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Context: It is estimated that some seven hundred million people, about half the world's adult population, are unable to read or write, and there are probably two hundred and fifty million more whose level is so slight that it is hardly called literacy . Recently the attack on illiteracy had been stepped up. A world plan has been drawn up by a committee of UNESCO experts in Paris, as part of the United Nations Development Decade ,and an international conference of the subject has also been held. UNESCO stresses that functional literacy is the aim. People must learn the basic skills of responsible citizenship, the ability of reading notices, newspapers, timetables, letters, price-lists to keep simple records and accounts, to select the importance of the information gathered, and to fill in the forms. The major areas of illiteracy are in Asia, Africa, and Central and South America. In Africa there are at least one hundred million illiterate people, which is eighty to eighty-five percent of the total population. In Europe the figure is about twenty-four million; most of them are in Sothern Europe, with Spain, Italy, Portugal, Yugoslavia heading the list (the United Kingdom has about seven hundred thousand). UNESGO is eager for each country in the world, poor or rich, to wipe out illiteracy.
Question: Which of the statements is true? | [
"the major areas of illiteracy are in asia, africa, and central and south america."
] | task469-99e6a9636c9a4a91891aa25d9de4a9eb | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: News @ 6 is the flagship evening newscast of People's Television Network in the Philippines, succeeding newscast Teledyaryo.
Question: What is the country News @ 6 is from? | [
"philippines"
] | task469-abf7a58e4b65450b8642cb7d267c2611 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The protein alpha-synuclein (ASYN) is thought to be involved in the development of dementia with Lewy bodies (DLB). Overexpression of ASYN has been linked to cellular toxicity and human disease, and in experimental models, chaperones such as heat shock proteins (HSPs) are protective against ASYN toxicity. We have assessed the abundance of mRNA for ASYN and chaperones and the abundance and solubility of the encoded proteins in temporal cortex from sporadic human DLB. We found a reduction of ASYN mRNA in DLB (44.9% of control). The abundance of the Triton-soluble fraction (bioavailable protein) was not altered, but there was an increase of the Triton-insoluble component (likely representing aggregates). We evaluated 3 chaperones: HSP70, HSP90, and HDJ1. HSP70 mRNA was increased in DLB, whereas the mRNAs for HSP90 and HDJ1 were unchanged. HSP70 accumulated in the Triton-soluble fraction, whereas HSP90 and HDJ1 proteins accumulated in the Triton-insoluble fraction. These observations suggest that sporadic DLB is not associated with overexpression of ASYN. Rather, the persistence of normal soluble ASYN protein levels, despite the reduction of its mRNA, suggests a primary defect in clearance of the protein. However, this reduced clearance cannot be attributed to a failure of chaperone expression, because their mRNA is unchanged or increased in the DLB brain.
Question: Which is the primary protein component of Lewy bodies? | [
"αsyn",
"α-synuclein",
"alpha-synuclein"
] | task469-21fb6f030e5f4f8b8828195dd38ecd6d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Rick Riker (Drake Bell) is an unpopular student at Empire High with his only friend Trey (Kevin Hart), living with his uncle Albert (Leslie Nielsen) and Aunt Lucielle (Marion Ross). His crush Jill Johnson (Sara Paxton), who hardly notices him, is dating Rick's bully Lance Landers (Ryan Hansen). Rick and Trey are then shown to be on a school trip to an animal research lab. In the lab Rick meets Lou Landers (Christopher McDonald) who coughs up blood because he is terminally ill. Dr. Strom, the head researcher at the lab, then shows his seven mutated dragonflies, though there are only six there because one has escaped which then bites Rick, and causes his neck to swell.The scene then goes to Rick's house where his Aunt Lucille and Uncle Albert are talking on the couch when Rick comes in. He is very sick, and throws up in a fish tank because of his illness and goes up to his room. Albert and Lucille believe Rick is acting strange, so Albert proceeds to talk to Rick. Rick then passes out from the bite.He wakes up the next morning, with a strange video sent to him from a man wanting to speak to him, later adding Rick as a friend on Facebook. Meanwhile, Lou Landers gets into a scientific accident, transforming into the Hourglass who feeds on human life. At a science fair, with a comically rude and mean-spirited Stephen Hawking who gets physically hurt throughout the film, Rick gets into mishaps, such as becoming stuck to water fountains. He then realizes he has superpowers such as the ability to walk on walls, has incredible strength, but cannot fly. He tests his strength in an alleyway, then decides to test how he can walk up walls. He climbs up and begins to break dance, then has a lie-down on the wall and a cat walks up the wall beside him. He then sees an old woman about to be hit by a truck in the road, and just as she is about to get hit he pushes her out of the way and the truck collides with him stopping it.After his heroic feat he is congratulated by passers-by, but as they are congratulating him he looks to his right and sees he has accidentally pushed the woman into a woodchipper and the dog she was holding the lead of up is slowly getting pulled up into the machine as well. Trey offers to become his sidekick, but Rick resigns. His Uncle and he have a brief fight, which reminds Rick when he was younger and rich with his parents who die in a spoof of Batman Begins. His father urges him to invest of all his money in, not Google, but Enron.Rick later watches the girl of his dreams, Jill, who leaves with Lance in his car. Rick wants a car, and he sets out to get money from the bank. He fails though, with no credit or payment.After his uncle is quickly injured, Rick is met by Xavier (Tracy Morgan) at his school for mutants ala X-Men. Rick is told to make a costume, which he does (and later improves), and he becomes known as the Dragonfly. He quickly becomes a sensation, until his fight with the Hourglass, who ends up cutting him with little hourglass blades. The Hourglass then escapes.Jill is then seen walking in an alleyway and is attacked by thugs, but the Dragonfly saves her. The two then try to kiss, but encounter difficulties as Dragonfly is hanging upside down. They eventually kiss for the first time, and Jill thanks him.The scene then goes to a Thanksgiving dinner at Rick's house. During Thanksgiving Landers visits the family (everyone is unaware he is Hourglass). He nearly catches Rick dressed as the Dragonfly, but later manages to figure out his secret identity.Just as Rick and Jill are about to fall in love, the Hourglass comes in and murders Aunt Lucille. After a comical funeral, Rick decides to throw in the towel as a superhero.Trey and Uncle Albert find Rick after the funeral
Question: What is Landers' other identity? | [
"the hourglass"
] | task469-fde40d07c56f40c885988f80219fb4ce | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The film was broadcast in 2004 on Indus TV Network in Pakistan & UAE and in 2005 on Zee TV UK & USA as part of film series 'Maa Aur Mamta', which consists of 13 films including Meharun Nisa.
Question: What was the year of Meharun Nisa? | [
"2004"
] | task469-b1fd83707a07475aa12e748455efd141 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Zombie cited American horror films The Texas Chain Saw Massacre (1974) and The Hills Have Eyes (1977) as influences on House of 1000 Corpses, as well as other films released during the 1970s.
Question: Which place is House of 1000 Corpses in? | [
"texas"
] | task469-0468440ac7e8430da1f13fba85100cd5 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Have you ever been to the ocean or eaten seafood? If you have, then youve probably encountered members of Phylum Mollusca. In addition to snails, mollusks include squids, slugs, scallops, and clams. You can see a clam in Figure 12.15. There are more than 100,000 known species of mollusks. Some mollusks are nearly microscopic. The largest mollusk, the colossal squid, may be as long as a school bus and weigh over half a ton! Watch this short video to see an amazing diversity of mollusks: . MEDIA Click image to the left or use the URL below. URL: Mollusks have a true coelom and complete digestive system. They also have circulatory and excretory systems. They have a heart that pumps blood, and organs that filter out wastes from the blood. You can see some other traits of mollusks in the garden snail in Figure 12.16. Like the snail, many other mollusks have a hard outer shell. It is secreted by special tissue called mantle on the outer surface of the body. The shell covers the top of the body and encloses the internal organs. Most mollusks have a distinct head region. The head may have tentacles for sensing the environment and grasping food. Mollusks generally have a muscular foot, which may be used for walking or other purposes. A unique feature of mollusks is the radula. This is a feeding organ with teeth made of chitin. It is located in front of the mouth in the head region. It can be used to scrape algae off rocks or drill holes in the shells of prey. You can see the radula of the sea slug in Figure 12.17. Mollusks reproduce sexually. Most species have separate male and female sexes. Fertilization may be internal or external, depending on the species. Fertilized eggs develop into larvae. There may be one or more larval stages. Each one is different from the adult stage. Mollusks live in most terrestrial, freshwater, and marine habitats. However, the majority of species live in the ocean. They can be found in both shallow and deep water and from tropical to polar latitudes. They have a variety of ways of getting food. Some are free-living heterotrophs. Others are internal parasites. Mollusks are also eaten by many other organisms, including humans. Annelids are segmented worms in Phylum Annelida. There are about 15,000 species of annelids. They range in length from less than a millimeter to more than 3 meters. To learn more about the amazing diversity and adaptations of annelids, watch this excellent video: [Link] MEDIA Click image to the left or use the URL below. URL: Annelids are divided into many repeating segments. The earthworm in Figure 12.18 is an annelid. You can clearly see its many segments. Segmentation of annelids is highly adaptive. Each segment has its own nerve and muscle tissues. This allows the animal to move very efficiently. Some segments can also be specialized to carry out particular functions. They may have special structures on them. For example, they might have tentacles for sensing or feeding, paddles for swimming, or suckers for clinging to surfaces. Annelids have a large coelom. They also have several organ systems. These include a: circulatory system; excretory system; complete digestive system; and nervous system, with a brain and sensory organs. Most annelids can reproduce both asexually and sexually. Asexual reproduction may occur by budding or fission. Sexual reproduction varies by species. Some species go through a larval stage before developing into adults. Other species grow to adult size without going through a larval stage. Annelids live in a diversity of freshwater, salt-water, and terrestrial habitats. They vary in what they eat and how they get their food. Some annelids, such as earthworms, eat soil and extract organic material from it. Annelids called leeches are either predators or parasites. Some leeches capture and eat other invertebrates. Others feed off the blood of vertebrate hosts. Annelids called polychaete worms live on the ocean floor. They may be filter feeders, predators, or scavengers. The amazing feather duster worm in Figure 12.19 is a polychaete that has a fan-like crown of
Question: ___mollusk feeding organ with teeth | [
"radula"
] | task469-83392e8dcc6745959e591e18fd331567 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Two functions of the female reproductive system are similar to the functions of the male reproductive system: producing gametes and secreting a major sex hormone. In the case of females, however, the gametes are eggs, and they are produced by the ovaries. The hormone is estrogen, which is the main sex hormone in females. Estrogen has two major roles: During adolescence, estrogen causes the changes of puberty. It causes the reproductive organs to mature. It also causes other female traits to develop. For example, it causes the breasts to grow and the hips to widen. During adulthood, estrogen is needed for a woman to release eggs from the ovaries. The female reproductive system has another important function, which is not found in males. It supports a baby as it develops before birth. It also gives birth to the baby at the end of pregnancy. The female reproductive organs include the ovaries, fallopian tubes, uterus, and vagina. These organs are shown in Figure 22.3, along with some other structures of the female reproductive system. Find each organ in the drawing as you read about it below. For a cartoon about the female reproductive system, watch this video: [Link] The two ovaries are small, oval organs on either side of the abdomen. Each ovary contains thousands of eggs. However, the eggs do not develop fully until a female has gone through puberty. Then, about once a month, an egg is released by one of the ovaries. The ovaries also secrete estrogen. The two fallopian tubes are thin tubes that are connected to the uterus and extend almost to the ovaries. The upper end of each fallopian tube has fingers (called fimbriae) that sweep an egg into the fallopian tube when it is released by the ovary. The egg then passes through the fallopian tube to the uterus. If an egg is fertilized, this occurs in the fallopian tube. The uterus is a hollow organ with muscular walls. The uterus is where a baby develops until birth. The walls of the uterus stretch to accommodate the growing fetus. The muscles in the walls contract to push the baby out during birth. The uterus is connected to the vagina by a small opening called the cervix. The vagina is a cylinder-shaped organ that opens to the outside of the body. The other end joins with the uterus. Sperm deposited in the vagina swim up through the cervix, into the uterus, and from there into a When a baby girl is born, her ovaries contain all of the eggs they will ever produce. But these eggs are not fully developed. They develop only after the female reaches puberty at about age 12 or 13. Then, just one egg develops each month until she reaches her 40s or early 50s. Human eggs are very large cells. In fact, they are the largest of all human cells. You can even see an egg without a microscope. Its almost as big as the period at the end of this sentence. Like a sperm cell, an egg cell is a haploid cell with half the number of chromosomes of other cells in the body. Unlike a sperm cell, the egg lacks a tail and contains a lot of cytoplasm. Egg production takes place in the ovaries. It occurs in several steps: 1. Before birth, special cells in the ovaries go through mitosis to make identical daughter cells. 2. The daughter cells then start to divide by meiosis. However, they go though only the first of the two cell divisions of meiosis at this time. They remain in that stage until the girl goes through puberty. 3. After puberty, an egg develops in an ovary about once a month. As you can see in Figure 22.4, the egg rests in a nest of cells called a follicle. The follicle and egg grow larger and go through other changes. 4. After a couple of weeks, the egg bursts out of the follicle and through the wall of the ovary. This is called ovulation. After ovulation occurs, the moving fingers of the nearby fallopian tube sweep the egg into the tube. Fertilization may occur if sperm reach the egg while it is
Question: An egg reaches the uterus through | [
"a fallopian tube."
