9700_s14_qp_42
A paper of Biology, 9700
Questions:
10
Year:
2014
Paper:
4
Variant:
2
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1
is an electron micrograph of a chloroplast from a maize leaf cell. X Y Z Indicate below which of X, Y or Z contains: transport proteins pigments A chloroplast also contains DNA. Suggest the functions of DNA in this organelle. Changes in the atmospheric carbon dioxide concentration, light intensity and temperature alter the rate of photosynthesis. These three factors directly affect different stages of photosynthesis. Complete the table below using a tick (✓) if the factor directly affects the stage or a cross (✗) if it does not affect the stage. factor stage ✓ or ✗ carbon dioxide concentration Calvin cycle photolysis light intensity Calvin cycle photolysis temperature Calvin cycle photolysis
13. Photosynthesis  →  13.1. Photosynthesis as an energy transfer process
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2
Myostatin is a protein that is produced in mammalian skeletal muscle cells. It circulates in the blood and acts on muscle tissue to slow down further differentiation and growth. In thoroughbred racehorses, a mutation involving the substitution of a single nucleotide has been identified in the MSTN gene which codes for myostatin. At the site of this mutation, the DNA nucleotide has either a cytosine (C) base or a thymine (T) base, giving race horses three possible genotypes for this mutation: CC, CT or TT. At two years of age, racehorses with the MSTN CC genotype have greater muscle mass than those with the TT genotype. Suggest an explanation for this difference. Racehorses that had won races of different distances were tested to determine their MSTN genotype. The results are shown in . genotype CC percentage of winners with each genotype 1.0 1.2 1.4 1.6 1.8 race distance / km 2.6 2.0 2.2 2.4 CT TT With reference to , describe the effect of the MSTN genotype on the ability of racehorses to win races of different lengths. Modern thoroughbred racehorses are the result of many years of artificial selection. Explain: what is meant by artificial selection how genetic tests for the MSTN genotype can help in the selective breeding of racehorses.
16. Inheritance  →  16.2. The roles of genes in determining the phenotype
17. Selection and evolution  →  17.2. Natural and artificial selection
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3
A group of membrane proteins which transport sugars out of cells have been identified and called SWEETs. They are found in the cell surface membranes of both animal and plant cells, including mammalian liver cells and rice mesophyll cells. Each SWEET is a protein with seven coiled regions which together make a pore through a membrane bilayer as shown in . coiled region Explain why, to enter or leave a cell, sugars need molecules such as SWEETS. Suggest how a SWEET is held within the membrane bilayer. The bacterium, Xanthomonas oryzae (Xoo), causes the disease known as bacterial leaf blight in rice plants. It infects the intercellular spaces of the leaves of the host plant. Then, by switching on SWEET genes in the mesophyll cells, it stimulates the secretion of glucose into the intercellular spaces. Several different recessive alleles have been found, in rice plants from different countries, which give resistance to bacterial leaf blight. All these alleles have a mutation in the promoter of the SWEET gene. The effect of Xoo on wild type and resistant rice plants is compared in . wild type rice Xoo secretes a chemical into the rice mesophyll cells chemical binds with promoter region of SWEET gene SWEET protein produced and inserted into cell surface membrane switches on SWEET gene glucose secreted into intercellular spaces Xoo multiplies resistant rice Xoo secretes a chemical into the rice mesophyll cells chemical cannot bind with mutated promoter region of SWEET gene number of Xoo cells remains low Using the information in , explain this resistance of rice plants to Xoo. Explain why it would be difficult to transfer this resistance into susceptible rice plants by genetic engineering. Explain why the presence of large numbers of Xoo in the intercellular air spaces of rice plants affects the ability of the plants to grow with their roots submerged in water.
12. Energy and respiration  →  12.2. Respiration
14. Homeostasis  →  14.2. Homeostasis in plants
19. Genetic technology  →  19.3. Genetically modified organisms in agriculture
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4
Collared lizards, Crotaphytus collaris, show variation in body length and running speed. shows a collared lizard. An investigation was carried out to find out whether body length and running speed affected the number of offspring that a male lizard sired . The lizards reproduce sexually, and females lay eggs after mating with males. A large number of male lizards was captured during the breeding season. For each lizard: • body length was measured • it was chased down a small race track and its fastest running speed over 1 m recorded • a blood sample was taken and DNA sequences at 10 different loci were analysed. The lizards were then released back into the place where they were captured, to allow mating to occur. Several weeks later, after the lizards’ eggs had hatched, as many young hatchlings as possible were captured. DNA testing was carried out on each hatchling to determine which male was the father. The results were used to determine the number of offspring sired by each of the male lizards in the first sample. Outline how DNA analysis can be carried out and then used to establish which male lizard sired each hatchling. shows the number of offspring sired plotted against the body length of the adult male lizards. shows the number of offspring sired plotted against the fastest running speed (sprint speed) of the adult male lizards. number of offspring sired 2.00 2.01 2.02 2.03 2.04 2.05 2.06 body length (log scale) number of offspring sired 0.40 0.45 0.50 0.55 0.60 0.65 0.70 sprint speed (log scale) With reference to and , describe the relationships between • body length and the number of offspring produced • sprint speed and the number of offspring produced. body length sprint speed Research has also shown that, in a population of collared lizards with varying leg lengths, those with longer hind legs are able to run faster. With reference to the results shown in , explain how, over time, this could lead to a change in the mean hind leg length in a population of collared lizards. Small islands often contain species of lizards that are not found on other islands or on the mainland. Explain how a population of collared lizards that became isolated on an island could evolve to form a new species.
