a porphyrin ring structure found in certain biological molecules. This structure can have an inorganic ion at its centre, which gives the molecule its unique function.

Figure 1

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Identify two inorganic ions that can associate with this kind of structure, and in each case, name the molecule and describe its function.  

5d5 marks

Describe the role of an inorganic ion required for the absorption of important food molecules in the small intestine. Name the substances concerned.

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