] | task469-d2953df969e94bafbee98e1a814e6380 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: As the film begins, Daisy Duck is talking to a psychiatrist about an incident that occurred with her boyfriend, Donald. She recalls how they were walking through the park, passing by a skyscraper. On the 99th floor of the skyscraper is a potted flower, which falls and hits Donald on the head, knocking him out. When he comes to, he hears a voice in his head, telling him, "You are the greatest singer in the world." He gets up, and proceeds to croon "When You Wish upon a Star" in a Sinatra-like voice. Daisy is stunned, but Donald coldly glances at her as though he does not recognize her. At that moment, a theatrical agent sweeps Donald into his window, causing the flower on his head to fall at Daisy's feet.She takes the flower home, as a way to remember her lost love. She sees Donald everywhere, hawking products and on marquees-- he has become a major celebrity. She almost drives herself insane, but eventually hears that Donald is playing at the Music City Radio Hall. She decides to go see him, but is greatly hindered by a massive crowd. Many months pass, during which Daisy has no success at being able to see Donald.One night, as she is going home, she runs into Donald on the street. She grovels at Donald's feet, but only succeeds in getting a dime thrown at her. She then comes back to the present, where she is talking to the psychiatrist about what happened. The psychiatrist concludes that the hit on the head from the flower pot is what caused Donald to change so radically. He offers to help, but warns her that Donald will no longer be successful if he changes back to normal. Daisy is eager to have him back, though, so the psychiatrist tells her to put the flower in another pot and drop it on Donald's head somehow. She agrees to this plan.That night, as Donald is performing, Daisy slips into the building through the back door. She makes her way past a sleeping security guard, and climbs up into the rafters, where she drops the pot on Donald. It hits him on the head, and he quickly reverts to his regular voice. He is booed off the stage and thrown out of the building, where Daisy is waiting for him. He is thrilled to see her, asking, "Where have you been?" They kiss as the film irises out.
Question: The dilemma the doctor offers daisy is for Donald to lose either her or what? | [
"donald will no longer be successful"
] | task469-458aa61b898d4c2abe4eb0d0753fb84e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Successful people have developed habits leading to success. Those are the people you want to study and follow. Do what they do. Read what they read. If they are local, see if you can take them to lunch and ask questions. If not, get a hold of some of the things they have written about or listen to them. Most successful people enjoy the opportunity to coach people along and to help them become successful. It is their way of giving back. The trouble is that most people won't ask. They come up with excuses. They say to themselves, " I am not important enough for this person to talk to me." The successful people understand that life is a learning experience and it doesn't stop in school. They always strive( ,) to reach the next level. Life will always give you the results of your actions. Ask yourself what actions are you taking? What are you creating? You create what you think about. Willie Hooks calls it our h. a. b. e.'s. Our habits, attitudes, beliefs and expectations. Before starting any new habit we have to know what we want. So how do we permanently change our habits? Start your action plan. Put your plan together. What do I need to do first? Set my goals. Then next I would put a diet plan together. Then I would start an exercise program. You get the idea. Put a good solid plan together. So there it is in a nutshell. We have the power to change any bad habit that we don't like. Will it be easy? Probably not, but it might not be as hard as we think either. The hard part is to get started. Remember that these habit have been a part of us for a long time so don't expect miracles at first. Use the process described above and you cam overcome and change any habit that you want to change.
Question: What does h. a. b. e's stand for? | [
"habits, attitudes, beliefs and expectations."
] | task469-70e4cf369e764db487fdf3b34ad6c70f | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The Steelers stayed home for a 3-game home stand and for a Sunday Night duel against the Ravens. The Ravens scored first when Joe Flacco hooked up with Torrey Smith 35-yard TD pass to take a 7-0 lead for the only score of the first quarter. In the 2nd quarter, the Steelers managed to tie the game up when Ben Roethlisberger found Le'Veon Bell on a 5-yard TD pass for a 7-7 game. They eventually took the lead when Roethlisberger found Martavis Bryant on a 19-yard TD pass to make it a 14-7 game. The Ravens came within 4 as Justin Tucker kicked a 46-yard field goal to make it 14-10 game. However, the Steelers would manage to go ahead by 12 before halftime when Roethlisberger found Markus Wheaton on a 47-yard TD pass followed by a successful 2-point conversion for a 22-10 lead at halftime. After a scoreless 3rd quarter, the Steelers came out strong and went back to work in the 4th when Roethlisberger found Antonio Brown on a 54-yard TD pass making the score 29-10. The Ravens responded with a big play as Jacoby Jones ran a 108-yard kickoff return for a TD to make it a 29-17 game. Roethlisberger found Bryant again on an 18-yard TD pass to make the score 36-17. This was followed by the Ravens trying their hand at coming back when Flacco found Crockett Gillmore on a 1-yard TD pass (with a failed 2-point conversion) for a 36-23 score. But the Steelers were able to seal the game when Roethlisberger found Matt Spaeth on a 33-yard TD pass for a final score of 43-23. A week after passing for a franchise-record six touchdowns against Indianapolis, Roethlisberger duplicated the feat to lead Pittsburgh to its third consecutive win. The 12 touchdown passes over the last two games broke the NFL record of 11 set by Tom Flores for Oakland in the AFL in 1963 and matched by New England's Tom Brady in 2007.
Question: How many yards was the field goal in the second quarter? | [
"46-yard"
] | task469-c2b1f2eaecdd43b0a5a28df9a64b9e15 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: English is an important global language, but that doesn't mean it's easy to learn. Many experts have tried to make English easier for students to learn--but they weren't always successful. In 1930, Professor CK Ogden of Cambridge University invented Basic English. It had only 850 words (and just eighteen verbs) and Ogden said most people could learn it in just thirty hours. The problem was that people who learned Basic English could write and say simple messages, but they couldn't understand the answers in "real" English! It was also impossible to explain a word if it wasn't in the Basic English word list. For example, if you wanted a watermelon, you asked for "a large green fruit with the form of an egg, which has a sweet red inside and a good taste"! RE Zachrisson, a university professor in Sweden, decided that the biggest problem for learners of English was spelling, so he invented a language called Anglic. Anglic was similar to English, but with much simpler spelling. "Father" became "faadher", "new" became "nue' and "years" became "yeerz". Unfortunately for some students of English, Anglic never became popular. Even easier is the language which ships' captains use: it's called "Seaspeak". Seaspeak uses a few simple phrases for every possible situation. In Seaspeak, for example, you don't say, "I'm sorry what did you say?" or "I didn't understand, can you repeat that?" It's just "Say again." No more grammar! In the age of international communication through the Internet who knows? ... a new form of English might appear. A large number of the world's e-mails are in English and include examples of "NetLingo" like OIC (Oh, I see) and TTYL (Talk to you later). In another fifty years, English might not exist ... we will probably all speak fluent Internetish!
Question: According to Professor Zachrisson, what was the biggest problem for learners of English? | [
"spelling."
] | task469-4e60a8d7d5e7493cae1df0099c645575 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: In Week 8, the Bears donned their 1940s throwback uniforms against the Carolina Panthers, who had the worst record in the NFC. The Bears scored first on Matt Forte's 13-yard touchdown run, which would be countered by Justin Medlock's 34-yard field goal. The Panthers then took the lead on Louis Murphy's fumble recovery; Panthers quarterback Cam Newton ran with the ball, and lost the ball when Bears safety Major Wright tackled him at the 1-yard line. The ball rolled into the endzone, where Murphy recovered it. Medlock would then kick three more field goals, and by the fourth quarter, the Panthers led 19-7. The tide eventually turned when Panthers punter Brad Nortman shanked a 6-yard punt, and Jay Cutler hit Kellen Davis on a 12-yard touchdown pass with less than seven minutes left in the game. On the first play of the Panthers' next drive, Tim Jennings intercepted Newton and returned the pick 25 yards to regain the lead 20-19, after Cutler's two-point conversion passing attempt was intercepted. Medlock later kicked another field goal to reclaim the lead 22-20 with 2:27 left in the game. Cutler would lead the Bears downfield, and Gould kicked a 41-yard field goal as time expired to give Chicago the victory. The kick was Gould's tenth game-winning field goal, and the first since 2010.
Question: Who scored the first touchdown of the game? | [
"matt forte"
] | task469-fdf387d4eda14f53b1d39af5eb06e985 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The Clean Air Act of 1970 and the amendments since then have done a great job in requiring people to clean up the air over the United States. Emissions of the six major pollutants regulated by the Clean Air Act carbon monoxide, lead, nitrous oxides, ozone, sulfur dioxide, and particulates have decreased by more than 50%. Cars, power plants, and factories individually release less pollution than they did in the mid-20th century. But there are many more cars, power plants, and factories. Many pollutants are still being released and some substances have been found to be pollutants that were not known to be pollutants in the past. There is still much work to be done to continue to clean up the air. Reducing air pollution from vehicles can be done in a number of ways. Breaking down pollutants before they are released into the atmosphere. Motor vehicles emit less pollution than they once did because of catalytic converters (Figure 1.1). Catalytic converters contain a catalyst that speeds up chemical reactions and breaks down nitrous oxides, carbon monoxide, and VOCs. Catalytic converters only work when they are hot, so a lot of exhaust escapes as the car is warming up. Catalytic converters are placed on mod- ern cars in the United States. Making a vehicle more fuel efficient. Lighter, more streamlined vehicles need less energy. Hybrid vehicles have an electric motor and a rechargeable battery. The energy that would be lost during braking is funneled into charging the battery, which then can power the car. The internal combustion engine only takes over when power in the battery has run out. Hybrids can reduce auto emissions by 90% or more, but many models do not maximize the possible fuel efficiency of the vehicle. A plug-in hybrid is plugged into an electricity source when it is not in use, perhaps in a garage, to make sure that the battery is charged. Plug-in hybrids run for a longer time on electricity and so are less polluting than regular hybrids. Plug-in hybrids began to become available in 2010. Developing new technologies that do not use fossil fuels. Fueling a car with something other than a liquid organic-based fuel is difficult. A fuel cell converts chemical energy into electrical energy. Hydrogen fuel cells harness the energy released when hydrogen and oxygen come together to create water (Figure 1.2). Fuel cells are extremely efficient and they produce no pollutants. But developing fuel-cell technology has had many problems and no one knows when or if they will become practical. Pollutants are removed from the exhaust streams of power plants and industrial plants before they enter the atmo- sphere. Particulates can be filtered out, and sulfur and nitric oxides can be broken down by catalysts. Removing these oxides reduces the pollutants that cause acid rain. Particles are relatively easy to remove from emissions by using motion or electricity to separate particles from the gases. Scrubbers remove particles and waste gases from exhaust using liquids or neutralizing materials (Figure 1.3). Gases, such as nitrogen oxides, can be broken down at very high temperatures. A hydrogen fuel-cell car looks like a gasoline-powered car. Scrubbers remove particles and waste gases from exhaust. Gasification is a developing technology. In gasification, coal (rarely is another organic material used) is heated to extremely high temperatures to create syngas, which is then filtered. The energy goes on to drive a generator. Syngas releases about 80% less pollution than regular coal plants, and greenhouse gases are also lower. Clean coal plants do not need scrubbers or other pollution control devices. Although the technology is ready, clean coal plants are more expensive to construct and operate. Also, heating the coal to high enough temperatures uses a great deal of energy, so the technology is not energy efficient. In addition, large amounts of the greenhouse gas CO2 are still released with clean coal technology. Nonetheless, a few of these plants are operating in the United States and around the world. How can air pollution be reduced? Using less fossil fuel is one way to lessen pollution. Some examples of ways to conserve fossil fuels are: Riding a bike or walking instead of driving
Question: these help to remove particles and waste gases from exhaust using liquids or neutralizing materials. | [
"scrubbers"
] | task469-2b511a00bde14a44a7a5611dffa33dec | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Pancreatic ductal adenocarcinoma (PDAC) is one of the most lethal cancers worldwide. Despite significant progresses in the last decades, the origin of this cancer remains unclear and no efficient therapy exists. PDAC does not arise de novo: three remarkable different types of pancreatic lesions can evolve towards pancreatic cancer. These precursor lesions include: Pancreatic intraepithelial neoplasia (PanIN) that are microscopic lesions of the pancreas, Intraductal Papillary Mucinous Neoplasms (IPMN) and Mucinous Cystic Neoplasms (MCN) that are both macroscopic lesions. However, the cellular origin of these lesions is still a matter of debate. Classically, neoplasm initiation or progression is driven by several genetic and epigenetic alterations. The aim of this review is to assemble the current information on genetic mutations and epigenetic disorders that affect genes during pancreatic carcinogenesis. We will further discuss the interest of the genetic and epigenetic alterations for the diagnosis and prognosis of PDAC. Large genetic alterations (chromosomal deletion/amplification) and single point mutations are well described for carcinogenesis inducers. Mutations classically occur within key regions of the genome. Consequences are various and include activation of mitogenic pathways or silencing of apoptotic processes. Alterations of K-RAS, P16 and DPC4 genes are frequently observed in PDAC samples and have been described to arise gradually during carcinogenesis. DNA methylation is an epigenetic process involved in imprinting and X chromosome inactivation. Alteration of DNA methylation patterns leads to deregulation of gene expression, in the absence of mutation. Both genetic and epigenetic events influence genes and non-coding RNA expression, with dramatic effects on proliferation, survival and invasion. Besides improvement in our fundamental understanding of PDAC development, highlighting the molecular alterations that occur in pancreatic carcinogenesis could provide new clinical tools for early diagnosis of PDAC and the molecular basis for the development of new effective therapies.
Question: Which is the molecular mechanism underlying K-ras alterations in carcinomas? | [
"point mutations"
] | task469-9287b712f62544f9a9aaf54bc918b302 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: As of the 2010 United States Census, there were 1,951,269 people, 715,365 households, and 467,916 families residing in the county. The population density was . There were 840,343 housing units at an average density of . The racial makeup of the county was 60.9% white, 10.5% black or African American, 8.7% Asian, 0.7% Pacific islander, 0.7% American Indian, 13.5% from other races, and 5.1% from two or more races. Those of Hispanic or Latino origin made up 29.1% of the population. In terms of ancestry, 11.7% were Germans, 9.1% were Irish people, 7.6% were English people, 6.3% were Italians, and 2.7% were Americans.
