Table of Contents
BEST IELTS Academic Reading Test 230
IELTS ACADEMIC READING TEST 230 – PASSAGE – 2
IELTS ACADEMIC READING TEST – 230
READING PASSAGE – 2
The race to make spider silk
The strength, toughness, and elasticity of silk continue to fascinate scientists, who wonder what gives this natural material its unusual qualities. Finer than human hair, lighter than cotton, and ounce for ounce stronger than steel, silk is of special interest to materials researchers. They are trying to duplicate its properties and synthesise it for large-scale production. Silk holds the promise of wear-resistant shoes and clothes; stronger ropes, nets, seatbelts and parachutes; rustfree panels and bumpers for automobiles; improved sutures and bandages; artificial tendons and ligaments; supports for weakened blood vessels as well as bulletproof vests.
Many insects secrete silks of varying quality. Best known is the moth bombyx mori, whose caterpillar is commonly known as the silkworm. It spins its cocoon from a single thread between 300 and 900 metres long and has been used for centuries to make fine garments. But the focus of scientific attention today is on spider silk: tougher, stretchier, and more waterproof than silkworm strands. Spiders make as many as seven different types of silk, but one spider and two types of silk are at the centre of intense interest. The spider is the golden orb-weaving spider, nephila clavipes. Its two silks under investigation go by the evocative names ‘dragline’ and ‘capture’.
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Dragline is the silk which forms the frame for the wheel-shaped webs and enables the dangling spider to drop down and grab its prey. This silk exhibits a combination of strength and toughness unmatched by high-performance synthetic fibre.
Capture silk is the resilient substance at the centre of the web. To catch a speeding insect, it may stretch to almost three times its original length. Insects get entangled in the sticky web because the stretchiness of capture silk lets the web move back and forth after the insect hits it. If the web were stiff, the insect might just bounce off. Whereas dragline is stronger, capture silk is more flexible, five times more flexible in fact.
Because the orb weaver’s survival depends on its silk, some 400 million years of evolution have fine-tuned a remarkably tough and versatile material. Now, research groups all over the world are competing to spin the first artificial spider silk, a job that requires a three-step approach: to determine the fibre’s molecular architecture, to understand the genes that yield silk proteins, and then to learn how to spin the raw material into threads.
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The first two steps are well underway. The molecular structure for both dragline and capture silk is known and now researchers have cloned several genes for the silks and unravelled their protein structure.
The next step is to find hosts for the artificial genes. Plants and fungi, as well as bacteria, are being considered. If a hardy plant could express a dragline silk gene, silk proteins could eventually be harvested in large quantities, processed into a liquid, polymer, and spun in factories, A different experimental approach is to insert the web gene into goats in order to collect the protein from the goats’ milk. Goats are being used instead of the simpler and much cheaper bacteria, because the secret of the protein’s strength lies in how the molecules crosslink with one another.
When bacteria is used to make artificial web, the protein folds in a way that prevents it. from cross-linking properly, resulting in hard while lumps. The spider makes protein in a manner similar to the way mammals make milk, so the researchers hope that the protein made in the goats’ mammary glands will be able to cross-link properly. Once the protein is extracted from the goats’ milk, the next step is to find a way to spin it.
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Spiders make their silk in environmentally friendly ways. They process proteins from waterbased solutions which, from a manufacturing point of view, is very attractive. The process of making synthetic fibres like nylon, on the other hand, requires petroleum products or organic solvents and results in pollution. So bio-technologists arc motivated by both the practical and economic potential of generating artificial spider silk. Globally, as much as 60 per cent of the threads used to weave clothing come from natural fibre, including cotton, wool, and silk.
The aim is to offer substitutes for natural fibres that arc free of the problems of poor wash-wear performance: stretching, wrinkling arid shrinkage. They are seeking a better-than-natural alternative fibre for which there is a major market. Bio-inspired materials are providing a new frontier for the fibre business.
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Questions 15-19
Classify the following as relating to:
A. the silk of bombyx mori
B. dragline silk of nephila clavipes
C. capture silk of nephila clavipes
15. forms the framework of a web
16. most elastic silk
17. allows predator to drop quickly
18. single strand can be up to 900 metres long
19. strongest silk
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Questions 20-24
Do the following statements reflect the claims of the writer in the passage? Write:
YES – if the statement agrees with the views of the writer
NO – if the statement contradicts the views of the writer
NOT GIVEN – if it is impossible to say what the writer thinks about this
20. All spiders secrete silk.
21. Artificial genes for spider silk have been produced.
22. Spider silk protein occurs naturally in goats’ milk.
23. China is leading research efforts in the area of spider silk.
24. Spider silk is now being produced commercially.
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Questions 25-27
Using NO MORE THAN THREE WORDS from the passage for each answer, complete the following.
Comparison of Synthetic and Natural Fibres
• Main problem in the production of synthetic fibres:
(25)………
• 3 disadvantages of natural fibres:
(26)………
• Proportion of clothing made from natural fibre:
(27)………
ANSWERS ARE BELOW
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ANSWERS
15. B
16. C
17. B
18. A
19. B
20. NOT GIVEN
21. YES
22. NO
23. NOT GIVEN
24. NO
25. POLLUTION
26. STRETCHING, WRINKLING, SHRINKAGE
27. 60 PER CENT