9700_w24_qp_21
A paper of Biology, 9700
Questions:
6
Year:
2024
Paper:
2
Variant:
1
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1
Animal cells, plant cells and prokaryotic cells have similarities and differences in their structure. Table 1.1 lists five organelles found in cells. Complete Table 1.1 by placing a tick (3) to show whether the organelle is present in animal cells, plant cells and prokaryotic cells or a cross (✗) if the organelle is absent. Put a tick (3) or a cross (✗) in every box. The first row has been completed for you. Table 1.1 organelle cell type animal cells plant cells prokaryotic cells nucleus ✗ large permanent vacuole rough endoplasmic reticulum Golgi body centrioles shows a section through part of an epithelial cell found in the digestive system of an animal. The cell is specialised for absorption of digested food. P Q The structures labelled P and Q in are involved in the absorption of digested food. Name the structures labelled P. Explain how the organelle labelled Q in is involved in this process.
1. Cell structure  →  1.2. Cells as the basic units of living organisms
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In the mammalian circulatory system, red blood cells travel through different types of blood vessel as they pass from the heart to respiring tissues and back to the heart. shows the types of blood vessels through which red blood cells travel in the circulatory system. heart arteries capillaries veins Complete by writing the names of the missing types of blood vessels through which red blood cells travel. Water is the main component of blood. It has an important role in the transport of substances around the body. shows the ionic compound sodium chloride dissolving in water. Cl – Cl – Na+ Cl – Na+ Cl – Na+ Cl – Na+ Cl – Na+ Cl – Cl – Cl – Na+ Na+ Cl – Na+ Cl – Na+ Cl – Cl – Cl – Na+ Na+ Cl – Na+ Cl – Cl – Cl – H O diagram not to scale With reference to , explain how water acts as a solvent for sodium chloride. shows a Galapagos penguin, Spheniscus mendiculus, swimming in the water. Penguins are birds that live on land but spend a lot of time swimming underwater hunting for food. Penguins can remain underwater for up to twenty minutes. During this time they do not breathe but their tissues continue to respire. Haemoglobin in the red blood cells of penguins has a higher affinity for oxygen than haemoglobin in other birds that do not swim underwater. shows the oxygen dissociation curve for a bird that does not swim underwater. Draw a line on to suggest the position of the oxygen dissociation curve for penguin haemoglobin. Penguin haemoglobin is very sensitive to a decrease in pH caused by an increase in the carbon dioxide concentration in the blood. Explain how a decrease in pH affects penguin haemoglobin, and suggest how this helps the penguin to swim underwater for a long time. The heart rate of a penguin decreases while it is swimming underwater. Heart rate is regulated by a group of specialised cells in the wall of the right atrium. The activity of these cells is modified by nerve impulses. Name the group of specialised cells in the wall of the right atrium that regulates heart rate.
8. Transport in mammals  →  8.1. The circulatory system
8. Transport in mammals  →  8.2. Transport of oxygen and carbon dioxide
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is a photomicrograph of a transverse section through a region of the wall of the bronchus in the gas exchange system. J K Identify the tissues J and K shown in , and suggest how the wall of a bronchiole differs from the wall of the bronchus for these two tissues. J K difference Tuberculosis (TB) is an infectious disease that affects the human gas exchange system. The pathogen that causes TB secretes a protein that can be detected in saliva. Early diagnosis of TB is important in reducing the transmission of the pathogen. Scientists have developed a test strip for TB that uses monoclonal antibodies. Monoclonal antibodies are specific in their action. This test strip contains: • mobile monoclonal antibodies that bind to one part of the protein secreted by the pathogen • immobilised monoclonal antibodies. shows a simplified diagram of the test strip. 1 a sample pad where saliva is added to the test strip 2 area containing mobile monoclonal antibodies attached to tiny gold particles 3 test area containing immobilised monoclonal antibodies that bind to protein secreted by the pathogen that causes TB 4 control area 5 area where test strip can be held direction of flow of saliva through the test strip A sample of saliva is collected and put onto the sample pad in the test strip. The saliva moves up the test strip through area 2. The mobile monoclonal antibodies are attached to tiny gold particles. If these antibodies collect in test area 3, a gold line becomes visible on the test strip. A gold line that becomes visible in area 4 confirms that the test strip is working and that the results are valid. State the name of the pathogen that causes TB. Name the part of the monoclonal antibody that binds to the protein from the pathogen. Saliva is added to a test strip to test for the presence of the protein secreted by the TB pathogen. is a diagram showing some of the molecules in area 3 of the test strip when a positive result for TB is obtained. monoclonal antibody attached to a tiny gold particle protein secreted by the TB pathogen attached to two different monoclonal antibodies immobilised monoclonal antibody in area 3 attached to test line Use the information in to suggest and explain why this test is specific for TB. Area 4 contains different immobilised antibodies to those in area 3. The mobile monoclonal antibodies bound to tiny gold particles will bind to these immobilised monoclonal antibodies in area 4. If the test has functioned correctly, a gold line will be visible in area 4. Suggest how the structure of immobilised monoclonal antibodies in area 3 differs from the structure of the immobilised monoclonal antibodies in area 4. Vaccination is another way of reducing the transmission of infectious diseases such as TB. The BCG vaccine is used to help control the spread of TB. This vaccine contains a weakened strain of the pathogen that causes TB. The BCG vaccine stimulates the development of antigen-specific memory T-lymphocytes. Explain how memory T-lymphocytes provide protection from TB in a person who has been given a BCG vaccination. The bladder is the organ in the body used to store urine. When cells divide uncontrollably in the bladder, a tumour develops. This can lead to bladder cancer. The BCG vaccine has been used to treat bladder cancer. The BCG vaccine is introduced into the bladder. The tumour cells take up the weakened pathogens in the vaccine and act as antigen-presenting cells. Name the process used by the tumour cells to take up the weakened pathogens. Suggest how antigen presentation by tumour cells stimulates an immune response that leads to the destruction of the tumour cells.