Question: Which group in percent is smaller for the county according to the census: Germans or Irish? | [
"irish"
] | task469-eaff31a56a704bf0aef08d0d952b2931 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The median age in the city was 35.1 years. 24.2% of residents were under the age of 18; 7.9% were between the ages of 18 and 24; 33.8% were from 25 to 44; 24.6% were from 45 to 64; and 9.5% were 65 years of age or older. The gender makeup of the city was 48.6% male and 51.4% females.
Question: Which age group is smaller: 25 to 44 or 45 to 64? | [
"45 to 64"
] | task469-d8d28a9939574725bae1ae2c8c90530a | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: OPS 5112 was launched at 10:34 UTC on 13 May 1978, atop an Atlas E/F carrier rocket with an SGS-1 upper stage.
Question: On what date did OPS 5112 launch? | [
"13 may 1978"
] | task469-332680e9966b4622a751810c8769dd84 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: One of the biggest new bands in the UK is Arctic Monkeys.Their first two singles went straight to Number One in the charts and their first album "Whatever People Say I Am,That's what I'm No" has become a recordbreaking album.It's the fastest selling debut album in UK chart history. Arctic Monkeys are famous because of their great success.They achieved their success thanks to the Internet.Usually a new band signs to a record company and then it is through marketing that people buy their singles.The single sales then get the band into the charts and they become popular that way. However,Arctic Monkeys became wellknown in a slightly different way.Back in 2003 when the band first started,they handed out CDs at their performing concert.Certain fans liked the music so much that they put the music up on the Web.The general public had access to this music because it was on the Internet and,because people liked the music,the band's popularity increased.The band's popularity was starting to get noticed by major radio stations in the UK. Arctic Monkeys released their first single in October 2005.Before that,their music had only been available to download on the Internet.When they did finally release a single and an album,they both rose to the top of the charts. Music fans welcome the use of the Internet this way--Arctic Monkeys became popular simply because people liked their music when they heard it.There were no ads.As music downloads continue to increase in popularity,we can expect to see more and more bands make it big in this way.
Question: Why did Arctic Monkeys become popular? | [
"people liked their music."
] | task469-c79ebb0451494aa7a5ee5193170f1cf4 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: New England, the late 1950s. Todd Anderson (Ethan Hawke), a lonely and painfully shy teenager, who is under pressure by his stern parents because he must live up to his older brother's reputation to attend Yale and become a lawyer, arrives for the new semester at the Welton Academy for boys -- Todd's brother also attended Welton and was a popular and well-regarded student there. This semester begins during an orientation gathering with a speech given by the stern Headmaster Nolan (Norman Lloyd), who states the academy's four pillars: Tradition, Honor, Discipline, and Excellence. Todd meets Neil Perry (Robert Sean Leonard) an ambitious student whom becomes his dorm roommate.Later in his dorm, Neil is ordered by his grumpy and domineering father (Kurtwood Smith) to drop his involvement with the school annual in order to maintain good grades so the boy may become a doctor much as he has done. Neil is under pressure from his stern father's will. Also, Mr. Perry tells Neil that Mrs. Perry also wants him to become a doctor, which further worries the boy. A little later, Todd tells Neil that he is in a similar situation with his parents involving his older brother who also attended Welton a few years ago, graduated, and attended Yale Law School and became a lawyer and his parents want the exact same thing for him. But Todd does not have the courage to tell his parents that he instead wants to be a writer, not a lawyer.During the first day of classes Todd and Neil experience the various teaching methods which include speeches by the trig teacher, as well as the Latin teacher, and the math teacher who states that "all 20 questions at the end of the first chapter are due tomorrow". In stark contrast to these orthodox teaching methods, the guys see a different side of the school when they attend English class taught by the newly arrived (and liberal-minded) Mr. Keating (Robin Williams), whom they met briefly during the orientation -- Keating tells his class he was also a student at Welton ("Helton" as the students secretly refer to the institution) himself many years ago. Keating enters his class whistling the 1812 Overture, and he first takes the boys out in the hallway to the school's displays cases containing artifacts of the school's sports achievements. He tells them that they all have the potential to become powerful individuals, and they are responsible for what their futures will hold. These two actions show his difference from the other teachers because no other teacher would commit the actions he does. Also, he tells the boys they may call him "Oh Captain, my Captain", if they dare. These examples of Mr. Keating's teachings show the boys how to think for themselves. Mr. Keating then tells the boys "Carpe Diem", which is Latin for "seize the day".In addition to Todd and Neil, a small group of other students whom include the lovesick Knox Overstreet (Josh Charles), the flip Charlie Dalton (Gale Hansen), the pragmatic Richard Cameron (Dylan Kussman), liberal Steven Meeks (Allelon Ruggiero) and the moderate Gerard Pitts (James Waterston), also react to the first day's lesson with comments from "that was weird" to "neat". Cameron asks if anything Keating told them will be on a future test and the boys respond with mild scorn.The next day Keating starts the class with a traditional teaching approach by having Neil read out loud the introduction to their poetry textbook, which describes how to rate the quality of poetry according to mathematical plotting. Keating finds such mathematical criticism ridiculous and instructs his pupils to rip out the essay which is one of three ways that he demonstrates freedom of expression and non-conformity. When some students hesitate, he tells them "this is not the Bible. This is a battle, a war. You will have to learn to think for yourselves." He later has the students stand on his desk as a reminder to look at the world in a different way.A few days later, Knox Overstreet is asked to attend a dinner party at the Danburry
Question: Who helps Todd come out of his shell? | [
"mr. keating"
] | task469-1170ac5a783f4020946a75b1ce0ee56d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Sipho Sibiya Riopel (also known as Siphos Sibya) is a retired South African-Canadian soccer player who is an assistant coach with the Vancouver Whitecaps women's team.
Question: What was the name of Sipho Sibiya's team? | [
"vancouver whitecaps"
] | task469-9c66d33a84234f0e88e0105c7b99d589 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The Beijing Railway Station opened in 1959 and was the largest train station in China at the time.
Question: When was Beijing Railway Station started? | [
"1959"
] | task469-61c848a79f7c40369cf50a54d56ac226 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: In the Atlantic, the West India Company concentrated on wresting from Portugal its grip on the sugar and slave trade, and on opportunistic attacks on the Spanish treasure fleets on their homeward bound voyage. Bahia on the north east coast of Brazil was captured in 1624 but only held for a year before it was recaptured by a joint Spanish-Portuguese expedition. In 1628, Piet Heyn captured the entire Spanish treasure fleet, and made off with a vast fortune in precious metals and goods that enabled the Company two years later to pay its shareholders a cash dividend of 70%, though the Company was to have relatively few other successes against the Spanish. In 1630, the Dutch occupied the Portuguese sugar-settlement of Pernambuco and over the next few years pushed inland, annexing the sugar plantations that surrounded it. In order to supply the plantations with the manpower they required, a successful expedition was launched in 1637 from Brazil to capture the Portuguese slaving post of Elmina, and in 1641 successfully captured the Portuguese settlements in Angola. In 1642, the Dutch captured the Portuguese possession of Axim in Africa. By 1650, the West India Company was firmly in control of both the sugar and slave trades, and had occupied the Caribbean islands of Sint Maarten, Curacao, Aruba and Bonaire in order to guarantee access to the islands' salt-pans.
Question: What did Piet Heyn get? | [
"vast fortune in precious metals"
] | task469-2f4696c82f7d4e59bf9626fc72ab8c33 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Carbon is a nonmetal in group 14 of the periodic table. Like other group 14 compounds, carbon has four valence electrons. Valence electrons are the electrons in the outer energy level of an atom that are involved in chemical bonds. The valence electrons of carbon are shown in Figure 9.1. Because it has four valence electrons, carbon needs four more electrons to fill its outer energy level. It can achieve this by forming four covalent bonds. Covalent bonds are chemical bonds that form between nonmetals. In a covalent bond, two atoms share a pair of electrons. By forming four covalent bonds, carbon shares four pairs of electrons, thus filling its outer energy level. A carbon atom can form bonds with other carbon atoms or with the atoms of other elements. Carbon often forms bonds with hydrogen. You can see an example in Figure 9.2. The compound represented in the figure is methane (CH4 ). The carbon atom in a methane molecule forms bonds with four hydrogen atoms. The diagram on the left shows all the shared electrons. The diagram on the right represents each pair of shared electrons with a dash (). This type of diagram is called a structural formula. Carbon can form single, double, or even triple bonds with other carbon atoms. In a single bond, two carbon atoms share one pair of electrons. In a double bond, they share two pairs of electrons, and in a triple bond they share three pairs of electrons. Examples of compounds with these types of bonds are shown in Figure 9.3. Because of carbons ability to form so many covalent bonds, it often forms polymers. A polymer is a large molecule that consists of many smaller molecules joined together by covalent bonds. The smaller molecules are called monomers. (The prefix mono means "one," and the prefix poly means "many.") Polymers may consist of just one type of monomer or of more than one type. Polymers are a little like the strings of beads in Figure 9.4. What do the individual beads represent? Many polymers occur naturally. You will read about natural polymers in this chapters "Hydrocarbons" and "Carbon and Living Things" lessons. Other polymers are synthetic. This means that they are produced in labs or factories. Synthetic polymers are created in synthesis reactions in which monomers bond together to form much larger compounds. Plastics are examples of synthetic polymers. The plastic items in Figure 9.5 are all made of polythene (also called polyethylene). It consists of repeating monomers of ethene (C2 H4 ). To learn more about polymers and how they form, go to this URL: (2:13). Exploratorium Staff Scientist Julie Yu changes and manipulates the physical and chemical properties of plastic bottles by exposing them to heat. This is how plastic bags and bottles can be recycled and used over and over again. For more information on properties of plastic, see [Link] MEDIA Click image to the left or use the URL below. URL: Pure carbon can exist in different forms, depending on how its atoms are arranged. The forms include diamond, graphite, and fullerenes. All three forms exist as crystals, but they have different structures. Their different structures, in turn, give them different properties. You can learn more about them in Table 9.1. atoms affect the properties of the substances formed? Structure Diamond crystal Description Diamond Diamond is a form of carbon in which each carbon atom is bonded to four other carbon atoms. This forms a strong, rigid, three- dimensional structure. Diamond is the hardest natural substance. It is used for cutting and grinding tools as well as for rings and other pieces of jewelry. Graphite Graphite is a form of carbon in which carbon atoms are arranged in layers. Bonds are strong between carbon atoms within each layer but relatively weak between atoms in different layers. The weak bonds between layers allow the layers to slide over one another. This makes graphite relatively soft and slippery. It is used as a lubricant. It also makes up the "lead" in pencils. Fullerene A fullerene (also called a bucky- ball) is a form of carbon in which carbon atoms are arranged in
Question: form of carbon that it is the hardest natural substance | [
"diamond"
] | task469-74b8560a48cd4b29be43208a2c64bb63 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: With transform plate boundaries, the two slabs of lithosphere are sliding past each other in opposite directions. The boundary between the two plates is a transform fault. Transform faults on continents separate two massive plates of lithosphere. As they slide past each other, they may have massive earthquakes. The San Andreas Fault in California is perhaps the worlds most famous transform fault. Land on the west side is moving northward relative to land on the east side. This means that Los Angeles is moving northward relative to Palm Springs. The San Andreas Fault is famous because it is the site of many earthquakes, large and small. (Figure At the San Andreas Fault in California, the Pacific Plate is sliding northeast relative to the North American plate, which is moving southwest. At the northern end of the picture, the transform boundary turns into a subduction zone. Transform plate boundaries are also found in the oceans. They divide mid-ocean ridges into segments. In the diagram of western North America, the mid-ocean ridge up at the top, labeled the Juan de Fuca Ridge, is broken apart by a transform fault in the oceans. A careful look will show that different plates are found on each side of the ridge: the Juan de Fuca plate on the east side and the Pacific Plate on the west side.
Question: over millions of years, which direction would you find los angeles in relation to where it is now? | [
"north"
] | task469-66d461af11134be0915ec4b3d49b3971 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Brink (Sir Cedric Hardwicke) has recently taken Pud's (Bobs Watson) parents in an auto wreck. Brink later comes for Gramps (Lionel Barrymore). Believing Brink to be an ordinary stranger, the crotchety old Gramps orders Mr. Brink off the property. Pud comes out of the house and asks who the stranger was. Gramps is surprised and relieved that someone else could see the stranger; he was not merely a dream or apparition. Pud tells Gramps that when he does a good deed, he will be able to make a wish. Because his apples are constantly being stolen, Gramps wishes that anyone who climbs up his apple tree will have to stay there until he permits them to climb down. Pud inadvertently tests the wish when he has trouble coming down from the tree himself, becoming free only when Gramps says he can. Pud's busybody Aunt Demetria (Eily Malyon) has designs on Pud and the money left him by his parents. Gramps spends much time fending off her efforts to adopt the boy. Brink takes Granny Nellie (Beulah Bondi) in a peaceful death just after she finishes a bit of knitting. When Mr. Brink returns again for Gramps, the old man finally realizes who his visitor is. Determined not to leave Pud to Demetria, Gramps tricks Mr. Brink into climbing the apple tree. While stuck in the tree, he cannot take Gramps or anyone else. The only way anyone or anything can die is if they touch Mr. Brink or the apple tree. Demetria plots to have Gramps committed to a psychiatric hospital when he claims that Death is trapped in his apple tree. Gramps proves his story first by proving that his doctor, Dr. Evans (Henry Travers), can not even kill a fly they have captured. He offers further proof of his power by shooting Mr. Grimes (Nat Pendleton), the orderly who has come to take him to the asylum; Grimes lives when he should have died. Dr. Evans is now a believer, but he tries to convince Gramps to let Death down so people who are suffering can find release. Gramps refuses, so the doctor arranges for the local sheriff to commit Gramps while Pud is delivered to Demetria's custody. With the help of his housekeeper (Una Merkel), Gramps tricks both of them into believing they are scheduled to go with Mr. Brink when he comes down from the tree. They beg Gramps to convince Brink otherwise, and Demetria vows never to bother Gramps or Pud again. Gramps realizes that sooner or later he will have to let Brinks downDeath is an ultimately unavoidable part of life. He tries to say goodbye to Pud, who reacts angrily and tries to run away. Mr. Brink sees Pud in the yard and dares him to climb the tree. Pud gets over the fence Gramps has had built around the tree, but falls and is crippled for life. Distraught, Gramps lets Death down from the tree. He takes both Gramps and Pud, who find they can walk again. In the final scene, they walk together up a beautiful country lane and hear Granny Nellie calling to them from beyond a brilliant light.
