Spider Silk Cuts Weight of Bridges IELTS Reading
Spider Silk Cuts Weight of Bridges IELTS Reading Academic
READING PASSAGE – 1
Spider Silk Cuts Weight of Bridges
A. Scientists have succeeded in copying the silk-producing genes of the Golden Orb Weaver spider and are using them to create a synthetic material which they believe is the model for a new generation of advanced bio-materials. The new material, bios ilk, which has been spun for the first time by researchers at DuPont, has an enormous range of potential uses in construction and manufacturing. ielts-reading.com
B. The attraction of the silk spun by the spider is a combination of great strength and enormous elasticity, which man-made fibres have been unable to replicate. On an equal-weight basis, spider silk is far stronger than steel and it is estimated that if a single strand could be made about 10m in diameter, it would be strong enough to stop a jumbo jet in flight. A third important factor is that it is extremely light. Army scientists are already looking at the possibilities of using it for lightweight, bulletproof vests and parachutes.
C. For some time, biochemists have been trying to synthesize the drag-line silk of the Golden Orb Weaver. The drag-line silk, which forms the radial arms of the web, is stronger than the other parts of the web and some biochemists believe a synthetic version could prove to be as important a material as nylon, which has been around for 50 years, since the discoveries of Wallace Carothers and his team ushered in the age of polymers.
D. To recreate the material, scientists, including Randolph Lewis at the University of Wyoming, first examined the silk-producing gland of the spider. ‘We took out the glands that produce the silk and looked at the coding for the protein material they make, which is spun into a web. We then went looking for clones with the right DNA,’ he says. ielts-reading
E. At DuPont, researchers have used both yeast and bacteria as hosts to grow the raw material, which they have spun into fibres. Robert Dorsch, DuPont’s director of biochemical development, says the globules of protein, comparable with marbles in an egg, are harvested and processed. ‘We break open the bacteria, separate out the globules of protein and use them as the raw starting material. With yeast, the gene system can be designed so that the material excretes the protein outside the yeast for better access,’ he says.
F. ‘The bacteria and the yeast produce the same protein, equivalent to that which the spider uses in the drag lines of the web. The spider mixes the protein into a water- based solution and then spins it into a solid fibred in one go. Since we are not as clever as the spider and we are not using such sophisticated organisms, we substituted manmade approaches and dissolved the protein in chemical solvents, which are then spun to push the material through small holes to form the solid fiber.’
G. Researchers at DuPont say they envisage many possible uses for a new biosilk material. They say that earthquake-resistant suspension bridges hung from cables of synthetic spider silk fibres may become a reality. Stronger ropes, safer seat belts, shoe soles that do not wear out so quickly and tough new clothing are among the other applications. Biochemists such as Lewis see the potential range of uses of biosilk as almost limitless. ‘It is very strong and retains elasticity; there are no man-made materials that can mimic both these properties. It is also a biological material with all the advantages that has over petrochemicals,’ he says.
H. At DuPont’s laboratories, Dorsch is excited by the prospect of new super-strong materials but he warns they are many years away. ‘We are at an early stage but theoretical predictions are that we will wind up with a very strong, tough material, with an ability to absorb shock, which is stronger and tougher than the man-made materials that are conventionally available to us,’ he says.
I. The spider is not the only creature that has aroused the interest of material scientists. They have also become envious of the natural adhesive secreted by the sea mussel. It produces a protein adhesive to attach itself to rocks. It is tedious and expensive to extract the protein from the mussel, so researchers have already produced a synthetic gene for use in surrogate bacteria.
Reading Passage 1 has nine paragraphs, A-l. Which paragraph contains the following information?
1. a comparison of the ways two materials are used to replace silk-producing glands
2. predictions regarding the availability of the synthetic silk
3. ongoing research into other synthetic materials
4. the research into the part of the spider that manufactures silk
5. the possible application of the silk in civil engineering
Complete the flow-chart below. Choose NO MORE THAN TWO WORDS from the passage for each answer.
Synthetic gene grown in (6) ________________ or (7) ________________
Globules of (8) ________________
Dissolved in (9) ________________
Passed through (10) ________________
To produce a solid fibre
Do the following statements agree with the information given in Reading Passage 1?
TRUE if the statement agrees with the information
FALSE if the statement contradicts the information
NOT GIVEN if there is no information on this
11. Bio silk has already replaced nylon in parachute manufacture.
12. The spider produces silk of varying strengths.
13. Lewis and Dorsch co-operated in the synthetic production of silk.
Spider Silk Cuts Weight of Bridges IELTS Reading Answers
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9. chemical solvents
10. (small) holes
12. not given
13. not given
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