11. Immunity  →  11.2. Antibodies and vaccination
2. Biological molecules  →  2.1. Testing for biological molecules
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shows the structure of sucrose, a disaccharide produced by plant cells. CH2OH CH2OH H H HO OH H HOCH2 H OH H H H OH HO H O O O Name the covalent bond that joins the two monomers in sucrose. Sucrose is hydrolysed by the enzyme sucrase in the human digestive system. The products of this hydrolysis reaction are the monosaccharides α-glucose and fructose. Complete the diagram to show the hydrolysis of sucrose to form α-glucose and fructose. CH2OH CH2OH H H HO OH H HOCH2 H OH H H H OH HO H O O O Plants transport sucrose from a source to a sink. is a scanning electron micrograph (SEM) of a transverse section through a plant tissue used to transport sucrose. X Name the structure labelled X in . A scientist carried out an experiment to study carbohydrate transport in the stem of a woody plant. shows a plan diagram of a transverse section of the stem studied by the scientist. The position of the xylem tissue in the stem is shown. outer stem tissues xylem tissue pith The scientist carried out a set of experiments using plants of the same species. Sucrose is a sweet-tasting sugar found in many foods. Some people become ill when they have sucrose in their diet. These people have a gene mutation in the gene coding for sucrase and cannot hydrolyse sucrose in the digestive system. Scientists studying the DNA of people with this condition identified a deletion mutation in the gene coding for sucrase. Suggest and explain why a person with this deletion mutation cannot digest sucrose.
2. Biological molecules  →  2.2. Carbohydrates and lipids
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Trypsin is an enzyme which catalyses the hydrolysis of casein, a protein found in milk. Milk that contains casein has a cloudy, white appearance. As the casein is hydrolysed by trypsin, the milk changes in appearance to a clear , colourless solution. A student carried out an experiment to investigate the effect of enzyme concentration on the rate at which trypsin hydrolyses casein. The student added a solution of trypsin to a sample of milk and recorded the time taken for the milk to become transparent. The student repeated the experiment with different concentrations of trypsin. All other variables were kept constant. shows the results from the experiment. When the concentration of trypsin increases from 2.0% to 4.0%, the time taken for the milk to become transparent decreases by 48%. Calculate the percentage decrease in the time taken for milk to become transparent when the concentration of trypsin increases from 0.25% to 0.5%. Write your answer to the nearest whole number. percentage decrease Explain the results shown in . Trypsin has the potential to be used in a wide range of industrial processes. The use of immobilised enzymes in industrial processes has many advantages. Scientists investigated the effect of temperature on the activity of trypsin immobilised on the surface of a material and trypsin free in solution. Table 5.1 shows the results of the investigation. Table 5.1 temperature / °C percentage of maximum activity of immobilised trypsin percentage of maximum activity of trypsin free in solution State a reason for the difference in percentage of maximum activity of immobilised trypsin and trypsin free in solution at 25 °C. Suggest and explain why the percentage of maximum activity of immobilised trypsin at 55 °C is higher than the percentage of maximum activity of trypsin free in solution at 55 °C.
3. Enzymes  →  3.2. Factors that affect enzyme action
3. Enzymes  →  3.1. Mode of action of enzymes
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shows a plant cell in a stage of mitosis. Some of the structures shown in contain DNA. Use a line labelled D on to indicate one of these structures. Name the stage of mitosis shown in . Colchicine is a chemical used by scientists to study mitosis. This chemical inhibits the organisation of the microtubules in prophase of mitosis. The cell shown in had not been treated with colchicine. Explain the evidence in that shows the cell had not been treated with colchicine.
5. The mitotic cell cycle  →  5.2. Chromosome behaviour in mitosis
5. The mitotic cell cycle  →  5.1. Replication and division of nuclei and cells
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