Question: What did he have to do to get the wish? | [
"a good deed"
] | task469-3c9743ab9b234befba24f5d92224f667 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: All rocks on Earth change, but these changes usually happen very slowly. Some changes happen below Earths surface. Some changes happen above ground. These changes are all part of the rock cycle. The rock cycle describes each of the main types of rocks, how they form and how they change. Figure 4.1 shows how the three main rock types are related to each other. The arrows within the circle show how one type of rock may change to rock of another type. For example, igneous rock may break down into small pieces of sediment and become sedimentary rock. Igneous rock may be buried within the Earth and become metamorphic rock. Igneous rock may also change back to molten material and re-cool into a new igneous rock. Rocks are made of minerals. The minerals may be so tiny that you can only see them with a microscope. The minerals may be really large. A rock may be made of only one type of mineral. More often rocks are made of a mixture of different minerals. Rocks are named for the combinations of minerals they are made of and the ways those minerals came together. Remember that different minerals form under different environmental conditions. So the minerals in a rock contain clues about the conditions in which the rock formed (Figure 4.2). Geologists group rocks based on how they were formed. The three main kinds of rocks are: 1. Igneous rocks form when magma cools below Earths surface or lava cools at the surface (Figure 4.3). 2. Sedimentary rocks form when sediments are compacted and cemented together (Figure 4.4). These sediments may be gravel, sand, silt or clay. Sedimentary rocks often have pieces of other rocks in them. Some sedimentary rocks form the solid minerals left behind after a liquid evaporates. 3. Metamorphic rocks form when an existing rock is changed by heat or pressure. The minerals in the rock change but do not melt (Figure 4.5). The rock experiences these changes within the Earth. Rocks can be changed from one type to another, and the rock cycle describes how this happens. Any type of rock can change and become a new type of rock. Magma can cool and crystallize. Existing rocks can be weathered and eroded to form sediments. Rock can change by heat or pressure deep in Earths crust. There are three main processes that can change rock: Cooling and forming crystals. Deep within the Earth, temperatures can get hot enough to melt rock. This molten material is called magma. As it cools, crystals grow, forming an igneous rock. The crystals will grow larger if the magma cools slowly, as it does if it remains deep within the Earth. If the magma cools quickly, the crystals will be very small. Weathering and erosion. Water, wind, ice, and even plants and animals all act to wear down rocks. Over time they can break larger rocks into smaller pieces called sediments. Moving water, wind, and glaciers then carry these pieces from one place to another. The sediments are eventually dropped, or deposited, somewhere. The sediments may then be compacted and cemented together. This forms a sedimentary rock. This whole process can take hundreds or thousands of years. Metamorphism. This long word means to change form. A rock undergoes metamorphism if it is exposed to extreme heat and pressure within the crust. With metamorphism, the rock does not melt all the way. The rock changes due to heat and pressure. A metamorphic rock may have a new mineral composition and/or texture. An interactive rock cycle diagram can be found here: The rock cycle really has no beginning or end. It just continues. The processes involved in the rock cycle take place over hundreds, thousands, or even millions of years. Even though for us rocks are solid and unchanging, they slowly change all the time.
Question: The rock called limestone forms when shells of sea organisms settle to the bottom of the water and gradually become pressed and cemented together. Which type of rock is limestone? | [
"sedimentary"
] | task469-1c51f99b40794dc0b43520e38b308828 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Neurofibromatosis type 1 (NF1) is characterized primarily by tumor formation in the nervous system, but patients report other neurological complications including pain and itch. Individuals with NF1 harbor 1 mutated NF1 allele causing heterozygous expression in all of their cells. In mice, Nf1 heterozygosity leads to hyperexcitability of sensory neurons and hyperproliferation of mast cells, both of which could lead to increased hypersensitivity and scratching in response to noxious and pruritic stimuli. To determine whether Nf1 heterozygosity may increase pain and itch behaviors independent of secondary effects of tumor formation, we used mice with a targeted, heterozygous Nf1 gene deletion (Nf1) that lack tumors. Nf1 mice exhibited normal baseline responses to thermal and mechanical stimuli. Moreover, similar to wild-type littermates, Nf1 mice developed inflammation-induced heatand mechanical hypersensitivity, capsaicin-induced nocifensive behavior, histamine-dependent or -independent scratching, and chronic constriction injury-induced cold allodynia. However, Nf1mice exhibited an attenuated first phase of formalin-induced spontaneous behavior and expedited resolution of formalin-induced heat hypersensitivity. These results are not consistent with the hypothesis that Nf1 heterozygosity alone is sufficient to increase pain and itch sensation in mice, and they suggest that additional mechanisms may underlie reports of increased pain and itch in NF1 patients. This study assessed whether Nf1 heterozygosity in mice increased hypersensitivity and scratching following noxious and pruritic stimuli. Using Nf1 mice lacking tumors, this study finds no increases in pain or itch behavior, suggesting that there is no predisposition for either clinical symptom solely due to Nf1 heterozygosity.
Question: Which is the gene mutated in type 1 neurofibromatosis? | [
"nf1"
] | task469-243261e55e2d4fbfa576f3ff6cabb380 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The Packers' utter dominance continued with another overwhelming performance over another NFC power, the Eagles. Aaron Rodgers broke Tom Brady's mark of 288 passes at home without being intercepted. The Green Bay quarterback set several other records for passing at home, including an NFL-record 29 straight touchdown passes without an interception. The Packers scored touchdowns on all three parts of the team, offense, defense, and special teams. Julius Peppers returned an interception for a touchdown, his second of the year, and Micah Hyde returned a punt for a touchdown. The Packers got going from the very beginning. They drove 75 yards on their opening drive, but had to settle for a 27-yard field goal by Crosby. After an Eagles' punt, the Packers marched on a 13 play, 88-yard drive culminating in a 4-yard touchdown pass to Davante Adams. On the drive, the Packers converted three 3rd-and-longs and took 6:47 off the clock. The Eagles punted again, but this time Micah Hyde returned the punt 75 yards for a touchdown, giving the Packers a shocking 17-0 lead. The Eagles responded on their next possession with a 33-yard field goal by Cody Parkey early in the second quarter. The Eagles, though, had no answer for the Packers' passing game. Rodgers marched the Packers 80 yards in merely 6 plays to increase the lead to 24-3 on a 27-yard touchdown pass to Jordy Nelson. After a punt, the Packers struck again. 80 yards on another time consuming drive ending with Eddie Lacy driving in a 1-yard touchdown run, but a failed two-point conversion. The Eagles reached the Packers' 15, but settled for another 33-yard field goal as the half expired. Mark Sanchez was stripped early in the 3rd quarter with Nick Perry recovering. The Eagles defense finally made a stand and forced a punt, but the Eagles were forced to punt on their responding drive. The Eagles' defense couldn't hold this time and Crosby kicked a 33-yard field goal increasing the lead to 33-6. The Eagles buried themselves on the next drive as Sanchez threw a 52-yard pick-six to Julius Peppers (with a blocked PAT), making the score 39-6. The Eagles immediately answered, driving 80 yards (with a 4th down conversion) with Sanchez throwing a 10-yard touchdown pass to Jordan Matthews. However, the Packers struck right back with an 80yard scoring drive capped off with Rodgers throwing a screen pass to Lacy who took it 32 yards for a touchdown, pushing the lead to 46-13. However, Eagles mishaps continued as Sanchez threw an interception to Tramon Williams, but Crosby missed a field goal. Then on the following drive after reaching the Packers 40, Sanchez fumbled and Hayward returned the fumble 49 yards for a touchdown, making the score a mind boggling 53-13. The Eagles were able to March 80 yards and score on a 20-yard touchdown reception by Jeremy Maclin on their next drive closing the scoring. The Packers achieved a new franchise mark, as this was the first time ever since the franchise started playing in the NFL that they scored over 50 points in consecutive games (the Packers had scored over 50 points in 6 consecutive games as a "town team" in 1919, their first season of existence.). Green Bay improved to a record of 7-3.
Question: Which team scored more points, Packers or Eagles? | [
"packers"
] | task469-5bc713fac7c94330b4b4b58ba1d95e71 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The London 20120lympics are being praised as a sporting and logistical success,but the influence on economy is far less certain.Some London tourist attractions,businesses and hotels reported that their business actually fell during the Games.But as Olly Barratt reports from London,the overall UK economy is looking for long-term results. Showing an Olympic-sized party like this cost the UK almost l 5 billion dollars.But while spectators went to east London'S Olympic Park,central London has been much quieter than. normal. Arthur lRason,a central London stallholder,said,"Am I taking less? Yeah,I'm taking less.There'S no question about it." Restaurants were among businesses that reported lower takings than normal at this time of year.And one tourism trade association says a survey of its members found the Games had had a negative influence all over the UK.But during the recent recession ,British officials still insist the Games were worth it.Boris Johnson,Mayor of London said,"I think it'S been an amazing display of what you can do if you plan and you work for years and years on a project. And I think it's a great advertisement for British engineering and British industry." The government hopes the Games will be a great help to the British brand worldwide,and they are also an opportunity to sweet-talk potential investors from all over the world.And a fall in takings for some attractions should not have come as a surprise.
Question: Where is the London'S Olympic Park located? | [
"east london."
] | task469-53cc2348a01c4d04bc3dc7e067364fd0 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Conus velaensis is a species of sea snail, a marine gastropod mollusk in the family Conidae, the cone snails and their allies.