17. Selection and evolution  →  17.3. Evolution
18. Classification, biodiversity and conservation  →  18.2. Biodiversity
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5
The hormone FSH (follicle stimulating hormone) plays important roles in the reproductive cycles of mammals. State the precise site of secretion of FSH. Certain cells in the ovaries and testes have receptors for FSH in their cell surface membranes. FSH can bind with these receptors, which triggers the cells to respond to the hormone. Mice were genetically modified so that they lacked functioning alleles of the gene that codes for the production of FSH receptors. Female mice without FSH receptors were sterile. They were found to have normal primary and secondary follicles in their ovaries, but no Graafian follicles or corpora lutea. Explain these observations. Spermatozoa were collected from male mice with and without FSH receptors. The mean number of spermatozoa per mouse was estimated. The percentage of spermatozoa that could swim actively was calculated. Table 5.1 shows the results. Table 5.1 male mice with FSH receptors male mice without FSH receptors mean number of spermatozoa per mouse 5.6 × 106 3.6 × 106 percentage of spermatozoa that could swim actively Discuss what these results suggest about the role of FSH in the development of spermatozoa in male mice.
14. Homeostasis  →  14.1. Homeostasis in mammals
15. Control and coordination  →  15.1. Control and coordination in mammals
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In mammals, the water potential of the blood is constantly monitored by osmoreceptor cells in the hypothalamus of the brain. When the water potential of the blood decreases, ADH (antidiuretic hormone) is produced by cells in the hypothalamus and released into the blood via an endocrine gland. Explain what is meant by the term water potential. Describe the effect on water potential of adding solute to a solution. State precisely where ADH is released into the blood. The decrease in the water potential of the blood is sometimes due to the loss of water from the body of a mammal. List two ways by which water may be lost from the body. Describe the action of ADH on the kidney. Diabetes insipidus is a condition caused by an inability to produce ADH or by the kidneys being unable to respond to ADH. Suggest symptoms that may be experienced by a person who has diabetes insipidus.
14. Homeostasis  →  14.1. Homeostasis in mammals
4. Cell membranes and transport  →  4.2. Movement into and out of cells
8. Transport in mammals  →  8.1. The circulatory system
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7
Neurofibromatosis (NF) is a genetically inherited condition in humans where tumours grow in the nervous tissue. One symptom, which can develop around the age of 20 years, is loss of sight due to tumours on the optic nerve. If one parent has NF, there is at least a 50% chance that his or her children will develop the condition, even if the other parent is unaffected. Complete the genetic diagram below to show how NF may be transmitted from parent to child. key to symbols parental phenotypes parent with NF unaffected parent parental genotypes gametes offspring genotypes offspring phenotypes Suggest how a person may develop NF when there is no family history of the condition. Suggest how a tumour on the optic nerve could prevent the transmission of nerve impulses to the brain.
19. Genetic technology  →  19.2. Genetic technology applied to medicine
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8
Adipose tissue is specialised connective tissue that functions as the major storage site for fat in the form of triglycerides. The human body contains two types of adipose tissue: white adipose tissue (WAT) and brown adipose tissue (BAT). • WAT is more common and is found under the skin and around some internal organs. • BAT is found in infants around the back and shoulders. • BAT is also found in adults but in relatively smaller quantities. • BAT cells contains more mitochondria than WAT cells. • BAT is involved in the maintenance of a constant blood temperature when the external environment is cold. Blood temperature in humans is maintained by a process called homeostasis. With reference to blood temperature, outline the main principles of homeostasis. Suggest why infants have relatively more BAT than adults. Mitochondria in BAT cells function differently from those in other cells during periods of cold environmental conditions. shows part of a mitochondrion in a BAT cell. cytosol outer membrane intermembrane space uncoupling protein 1 heat energy ATP ADP+Pi electron transport chain H+ H+ H+ H+ H+ H+ H NAD reduced NAD e– process 3 process 2 matrix process 1 B A Name structures A and B. A B Draw an arrow on to indicate the direction of the proton gradient that exists between the matrix and the intermembrane space. State the two processes, shown in , that will be more active during periods of cold external environmental conditions. State the by-product that is obtained as a result of processes 1 and 2. Suggest the main respiratory substrate for BAT cells.
14. Homeostasis  →  14.1. Homeostasis in mammals
8. Transport in mammals  →  8.1. The circulatory system
12. Energy and respiration  →  12.2. Respiration
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