Question: Is Conus velaensis a genus or species? | [
"species"
] | task469-f05383ccb336494a80e18c6e08061e09 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Set in the Australian outback in the 1880s, the movie follows the series of events following the horrific rape and murder of the Hopkins family, allegedly committed by the infamous Burns brothers gang.The film opens in a brothel during a violent gunfight between the police and Charlie Burns' (Guy Pearce) gang, which ends with the deaths of all of the gang members except for Charlie and his younger brother Mikey. Captain Stanley (Ray Winstone) proposes to Charlie: he and Mikey can go free of the crimes they have committed if Charlie kills his older brother, Arthur (Danny Huston). Arthur is a mercurial psychopath who has become something of a legend and is so vicious that the Aboriginal tribes refer to him as "The Dog Man" and both the police and the Aboriginals refuse to go near his camp. Captain Stanley muses that perhaps the bounty hunters will kill Arthur in time and then states his intention to civilize the harsh Australian wilderness by bringing Arthur to justice and using Mikey as leverage. Charlie has nine days to find and kill Arthur, or else Mikey will be hanged from the gallows on Christmas Day.We discover why Captain Stanley is intent on taming Australia: he has been forced to move there with his delicate wife, Martha Stanley (Emily Watson), and apparently wants to make it an appropriate place for them to live. The Stanleys were also friends of the Hopkins family, leading Martha to have nightmares about her dead friends and the unborn child one of them is revealed to have carried. Word spreads of Stanley's deal with Charlie, primarily from Stanley's corrupt subordinate, Sergeant Lawrence (Robert Morgan), causing disgust among the townspeople.Shortly thereafter, Eden Fletcher (David Wenham), for whom Captain Stanley works, orders that Mikey be given one hundred lashes as punishment for the rape and murder of the Hopkins family. Stanley is aghast at this, not only because he believes that Mikey is innocent and the flogging will surely kill him, but because it would also break his deal with Charlie and thus put him and his wife in grave danger. Stanley sends Sergeant Lawrence away with tracker Jacko (David Gulpillil) and other men to "investigate" the reported slaying of Dan O'Riley by a group of Aborigines. Captain Stanley attempts to defend Mikey by gunpoint from the bloodthirsty townspeople, but is overruled once Martha arrives, insisting on revenge for her dead friends. Mikey is then brutally flogged, and horrifically wounded. The formerly excited townspeople slowly become disgusted and Martha faints at the ghastly display. After 40 lashes, Mikey has collapsed and the whip is soaked with blood. Captain Stanley grabs the whip and throws it at Fletcher, staining his face and suit with blood, who in turn fires Stanley.Meanwhile, Charlie rides a great distance in search of Arthur, drinking and apparently reflecting on what he will do. Along the way, he encounters an inebriated old man named Jellon Lamb (John Hurt). In the course of conversation, Charlie realizes that Lamb is a bounty hunter in pursuit of the Burns brothers and knocks him out. Later on, after sleeping on a rock bed, Charlie awakes and, before he can gather what's going on, is speared in the chest by a group of Aboriginal men standing over him. Seconds later a gunshot is heard and the head of the man who threw the spear explodes. Charlie then passes out.Charlie wakes up in the camp of his brother Arthur, which is located in caves among desolate mountains. Arthur's gang consists of Samuel Stoat (Tom Budge), who shot the Aboriginal man who had speared Charlie; a woman named Queenie (Leah Purcell) who tends to Charlie's wound; and a muscular Aboriginal man called Two-Bob (Tom E. Lewis). As he recovers from his wounds, Charlie has several opportunities to kill his brother, but does not. Not too far away from Arthur's camp, Sergeant Lawrence and his men have found and butchered a group of Aborigines. Arthur and Two-Bob find Lawrence's group while they sleep, ostensibly to get a horse for Charlie, and proceed to kill Jacko and Sergeant Lawrence. Before Arthur stomps Lawrence
Question: Who rides in search of Arthur? | [
"charlie"
] | task469-9ead12ddf06f4f49b1dde335eb540c9f | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Paris, 1966...Monsieur Charles Bonnet (Hugh Griffin), the current head of the Bonnet family, custodian of the family's legendary collection of fine art, and a noted collector in his own right, is offering one of his prized paintings at auction. A Cezanne, it sells for a fabulous $515,000, the high point of the auction. When Bonnet's daughter, Nicole (Audrey Hepburn), hears the news on her car radio on her way home from work, she is shocked...and dismayed. The moment she arrives at their elegant old chateau, she runs upstairs calling her father. In his bedroom on the second floor, she opens the door to an antique wardrobe and steps inside, opens a false panel at the back of the wardrobe and climbs a hidden spiral staircase to her father's secret studio in the attic.Bonnet, it turns out, is a forger of fine art...cheerful and charming, but an unrepentant scoundrel. He is putting the finishing touches on his latest project, a flawless rendition of a famous lost Van Gogh. He has even found another painting from the same period, by an unknown artist, and has brushed dirt from the back of that canvas to transfer to his forgery. "I doubt if even Van Gogh himself would have gone to such pains with his work," he boasts. "He didn't have to, Papa," Nicole retorts, "he WAS Van Gogh!" She tells him in a tired voice (for what must surely be the thousandth time) that it's a crime to sell fake masterpieces. He replies that he only sells them to wealthy, private buyers, who get an undeniably fine painting in return.A noise in the driveway sends them both to the window: An armored car, a police van, a black limousine and half a dozen motorcycles have arrived and parked in front of the house. Nicole is terrified that the authorities have at last discovered Bonnet's hobby, but Bonnet explains that he has simply agreed to let the Claver-Lafayette Museum display their exquisite statuette of Venus, purportedly carved by 16th Century sculptor Benvenuto Cellini, in their latest exhibit. Nicole is not reassured: Their Cellini Venus is also a forgery...carved at the end of the 19th century by Bonnet's father, using Bonnet's mother as a model. Unlike paintings, she tells her father, it's an easy matter to detect forged sculptures. Bonnet brushes aside her concerns: since he's merely lending the statue, not selling it, there will be no reason to test its authenticity.He runs downstairs (followed closely by Nicole) to greet Monsieur Grammont (Ferdinand Gravey), the museum director, who is here with his assistants and an armed escort to transport the Venus. Bonnet shows him into the library, where the Venus stands in solitary splendor in its own special niche. Grammont is moved almost to tears by the sight of it...he congratulates Bonnet for keeping this fine piece in France, though he must have had many lucrative offers to buy it. Bonnet smiles modestly, and says, "Well, after all, one is still a Frenchman." The Venus is handed over, secured in a heavily padded case, Grammont thanks Bonnet effusively and leaves. Bonnet is jubilant, but Nicole is still worried. He waves off her concern, saying that her basic trouble is that she's honest...."but I don't tell you that to hurt your feelings," he adds kindly. "I get dizzy spells when we have these conversations, Papa," she complains. He invites her to attend the gala opening at the museum that night...she firmly declines.The Cellini Venus is the star of the exhibit, and Bonnet the most celebrated guest at the gala. Davis Leland (Eli Wallach), a wealthy American industrialist, is also present. He has recently taken up art collecting, and is pursuing it as obssessively as he pursued the acquisition of his millions. He is so taken with the Venus that he determines to find out all about Bonnet and his family...with the goal of somehow acquiring the Venus.The Bonnet chateau
Question: Who had a dinner date with wealthy American tycoon, Davis Leland? | [
"nicole",
"nicole bonnet"
] | task469-a2ed40ba44ae4f2e8a76fe31ae00a7c4 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Cyprus is the third largest island and one of the most popular tourist destinations in the Mediterranean Sea. It attracts over 24 million tourists every year. It gained independence from the UK in 1960. Cyprus is a developed country and has been a member of the European Union since 1 May ,2004. It didn't begin to use the euro until 1 January. 2008. As a tourist destination, Cyprus has clean beaches and fine weather all the year round. There are Roman and Greek ruins on the island, which attract tourists most. You can enjoy skiing and hiking in its huge mountains and charming villages. In the towns and cities, there are some modern hotels, bars and clubs with bright lights and rich nightlife. The story of the island can date back over 10,000 years. Cyprus has long been seen as an important strategic base. Many civilizations have swept through it over the years. In 1974 the Turkish army arrived on the northern coast of Cyprus. They were invited by the Turkish Cypriot leader in order to protect the Turkish villages. Since then the Turkish army took control of the northern third of the island. The Greek Cypriot controlled the other. UN peacekeeping forces kept the peace between the two sides. Although it has political problems, Cyprus is a country that easily links modern European culture with its past. Here, visitors can discover clean beaches, all kinds of grape wine and ancient ruins. With fruit trees around, the old stone villages make tourists feel that modern Europe seems a very long way away indeed.
Question: What's the most attractive to tourists in Cyprus? | [
"the ancient ruins."
] | task469-27c849d4033a4dc693d7ea4fc9e09a5e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Vitamins and minerals are also nutrients. They do not provide energy, but they are needed for good health. Vitamins are organic compounds that the body needs in small amounts to function properly. Humans need 13 different vitamins. Some of them are listed below ( Table 1.1). The table also shows how much of each vitamin you need every day. Vitamins have many roles in the body. For example, Vitamin A helps maintain good vision. Vitamin B9 helps form red blood cells. Vitamin K is needed for blood to clot when you have a cut or other wound. Vitamin Necessary for Available from Daily Amount Required (at ages 913 years) Vitamin Necessary for Available from A Good vision B1 Healthy nerves B3 Healthy skin and nerves B9 Red blood cells B12 Healthy nerves C Growth and repair of tis- sues Healthy bones and teeth Blood to clot Carrots, spinach, milk, eggs Whole wheat, peas, meat, beans, fish, peanuts Beets, liver, pork, turkey, fish, peanuts Liver, peas, dried beans, leafy green vegetables Meat, liver, milk, shell- fish, eggs Oranges, grapefruits, red peppers, broccoli Milk, salmon, tuna, eggs Spinach, brussels sprouts, milk, eggs D K Daily Amount Required (at ages 913 years) 600 g (1 g = 1 106 g) 0.9 mg (1 mg = 1 103 g) 12 mg 300 g 1.8 g 45 mg 5 g 60 g Some vitamins are produced in the body. For example, vitamin D is made in the skin when it is exposed to sunlight. Vitamins B12 and K are produced by bacteria that normally live inside the body. Most other vitamins must come from foods. Foods that are good sources of vitamins include whole grains, vegetables, fruits, and milk ( Table 1.1). Not getting enough vitamins can cause health problems. For example, too little vitamin C causes a disease called scurvy. People with scurvy have bleeding gums, nosebleeds, and other symptoms. Minerals are chemical elements that are needed for body processes. Minerals that you need in relatively large amounts are listed below ( Table 1.2). Minerals that you need in smaller amounts include iodine, iron, and zinc. Minerals have many important roles in the body. For example, calcium and phosphorus are needed for strong bones and teeth. Potassium and sodium are needed for muscles and nerves to work normally. Mineral Necessary for Available from Calcium Strong bones and teeth Chloride Magnesium Proper balance of water and salts in body Strong bones Phosphorus Strong bones and teeth Potassium Muscles and nerves to work normally Muscles and nerves to work normally Milk, soy milk, leafy green vegetables Table salt, most packaged foods Whole grains, leafy green vegetables, nuts Meat, poultry, whole grains Meats, grains, bananas, orange juice Table salt, most packaged foods Sodium Daily Amount Required (at ages 913 years) 1,300 mg 2.3 g 240 mg 1,250 mg 4.5 g 1.5 g Your body cannot produce any of the minerals that it needs. Instead, you must get minerals from the foods you eat. Good sources of minerals include milk, leafy green vegetables, and whole grains ( Table 1.2). Not getting enough minerals can cause health problems. For example, too little calcium may cause osteoporosis. This is a disease in which bones become soft and break easily. Getting too much of some minerals can also cause health problems. Many people get too much sodium. Sodium is added to most packaged foods. People often add more sodium to their food by using table salt. Too much sodium causes high blood pressure in some people.
Question: what mineral can be found in bananas? | [
"potassium"
] | task469-8845f108bc574231ad47d7cd4b293a26 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Police officers Brian Taylor (Jake Gyllenhall) and Mike Zavala (Michael Pena) are close friends and partners in the Los Angeles Police Department. Taylor is filming their police activities for a film project, attaching small cameras to his and Zavala's uniforms and carrying around a camcorder, much to the dismay of their peers and superiors. After shooting two suspects following a high speed chase, the shooting is declared justified by the D.A. and the officers are commended for their actions. Taylor and Zavala's antics are met with scorn by fellow officer Van Hauser (David Harbour).The officers respond to a call regarding a man, Mr. Tre (Cle Shaheed Sloan) scaring off a mailman while intoxicated. Upon arrival, Tre hurls racist insults at the Hispanic Zavala, who responds by accepting a fight, to Taylor's approval. Zavala beats him soundly and arrests him, but wins the man's respect for both fighting fair and not mentioning the fight in the report (which may have sent Tre to prison for life due to Three Strikes). Later that night, Tre and his friends are shot at by a group of Latino gang members and one of his friends is killed. The officers find the now-burnt vehicle used in the drive-by the next day, but are shooed off the scene by homicide detectives as well as Van Hauser, who warns them they will get screwed over by the LAPD someday.Responding to a missing persons report, the officers discover two children bound and locked away in a closet and arrest the distressed mother and her drug-addict husband.The cops arrive as a group at a loud outdoor party, the Hispanics from the drive by shooting are celebrating. The cops and partiers verbally joust and Brian sizes up the gang leader, Big Evil (Maurice Compte). The cops depart telling them to keep the noise down.Taylor begins dating Janet (Anna Kendrick) and feels Janet is the only girl he's dated who can connect with him on an intellectual level. Zavala, who is married and expecting a child, offers him relationship advice.Investigating the South Central area, Taylor has a hunch and determines to scope out the home of the mother of a known gang member and sees an expensive pick up truck in the driveway. A woman walks out of the house and delivers a large soup saucepan with lid to the man in the truck. As the truck drives away, the officers follow and then pull over the man in the truck, ostensibly for having CD hanging off the mirror and illegally obstructing the front view, which is minor traffic violation in California per VC 26708 . As Zavala approaches the driver's window to make contact, the driver suddenly draws a gun and fires, and Zavala deflects the man's arm just in time to avoid being shot. After arresting the driver, the officers find an ornately-decorated, compact .45 Colt automatic pistol, a gold-plated AK-47 rifle, and a large amount of money in his truck (hidden in the soup pot). As revealed later, the money and firearms are connected to a Mexican drug cartel operation in the South Central area as well as the gang that did the drive-by on Tre and others.Days later, the two officers are first responders at a house fire that has trapped children on the second floor. Zavala and Taylor enter the house and rescue two young children and are nearly overcome by heat and smoke. When the mother informs them that a third child remains inside, Zavala to rushes to the aid of the remaining child as Taylor reluctantly follows, barely making it out alive. The two are commended and receive the Medal of Valor for their actions, but Taylor has mixed emotions about the situation. Using the house fire incident as leverage, Taylor convinces Zavala to further investigate the South Central incident, to Zavala's chagrin. Arriving at the house, Taylor and Zavala notice suspicious behavior from outside and enter. They arrest another man, who is also in possession of several ornate firearms: a .45 Colt automatic similar to the first one found at the traffic stop, and a Walther PPK. Investigating further, Taylor discovers a hidden stash of Mexican and Asian
Question: Who ambushed the officers? | [
"latino gang members",
"big evil and his gang"
] | task469-d9c9ffc359dc4532ab2e51105cfb7c0a | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Margaret Power is a fictional character in the Marvel Universe.
Question: What is the name of the fictional universe that Margaret Power is from? | [
"marvel universe"
] | task469-1813de6de7f54428b0ce473b8fc9762b | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The little girl pictured below ( Figure 1.1) has a scraped knee. A scrape is a break in the skin that may let pathogens enter the body. If bacteria enter through the scrape, they could cause an infection. These bacteria would then face the bodys second line of defense. The second line of defense is also nonspecific, fighting many types of pathogens. The bodys second line of defense against pathogens includes the inflammatory response. If bacteria enter the skin through a scrape, the area may become red, warm, and painful. These are signs of inflammation. Inflammation is one way the body reacts to infections or injuries. Inflammation is caused by chemicals that are released when skin or other tissues are damaged. The chemicals cause nearby blood vessels to dilate, or expand. This increases blood flow to the damaged area, which makes the area red and slightly warm. The chemicals also attract white blood cells called neutrophils to the wound and cause them to leak out of blood vessels into the damaged tissue. This little girl just got her first scraped knee. It doesnt seem to hurt, but the break in her skin could let pathogens enter her body. Thats why scrapes should be kept clean and protected until they heal. What do these white blood cells do at the site of inflammation? The main role of white blood cells is to fight pathogens in the body. There are actually several different kinds of white blood cells. Some white blood cells have very specific functions. They attack only certain pathogens. Other white blood cells attack any pathogen they find. These white blood cells travel to areas of the body that are inflamed. They are called phagocytes, which means eating cells. Neutrophils are a type of phagocyte. In addition to pathogens, phagocytes eat dead cells. They surround the pathogens and destroy them. Sometimes it is said that the phagocyte engulfs the pathogen, and then destroys it. This process is called phagocytosis. White blood cells also make chemicals that cause a fever. A fever is a higher-than-normal body temperature. Normal human body temperature is 98.6 F (37 C). Most bacteria and viruses that infect people reproduce fastest at this temperature. When the temperature is higher, the pathogens cannot reproduce as fast, so the body raises the temperature to kill them. A fever also causes the immune system to make more white blood cells. In these ways, a fever helps the body fight infection.
Question: the dilation of blood vessels during the inflammatory response | [
"increases blood flow to the damaged area."
] | task469-b4059bbfa23847cf9958ffc6d54b4de1 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Most fossils are preserved by one of five processes outlined below (Figure 1.1): Most uncommon is the preservation of soft-tissue original material. Insects have been preserved perfectly in amber, which is ancient tree sap. Mammoths and a Neanderthal hunter were frozen in glaciers, allowing scientists the rare opportunity to examine their skin, hair, and organs. Scientists collect DNA from these remains and compare the DNA sequences to those of modern counterparts. The most common method of fossilization is permineralization. After a bone, wood fragment, or shell is buried in sediment, mineral-rich water moves through the sediment. This water deposits minerals into empty spaces and Five types of fossils: (a) insect preserved in amber, (b) petrified wood (permineralization), (c) cast and mold of a clam shell, (d) pyritized ammonite, and (e) compression fossil of a fern. produces a fossil. Fossil dinosaur bones, petrified wood, and many marine fossils were formed by permineralization. When the original bone or shell dissolves and leaves behind an empty space in the shape of the material, the depression is called a mold. The space is later filled with other sediments to form a matching cast within the mold that is the shape of the original organism or part. Many mollusks (clams, snails, octopi, and squid) are found as molds and casts because their shells dissolve easily. The original shell or bone dissolves and is replaced by a different mineral. For example, calcite shells may be replaced by dolomite, quartz, or pyrite. If a fossil that has been replace by quartz is surrounded by a calcite matrix, mildly acidic water may dissolve the calcite and leave behind an exquisitely preserved quartz fossil. Some fossils form when their remains are compressed by high pressure, leaving behind a dark imprint. Compression is most common for fossils of leaves and ferns, but can occur with other organisms. Click image to the left or use the URL below. URL: Click image to the left or use the URL below. URL:
Question: when insects are fossilized, it is usually in | [
"amber"
] | task469-9087550da1764e57b04cba9884cbdccd | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: El Gaucho (Hebrew: ') is an Israeli steak house chain with 7 branches around Israel, which opened its first branch in 1982.
Question: What year was El Gaucho opened? | [
"1982"
] | task469-b820252be10b4f0bb084199c61cdb8a2 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Stigler's law of eponymy is a process proposed by University of Chicago statistics professor Stephen Stigler in his 1980 publication ''Stigler's law of eponymy''.
Question: Who made the discovery of Stigler's law of eponymy? | [
"stephen stigler"
] | task469-fb84df0475da4c58826001e025eff719 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Jose Lamberto Diaz Nieblas (born 27 August 1954) is a Mexican politician formerly affiliated to the Institutional Revolutionary Party.
Question: What political party is Lamberto Diaz Nieblas a memeber of? | [
"institutional revolutionary party"
] | task469-f396799c26ec448d9315eb657ad25bf2 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Think about the longest elevator ride that you've ever taken. Whether you rose five or 100 floors, it probably took less than a few minutes. Now imagine riding in an elevator higher and higher as it climbs for nearly a day. When you reach the top floor, prepare for views that are really out of this world. You'll be in space! Space elevators might sound like a crazy idea, but they're something scientists have been working on for decades. At the moment, riding in a capsule is the only way ordinary people can get to and from space. But those rides are very expensive---about $ 25 million per person per flight. Now scientists are making efforts to reduce the expense of those rides. Researchers are still figuring out the details about how a space elevator might work. One idea is stretching a very long cable -- more than 37,000 kilometers -- up to space from the earth's equator . Objects in space above the equator orbit (......) the earth at the same speed that our planet turns. A weight on the end of the cable would stretch it tight. An elevator tied to the cable could use _ to climb up and down. The only problem is that besides being long, this cable must also be very strong. Storms, including hurricanes might break it. One way to solve this problem is to stretch the cable from the moon instead of from the earth. Airplanes designed to climb higher than a typical jet might take off from the earth and link up with the cable, which would be held in place by the pull of gravity from the earth. An elevator car waiting there would then take riders the rest of the way to the moon. Fueled by solar power, the elevator could transport people and materials without much expense or effort per ride.
Question: What may make the cable stay in place on the moon? | [
"the pull of gravity from the earth."
] | task469-23289a48153e4b8db0827d012ae620fb | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Founded in 2002, Unexploded was asked to perform at several festivals in 2004, but settled for releases on 2 compilations; one in Japan on Stargate Recordings Antenna Volume One in company with amongst others Bill Laswell.
Question: When was Unexploded created? | [
"2002"
] | task469-af6c640e37e449869ffe26e172eff4a9 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Villa Wartholz was designed by Heinrich von Ferstel in the historicist style in the years 1870 to 1872 for Archduke Karl Ludwig of Austria.
Question: What is the name of the Villa Wartholz architect? | [
"heinrich von ferstel"
] | task469-35250a947cf148d48f2670b0967ba5fd | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Gul Pacha Ulfat (Pashto: ) was born in 1909 in Qarghayi District of Laghman Province, Afghanistan.
Question: What city did Gul Pacha Ulfat live when he died? | [
"qarghayi"
] | task469-dbd91e8bd71a435dba68698ea8cb5afa | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Lewy bodies and coarse Lewy neurites are the pathological hallmarks of degenerating neurons in the brains of patients suffering from Parkinson's disease (PD). Recently, the presynaptic protein alpha-synuclein was shown to be a major component of Lewy bodies and Lewy neurites. This study demonstrates for the first time that extensive and thin alpha-synuclein-immunoreactive inclusions are present in the axonal processes of neurons.
Question: Which is the primary protein component of Lewy bodies? | [
"αsyn",
"α-synuclein",
"alpha-synuclein"
] | task469-2da0e556f12d4e20a932d2267d8c1d97 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Planning your to-do list for the coming year? To help you out, we've collected our favorite must-see events across Canada. Ready, go! Red or white? Every spring wine growers get together to celebrate the beginning of another grape-growing season at the Okanagan Spring Wine Festival. The best time to visit the Okanagan is usually from May 1 to 10. The festival allows visitors to taste the best wines in Canada together with unique dishes representing the latest developments in local cuisine. The jazz festival Montreal's downtown comes alive every summer during the International Jazz Festival. The Festival International de Jazz de Montreal is an annual jazz festival held in Montreal, Quebec, Canada. The Montreal Jazz Fest held the 2004 Guinness World Record as the world's largest jazz festival. This year the event is scheduled to run from June 29 to July 9. Stages replace cars along busy streets. With a host of free outdoor shows, you'll be snapping your fingers to anything from Dixieland to blues, African beats to modern trip-hop, and everything in between. Are you ready? Just head east to the Newfoundland Targa Rally, which runs from September 9 to 16 this year. The 2,200-kilometre race dashes across the eastern and central parts of the province, and is the largest race of its kind in North America. On these sections you race against the clock rather than other competitors. This is a great chance to test your car's limits and your skills. Hello spring! In 1945, thousands of tulip bulbs gifts from Holland, were planted on Ottawa's Parliament Hill, Canada. These gifts were a thank-you to Canadian soldiers who helped set Holland free in World WarII. Since then, the capital has become home to the Canadian Tulip Festival. From May 4 to 22, Ottawa and Gatineau (a city of southwest Quebec) will be covered with beautiful flowers. Besides three million tulips, visitors can also attend concerts, featuring some of Canada's brightest musical stars.
Question: Wine lovers can enjoy themselves . | [
"from may 1 to 10"
] | task469-3333f3f3ea9949e4a57a5f51fad1100d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Figure 1.1 shows the relative sizes of the orbits of the planets, asteroid belt, and Kuiper belt. In general, the farther away from the Sun, the greater the distance from one planets orbit to the next. The orbits of the planets are not circular but slightly elliptical, with the Sun located at one of the foci (see opening image). While studying the solar system, Johannes Kepler discovered the relationship between the time it takes a planet to make one complete orbit around the Sun, its "orbital period," and the distance from the Sun to the planet. If the orbital period of a planet is known, then it is possible to determine the planets distance from the Sun. This is how astronomers without modern telescopes could determine the distances to other planets within the solar system. How old are you on Earth? How old would you be if you lived on Jupiter? How many days is it until your birthday on Earth? How many days until your birthday if you lived on Saturn? Click image to the left or use the URL below. URL: The relative sizes of the orbits of planets in the solar system. The inner solar sys- tem and asteroid belt is on the upper left. The upper right shows the outer planets and the Kuiper belt.
Question: who discovered the relationship between a planets orbital period and the distance from the sun? | [
"johannes kepler"
] | task469-73f817657a3443d6abc22b66e7adf717 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: A sexually transmitted infection (STI) is a disease that spreads mainly through sexual contact. STIs are caused by pathogens that enter the body through the reproductive organs. Many STIs also spread through body fluids such as blood. For example, a shared tattoo needle is one way that some STIs can spread. Some STIs can also spread from a mother to her infant during birth. STIs are more common in teens and young adults than in older people. One reason is that young people are more likely to engage in risky behaviors. They also may not know how STIs spread. Instead, they may believe myths about STIs, like those in Table 22.1. Knowing the facts is important to prevent the spread of STIs. Myth If you are sexually active with just one person, then you cant get STIs. If you dont have any symptoms, then you dont have an STI. Getting STIs is no big deal, because they can be cured with medicines. Fact The only sure way to avoid getting STIs is to practice abstinence from sexual activity. Many STIs do not cause symptoms, especially in fe- males. Only some STIs can be cured with medicines; others cannot be cured. A number of STIs are caused by bacteria. Bacterial STIs can usually be cured with antibiotics. However, some people with bacterial STIs may not have symptoms so they fail to get treatment. Left untreated, these infections may damage reproductive organs and lead to an inability to have children. Three bacterial STIs are chlamydia, gonorrhea, and syphilis. Chlamydia is the most common bacterial STI in the U.S. Females are more likely to develop it than males. Symptoms may include burning during urination and a discharge from the vagina or penis. Gonorrhea is another common bacterial STI. Symptoms may include painful urination and a discharge from the vagina or penis. Syphilis is a very serious STI but somewhat less common than chlamydia or gonorrhea. It usually begins with a small sore on the genitals. This is followed a few months later by a rash and flu-like symptoms. If syphilis isnt treated, it can eventually damage the heart, brain, and other organs and even cause death. Several STIs are caused by viruses. Viral STIs cant be cured with antibiotics. Other drugs may help control the symptoms of viral STIs, but the infections usually last for life. Three viral STIs are genital warts, genital herpes, and AIDS. Genital herpes is a common STI caused by a herpes virus. The virus causes painful blisters on the penis or near the vaginal opening. The blisters generally go away on their own, but they may return repeatedly throughout life. There is no cure for genital herpes, but medicines can help prevent or shorten outbreaks. Acquired Immunodeficiency Syndrome (AIDS) is caused by human immunodeficiency virus (HIV). HIV destroys lymphocytes that normally fight infections. AIDS develops if the number of lymphocytes drops to a very low level. People with AIDS come down with diseasessuch as certain rare cancersthat almost never occur in people with a healthy immune system. Medicines can delay the progression of an HIV infection and may prevent AIDS from developing. Genital warts is an STI caused by human papilloma virus (HPV), which is pictured in Figure 22.15. This is one of the most common STIs in U.S. teens. Genital warts cant be cured, but a vaccine can prevent most HPV infections. The vaccine is recommended for boys and girls starting at 11 or 12 years of age. Its important to prevent HPV infections because they may lead to cancer later in life. Other reproductive system disorders include injuries and noninfectious diseases. These are different in males and females. Most common disorders of the male reproductive system involve the testes. They include injuries and cancer. Injuries to the testes are very common. In teens, such injuries occur most often while playing sports. Injuries to the testes are likely to be very painful and cause bruising and swelling. However, they generally subside fairly quickly. Cancer of the testes is most common in males aged 15 to 35. It occurs when cells in the testes grow out of control and form a tumor. If found early
Question: The most common reproductive system cancer in young males is cancer of the | [
"testes."
] | task469-28f541894a8b45af957b18ba8dbc2923 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: One man tells of driving on a long and lonely road, the last 65 miles of it unpaved, in order to watch Indian dances in the state of Arizona.After the dances, he returned to his car only to find that it had a flat tire.He put on the spare and drove to the only service station in that town. "Do you fix flats?" he inquired of the attendant. "Yes," came the answer. "How much do you charge?" he asked. With a twinkle in his eye, the man replied, "What difference does it make?" This is what has been called a "Hobson's choice".A Hobson's choice is a situation that forces a person to accept whatever is offered or go without. According to Barbara Berliner, the phrase was inspired by sixteenth-century entrepreneur Thomas Hobson.There was no choice by the customer -- it was strictly Hobson's choice. But often we really have a choice, and the choice does make a difference.We may not always believe it.We may feel as if we have no choice, but almost always there is a choice in the matter.And when we realize that we do most things by choice, then we are taking control of our own lives. Someone challenged me to try an experiment that completely changed my perspective(,)."For the next seven days," he said, "remove the words 'I have to' from your vocabulary and say 'I choose to'.Don't say, 'I have to work late tonight'.Instead, say, 'I choose to work late'.When you choose to do it, you take control of your life.Instead of saying 'I have to stay home', try 'I choose to stay home'.The way you spend your time is your choice.You are responsible.You have control." In just seven days I was no longer saying "I have to" and I felt better about my decisions.I learned that there is very little in my life I actually have to do.You and I decide to do certain things because we believe that it will be for the best.When we remove "I have to" from our vocabularies, we take control. Try it for a week and you see what happens.I think you'll see it's a change for the better.
Question: What's the best title of this passage? | [
"i choose to"
] | task469-a453b050430e47859f5a956d451c0d6e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The major constituent of senile plaques in Alzheimer's disease is a 42-aa peptide, referred to as beta-amyloid (Abeta). Abeta is generated from a family of differentially spliced, type-1 transmembrane domain (TM)-containing proteins, called APP, by endoproteolytic processing. The major, relatively ubiquitous pathway of APP metabolism in cell culture involves cleavage by alpha-secretase, which cleaves within the Abeta sequence, thus precluding Abeta formation and deposition. An alternate secretory pathway, enriched in neurons and brain, leads to cleavage of APP at the N terminus of the Abeta peptide by beta-secretase, thus generating a cell-associated beta-C-terminal fragment (beta-CTF). A pathogenic mutation at codons 670/671 in APP (APP "Swedish") leads to enhanced cleavage at the beta-secretase scissile bond and increased Abeta formation. An inhibitor of vacuolar ATPases, bafilomycin, selectively inhibits the action of beta-secretase in cell culture, suggesting a requirement for an acidic intracellular compartment for effective beta-secretase cleavage of APP. beta-CTF is cleaved in the TM domain by gamma-secretase(s), generating both Abeta 1-40 (90%) and Abeta 1-42 (10%). Pathogenic mutations in APP at codon 717 (APP "London") lead to an increased proportion of Abeta 1-42 being produced and secreted. Missense mutations in PS-1, localized to chromosome 14, are pathogenic in the majority of familial Alzheimer's pedigrees. These mutations also lead to increased production of Abeta 1-42 over Abeta 1-40. Knockout of PS-1 in transgenic animals leads to significant inhibition of production of both Abeta 1-40 and Abeta 1-42 in primary cultures, indicating that PS-1 expression is important for gamma-secretase cleavages. Peptide aldehyde inhibitors that block Abeta production by inhibiting gamma-secretase cleavage of beta-CTF have been discovered.
Question: Which disease the London mutation involved in? | [
"alzheimer's disease",
"ad"
] | task469-7b61e76c55894c9e93ea9ae8fa617985 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Brink (Sir Cedric Hardwicke) has recently taken Pud's (Bobs Watson) parents in an auto wreck. Brink later comes for Gramps (Lionel Barrymore). Believing Brink to be an ordinary stranger, the crotchety old Gramps orders Mr. Brink off the property. Pud comes out of the house and asks who the stranger was. Gramps is surprised and relieved that someone else could see the stranger; he was not merely a dream or apparition. Pud tells Gramps that when he does a good deed, he will be able to make a wish. Because his apples are constantly being stolen, Gramps wishes that anyone who climbs up his apple tree will have to stay there until he permits them to climb down. Pud inadvertently tests the wish when he has trouble coming down from the tree himself, becoming free only when Gramps says he can. Pud's busybody Aunt Demetria (Eily Malyon) has designs on Pud and the money left him by his parents. Gramps spends much time fending off her efforts to adopt the boy. Brink takes Granny Nellie (Beulah Bondi) in a peaceful death just after she finishes a bit of knitting. When Mr. Brink returns again for Gramps, the old man finally realizes who his visitor is. Determined not to leave Pud to Demetria, Gramps tricks Mr. Brink into climbing the apple tree. While stuck in the tree, he cannot take Gramps or anyone else. The only way anyone or anything can die is if they touch Mr. Brink or the apple tree. Demetria plots to have Gramps committed to a psychiatric hospital when he claims that Death is trapped in his apple tree. Gramps proves his story first by proving that his doctor, Dr. Evans (Henry Travers), can not even kill a fly they have captured. He offers further proof of his power by shooting Mr. Grimes (Nat Pendleton), the orderly who has come to take him to the asylum; Grimes lives when he should have died. Dr. Evans is now a believer, but he tries to convince Gramps to let Death down so people who are suffering can find release. Gramps refuses, so the doctor arranges for the local sheriff to commit Gramps while Pud is delivered to Demetria's custody. With the help of his housekeeper (Una Merkel), Gramps tricks both of them into believing they are scheduled to go with Mr. Brink when he comes down from the tree. They beg Gramps to convince Brink otherwise, and Demetria vows never to bother Gramps or Pud again. Gramps realizes that sooner or later he will have to let Brinks downDeath is an ultimately unavoidable part of life. He tries to say goodbye to Pud, who reacts angrily and tries to run away. Mr. Brink sees Pud in the yard and dares him to climb the tree. Pud gets over the fence Gramps has had built around the tree, but falls and is crippled for life. Distraught, Gramps lets Death down from the tree. He takes both Gramps and Pud, who find they can walk again. In the final scene, they walk together up a beautiful country lane and hear Granny Nellie calling to them from beyond a brilliant light.
Question: What does Gramps trick Mr. Brink into doing? | [
"climbing the apple tree"
] | task469-1f9d2d595535495bad36441cfb04ca5d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Booster Gold first appeared in Booster Gold #1 (February 1986), being the first significant new character introduced into DC Universe continuity after the Crisis on Infinite Earths.
Question: What fictional universe is Booster Gold a part of? | [
"dc universe"
] | task469-e8ffeb71e4da4d25b34797e65b3fbeb0 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Gravity has traditionally been defined as a force of attraction between two masses. According to this conception of gravity, anything that has mass, no matter how small, exerts gravity on other matter. The effect of gravity is that objects exert a pull on other objects. Unlike friction, which acts only between objects that are touching, gravity also acts between objects that are not touching. In fact, gravity can act over very long distances. You are already very familiar with Earths gravity. It constantly pulls you toward the center of the planet. It prevents you and everything else on Earth from being flung out into space as the planet spins on its axis. It also pulls objects above the surface, from meteors to skydivers, down to the ground. Gravity between Earth and the moon and between Earth and artificial satellites keeps all these objects circling around Earth. Gravity also keeps Earth moving around the sun. Weight measures the force of gravity pulling on an object. Because weight measures force, the SI unit for weight is the newton (N). On Earth, a mass of 1 kilogram has a weight of about 10 newtons because of the pull of Earths gravity On the moon, which has less gravity, the same mass would weigh less. Weight is measured with a scale, like the spring scale in Figure 13.16. The scale measures the force with which gravity pulls an object downward. People have known about gravity for thousands of years. After all, they constantly experienced gravity in their daily lives. They knew that things always fall toward the ground. However, it wasnt until Sir Isaac Newton developed his law of gravity in the late 1600s that people really began to understand gravity. Newton is pictured in Figure 13.17. Newton was the first one to suggest that gravity is universal and affects all objects in the universe. Thats why his law of gravity is called the law of universal gravitation. Universal gravitation means that the force that causes an apple to fall from a tree to the ground is the same force that causes the moon to keep moving around Earth. Universal gravitation also means that while Earth exerts a pull on you, you exert a pull on Earth. In fact, there is gravity between you and every mass around you your desk, your book, your pen. Even tiny molecules of gas are attracted to one another by the force of gravity. Newtons law had a huge impact on how people thought about the universe. It explains the motion of objects not only on Earth but in outer space as well. You can learn more about Newtons law of gravity in the video at this URL: Newtons law also states that the strength of gravity between any two objects depends on two factors: the masses of the objects and the distance between them. Objects with greater mass have a stronger force of gravity. For example, because Earth is so massive, it attracts you and your desk more strongly than you and your desk attract each other. Thats why you and the desk remain in place on the floor rather than moving toward one another. Objects that are closer together have a stronger force of gravity. For example, the moon is closer to Earth than it is to the more massive sun, so the force of gravity is greater between the moon and Earth than between the moon and the sun. Thats why the moon circles around Earth rather than the sun. This is illustrated in Figure You can apply these relationships among mass, distance, and gravity by designing your own roller coaster at this URL: . Newtons idea of gravity can predict the motion of most but not all objects. In the early 1900s, Albert Einstein came up with a theory of gravity that is better at predicting how all objects move. Einstein showed mathematically that gravity is not really a force in the sense that Newton thought. Instead, gravity is a result of the warping, or curving, of space and time. Imagine a bowling ball pressing down on a trampoline. The surface of the trampoline would curve downward instead of being flat. Einstein theorized that Earth and other very massive bodies affect space and time around them
Question: Gravity always causes objects to | [
"attract each other."
] | task469-195e3aab399b4fd8a0095c686dd0693c | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: As of the census of 2000, there were 445,342 people, 169,162 households, and 114,015 families residing in the county. The population density was 615 people per square mile (238/km). There were 178,913 housing units at an average density of 247 per square mile (95/km). The racial makeup of the county was 82.19% Race (United States Census), 1.15% Race (United States Census) or Race (United States Census), 0.65% Race (United States Census), 6.68% Race (United States Census), 0.30% Race (United States Census), 5.86% from Race (United States Census), and 3.17% from two or more races. 11.17% of the population were Race (United States Census) or Race (United States Census) of any race. 17.2% were of German American, 9.9% English American, 8.2% Irish American, and 6.7% Americans ancestry. 81.7% spoke only English at home, while 9.6% spoke Spanish and 1.2% Vietnamese.
Question: Did more people consider themselves of English ancestry or German ancestry? | [
"german"
] | task469-c40c744f4ac04b1bbe0c604bcee6deb1 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Abdali invaded the Mughal Empire seven times from 1748 to 1767. According to Jaswant Lal Mehta, Durrani aroused the Afghans "religious passions" to fire and "sword into the land of infidels India." He crossed the Khyber pass in December 1747 with 40,000 troops for his first invasion of India. He occupied Peshawar without any opposition. He first crossed the Indus River in 1748, the year after his ascension- his forces sacked and absorbed Lahore. The following year , the Mughal ruler was induced to cede Sindh and all of the Punjab including the vital trans Indus River to him, in order to save his capital from being attacked by the forces of the Durrani Empire. Having thus gained substantial territories to the east without a fight, Durrani and his forces turned westward to take possession of Herat, which was ruled by Nader Shah's grandson, Shah Rukh. The city fell to the Afghans in 1750, after almost a year of siege and bloody conflict; the Afghan forces then pushed on into present-day Iran, capturing Nishapur and Mashhad in 1751. Durrani then pardoned Shah Rukh and reconstituted Khorasan, but a tributary of the Durrani Empire. This marked the westernmost border of the Afghan Empire as set by the Pul-i-Abrisham, on the Mashhad-Tehran road.
Question: Who invaded India | [
"durrani"
] | task469-c3f6962b820042d48378d45bef71c99c | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Succession is now regulated by laws passed by the National Diet. The current law excludes women from the succession. A change to this law had been considered until Princess Kiko gave birth to a son. Until the birth of Prince Hisahito, son of Prince Akishino, on September 6, 2006, there was a potential succession problem, since Prince Akishino was the only male child to be born into the imperial family since 1965. Following the birth of Princess Aiko, there was public debate about amending the current Imperial Household Law to allow women to succeed to the throne. In January 2005, Prime Minister Junichiro Koizumi appointed a special panel composed of judges, university professors, and civil servants to study changes to the Imperial Household Law and to make recommendations to the government. The panel dealing with the succession issue recommended on October 25, 2005, amending the law to allow females of the male line of imperial descent to ascend the Japanese throne. On January 20, 2006, Prime Minister Junichiro Koizumi devoted part of his annual keynote speech to the controversy, pledging to submit a bill allowing women to ascend the throne to ensure that the succession continues in the future in a stable manner. Shortly after the announcement that Princess Kiko was pregnant with her third child, Koizumi suspended such plans. Her son, Prince Hisahito, is the third in line to the throne under the current law of succession. On January 3, 2007, Prime Minister Shinzo Abe announced that he would drop the proposal to alter the Imperial Household Law.
Question: Who is Prince Hisahito's mother? | [
"princess kiko"
] | task469-5ad8854c3f8246fd988db333bb318732 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Singapore's selection as the host of the 28th Southeast Asian Games of 2015 was announced in 2011 during the 26th Southeast Asian Games, held in Indonesian cities Palembang and Jakarta. Singapore had previously been nominated to host the event in 2007 and 2013, but turned down both opportunities citing costs associated with the construction of the new Singapore Sports Hub.
Question: What happened first: 26th Southeast Asian Games or 28th Southeast Asian Games? | [
"26th southeast asian games"
] | task469-39ca6ec9b2ae4feaa9a54fb28f9776f7 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Who do you think was the most important woman of the past 100 years? Jane Addams (1860 - 1935) Addams helped the poor and worked for peace. She created shelters, education opportunities and services for people in need. In 1931, Addams became the first American woman to win the Nobel Peace Prize. Rachel Carson (1907 - 1964) Rachel Carson was born in the rural river town of Springdale, Pennsylvania in America. The popular 1962 book "Silent Spring" by Rachel Carson made people realize the dangers and the harmful effects of pollution on humans and on the world's lakes and oceans. Angela Merkel (1954 - ) In 2005, Germans chose Angela Merkel as their first woman head of the country. She had been a scientist in the past. As Germany's leader, she has had an effect on the whole world. Sandra Day O'Connor (1930 - ) When Sandra Day O'Connor finished her class at Stanford Law School, in 1952, she could not find work because she was a woman. However, she became the first woman to join the U.S. Supreme Court in 1981 after years of hard work. Margaret Thatcher (1925 - ) In 1979, Margaret Thatcher became Britain's first woman Prime Minister . She served until 1990, which made her the first British leader to serve three terms in a row. Because of her high standards and strong will, people called her Britain's Iron Lady. Marie Curie (1867-19245102534) Polish-born scientist Marie Curie discovered that some types of metal give off energy called radiation . Her research led to new medical treatments and arms. She received the Nobel Prize in Physics in 1903 and in Chemistry in 1911.
Question: Who once failed to find a job? | [
"sandra day o'connor."
] | task469-2a27c5a8a18642d1b3e8524f4d6de1fe | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Asexual reproduction is simpler than sexual reproduction. It involves just one parent. The offspring are genetically identical to each other and to the parent. All prokaryotes and some eukaryotes reproduce this way. There are several different methods of asexual reproduction. They include binary fission, fragmentation, and budding. Binary fission occurs when a parent cell simply splits into two daughter cells. This method is described in detail in the lesson "Cell Division." Bacteria reproduce this way. You can see a bacterial cell reproducing by binary fission in Figure 5.9. Fragmentation occurs when a piece breaks off from a parent organism. Then the piece develops into a new organism. Sea stars, like the one in Figure 5.10, can reproduce this way. In fact, a new sea star can form from a single arm. Budding occurs when a parent cell forms a bubble-like bud. The bud stays attached to the parent while it grows and develops. It breaks away from the parent only after it is fully formed. Yeasts can reproduce this way. You can see two yeast cells budding in Figure 5.11. Sexual reproduction is more complicated. It involves two parents. Special cells called gametes are produced by the parents. A gamete produced by a female parent is generally called an egg. A gamete produced by a male parent is usually called a sperm. An offspring forms when two gametes unite. The union of the two gametes is called fertilization. You can see a human sperm and egg uniting in Figure 5.12. The initial cell that forms when two gametes unite is called a zygote. In species with sexual reproduction, each cell of the body has two copies of each chromosome. For example, human beings have 23 different chromosomes. Each body cell contains two of each chromosome, for a total of 46 chromosomes. You can see the 23 pairs of human chromosomes in Figure 5.13. The number of different types of chromosomes is called the haploid number. In humans, the haploid number is 23. The number of chromosomes in normal body cells is called the diploid number. The diploid number is twice the haploid number. In humans, the diploid number is two times 23, or 46. The two members of a given pair of chromosomes are called homologous chromosomes. We get one of each homologous pair, or 23 chromosomes, from our father. We get the other one of each pair, or 23 chromosomes, from our mother. A gamete must have the haploid number of chromosomes. That way, when two gametes unite, the zygote will have the diploid number. How are haploid cells produced? The answer is meiosis. Meiosis is a special type of cell division. It produces haploid daughter cells. It occurs when an organism makes gametes. Meiosis is basically mitosis times two. The original diploid cell divides twice. The first time is called meiosis I. The second time is called meiosis II. However, the DNA replicates only once. It replicates before meiosis I but not before meiosis II. This results in four haploid daughter cells. Meiosis I and meiosis II occurs in the same four phases as mitosis. The phases are prophase, metaphase, anaphase, and telophase. However, meiosis I has an important difference. In meiosis I, homologous chromosomes pair up and then separate. As a result, each daughter cell has only one chromosome from each homologous pair. Figure 5.14 is a simple model of meiosis. It shows both meiosis I and II. You can read more about the stages below. You can also learn more about them by watching this video: . MEDIA Click image to the left or use the URL below. URL: After DNA replicates during interphase, the nucleus of the cell undergoes the four phases of meiosis I: 1. Prophase I: Chromosomes form, and the nuclear membrane breaks down. Centrioles move to opposite poles of the cell. Spindle fibers form between the centrioles. Heres whats special about meiosis: Homologous chromosomes pair up! You can see this in Figure below. 2. Metaphase I: Spindle fibers attach to the centromeres of the paired homologous chromosomes. The paired chromosomes line up at the center of
Question: Asexual reproduction | [
"is simpler than sexual reproduction."
] | task469-6fd1f17132b84436a0e59cb0f19b5149 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Facioscapulohumeral muscular dystrophy (FSHD) is a common form of muscular dystrophy characterized by an asymmetric progressive weakness and wasting of the facial, shoulder and upper arm muscles, frequently accompanied by hearing loss and retinal vasculopathy. FSHD is an autosomal dominant disease linked to chromosome 4q35, but the causative gene remains controversial. DUX4 is a leading candidate gene as causative of FSHD. However, DUX4 expression is extremely low in FSHD muscle, and there is no DUX4 animal model that mirrors the pathology in human FSHD. Here, we show that the misexpression of very low levels of human DUX4 in zebrafish development recapitulates the phenotypes seen in human FSHD patients. Microinjection of small amounts of human full-length DUX4 (DUX4-fl) mRNA into fertilized zebrafish eggs caused asymmetric abnormalities such as less pigmentation of the eyes, altered morphology of ears, developmental abnormality of fin muscle, disorganization of facial musculature and/or degeneration of trunk muscle later in development. Moreover, DUX4-fl expression caused aberrant localization of myogenic cells marked with -actin promoter-driven enhanced green fluorescent protein outside somite boundary, especially in head region. These abnormalities were rescued by coinjection of the short form of DUX4 (DUX4-s). Our results suggest that the misexpression of DUX4-fl, even at extremely low level, can recapitulate the phenotype observed in FSHD patients in a vertebrate model. These results strongly support the current hypothesis for a role of DUX4 in FSHD pathogenesis. We also propose that DUX4 expression during development is important for the pathogenesis of FSHD.
Question: Which disease is associated with the ectopic expression of the protein encoded by the gene DUX4? | [
"fshd",
"facioscapulohumeral dystrophy"
] | task469-4626e59e74f5464987a448e643636059 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Child of Light is a platforming role-playing video game developed by Ubisoft Montreal and published by Ubisoft.
Question: What company published Child of Light? | [
"ubisoft"
] | task469-9f8100d5868549dc9827d617ad4135d4 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Hoping to build on their home win over the Jets, the Browns flew to Qualcomm Stadium to take on the throwback-clad San Diego Chargers. In the first quarter, things started off close with Chargers kicker Nate Kaeding getting a 29-yard field goal, while Browns kicker Phil Dawson nailed a 37-yarder. In the second quarter, Dawson would get a 20-yard field goal for Cleveland. However, San Diego got the first touchdown of the game, as LB Marques Harris recovered a fumble in the Browns endzone for a touchdown. Dawson would supply the scoring for Cleveland for the rest of the half, as he nailed a 42-yarder and a 30-yarder. In the third quarter, the Chargers gained some momentum, as RB LaDainian Tomlinson, after getting bottled up in the first half, broke out with a 41-yard TD run for the only score of the period. In the fourth quarter, Dawson would get another field goal, which came from 36 yards out. However, San Diego would respond with Tomlinson getting a 7-yard TD run. Cleveland would have Dawson get a 35-yard field goal, yet Tomlinson would get an 8-yard TD run, which was followed by a successful two-point conversion from QB Philip Rivers to WR Vincent Jackson. The Browns would finally get a touchdown, as QB Charlie Frye completed a 4-yard TD pass to WR Braylon Edwards. Unfortunately, the damage was already done. With the loss, Cleveland would fall to 2-6.
Question: Which team scored less points in the second quarter? | [
"san diego"
] | task469-7ca79ee44ace440c9b6fccb8e02631f8 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Patients with splenomegaly and abnormally high leukocyte counts were first recognized in France, Germany, and Scotland in the 1840s. The only well-documented therapy in the 19th century was use of arsenic in one or other form, which did undoubtedly reduce the leukocyte count but probably did little or nothing to prolong life. These early cases were probably examples of chronic myeloid leukemia (CML) (then called chronic granulocytic leukemia). In the 20th century important steps in unraveling the pathogenesis of CML were the discovery of the Philadelphia chromosome in 1960, and of the (9;22) translocation in 1973. There followed definition of the breakpoint cluster region on chromosome 22 in 1984 and the demonstration of the BCR-ABL transcript in CML in 1985. In the first half of the 20th century patients were treated predominantly with radiotherapy, and later on with busulfan, hydroxycarbamide, or interferon-alfa (IFN-). From 1980 onwards allogeneic stem cell transplantation (SCT) became the treatment of choice for eligible patients. The era of tyrosine kinase inhibitors (TKI) began in 1998 and today the use of the original TKI, imatinib, has replaced SCT as initial therapy for patients who present with CML in chronic phase.
Question: What tyrosine kinase, involved in a Philadelphia- chromosome positive chronic myelogenous leukemia, is the target of Imatinib (Gleevec)? | [
"bcr-abl"
] | task469-beedc9ab481b444ba043b2cdb7bc7827 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Infectious Mononucleosis (IM), a benign lymphoproliferative disease, is the best known clinical syndrome caused by Epstein-Barr Virus (EBV). It usually resolves over a period of weeks or months without sequelae but may occasionally be complicated by a wide variety of neurologic, hematologic, hepatic, respiratory, and psychological complications. In this report we describe a patient with acute hepatitis following EBV-IM in a previously healthy woman. A 26-year-old woman who presented with fever, generalized weakness, nausea, sore throat, yellowing of skin, and a generalized skin rash was admitted to our clinic. Tonsillar enlargement, pharyngeal erythema, palatal petechiae, lymphadenopathy, and jaundice were noted. Significant atypical lymphocytes ( > 10%) were seen on the peripheral blood smear. Liver function tests such as ALT: 303 U/L, AST: 172 U/L, ALP: 193 U/L and total bilirubin: 7.3 mg/dl were elevated. Serological tests for EBV infection were consistent with acute infection (EBV virus capsid antigen was reactive with IgM and IgG antibodies). The Monospot test was also positive. On the seventh day, liver function tests and bilirubin had risen to peak level and platelets were decreased. The patient was managed supportively and her critical condition improved and was finally stabilized. Although the prognosis for IM is very favorable, a variety of acute complications may occur.
Question: Which virus can be diagnosed with the monospot test? | [
"epstein-barr virus"
] | task469-0714b2d7d5a146a184c1719265398a8f | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Two spontaneous mutant beige rats, with phenotypes resembling human Chediak- Higashi syndrome (CHS), were found independently in two inbred strains. Both beige mutations were identified to be recessive alleles in the Lyst locus on rat chromosome 17 and the alleles were denoted Lyst(bg) and Lyst(bg-Kyo). As it is almost impossible to discriminate these mutations phenotypically, we developed an allele-specific genotyping method for the Lyst gene. The nested PCR amplification was followed by restriction fragment length polymorphism (RFLP) analysis. By this method, we could discriminate the mutant Lyst(bg), Lyst(bg-Kyo) alleles, and the normal Lyst allele, easily and accurately.
Question: Which syndrome is associated with mutations in the LYST gene? | [
"chediak- higashi syndrome",
"chediak-higashi syndrome"
] | task469-25be98d8cec242b59db04d7164e29672 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: On an October morning in 1951, Norman Dale (Gene Hackman) drives through the Indiana countryside. In the afternoon he arrives in the small rural town of Hickory and enters the high school. He notices, on a shelf in the hall, basketball trophies won in previous years. As the bell rings to end the school day, he encounters teacher Myra Fleener (Barbara Hershey). She realizes that Norman must be the new basketball coach and teacher of history and civics. She directs him to the office of principal Cletus Summers (Sheb Wooley), where the two men recall how they met many years ago at Buffalo State Teachers College. They had lost touch until recently, when Cletus tracked down Norman and asked him to come coach at Hickory. When Norman thanks Cletus for the opportunity, Cletus interrupts and says, "Your slate's clean here." They proceed to the gym, where student Jimmy Chitwood (Maris Valainis) is shooting baskets. Cletus introduces Norman, but Jimmy ignores the new coach and keeps shooting.That evening on his farm, Cletus explains to Norman that Jimmy has been strongly affected by the recent death of the previous coach, who was like a father to Jimmy. Now the young man has withdrawn from almost everything and everyone and has decided not to play basketball this season. Cletus adds that Jimmy is the best player he has ever seen. As they finish talking, Norman cryptically mentions that he hopes things will work out for him this time.That night, Norman meets some of the townsmen in the barbershop, who bombard him with questions. He tells them he last coached 12 years ago, in Ithaca, New York, and that he has been in the Navy for the past 10 years. The men voice their opinions on what Norman should do with the team. They all agree that Jimmy must rejoin the Huskers for them to have a winning season. Losing patience with all the questions and unwelcome advice, Norman cuts short the meet-and-greet and leaves.The next morning, before school begins, Myra tells Norman that Jimmy is her neighbor, and she has been looking out for him ever since his father died. She thinks it best that he stay off the team. After school, the Huskers are already practicing in the gym when Norman walks in. George Walker (Chelcie Ross), one of the townspeople Norman met in the barbershop, is leading the practice and assumes that Norman will continue allowing him to assist. When Norman brusquely makes it clear that he doesn't need any help, George storms off. As Norman gathers the seven Huskers and begins to introduce himself, Buddy (Brad Long) rudely whispers to his teammate Whit (Brad Boyle), who is standing next to him. Norman orders Buddy to leave, and Buddy convinces Whit to go with him. Jimmy is watching, unseen, at one of the far exits. Norman begins the practice and puts the Huskers through drills of passing, running in place, and dribbling while weaving between chairs; they never scrimmage. Norman explains, "There's more to the game than shooting. There's fundamentals and defense." He also wants them to be in top physical condition because, if they continue to have only five players, substitutions and rest during games will be impossible. On the second day of practice, several townspeople walk in to observe; they've heard about Norman's unusual drills. Rollin Butcher (Robert Swan), Whit's father, brings in his son and has him apologize for walking out the day before. Rollin then tells the other men to leave, because the coach doesn't want them there.One day, as Cletus and Norman eat pie at the diner downtown, in comes Wilbur "Shooter" Flatch (Dennis Hopper), stumbling a bit and wearing a worn-out coat. Shooter, a former basketball player, describes for Norman how he almost led his team to victory in the 1933 sectional game of the tournament on a last-second shot. When Shooter asks Cletus in a low voice if he can borrow some spare change, Shooter's son, Everett (David Neidorf), who
Question: Who is the best player in the town? | [
"jimmy",
"norman"
] | task469-1bb5158d3a1d4ea38a2abac6034a3fed | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: One of the colors of mink is Aleutian (aa)-a specific gun-metal gray pigmentation of the fur-commonly used in combination with other color loci to generate popular colors such as Violet (aammpp) and Sapphire (aapp). The Aleutian color allele is a manifestation of mink Chediak-Higashi syndrome (CHS), which has been described in humans and several other species. As with forms of CHS in other species, we report that the mink CHS is linked to the lysosomal trafficking regulator ( LYST ) gene. Furthermore, we have identified a base deletion (c.9468delC) in exon 40 of LYST, which causes a frameshift and virtually terminates the LYST product prematurely (p.Leu3156Phefs*37). We investigated the blood parameters of three wild-type mink and three CHS mink. No difference in the platelet number between the two groups was observed, but an accumulation of platelets between the groups appears different when collagen is used as a coagulant. Microscopic analysis of peripheral blood indicates giant inclusions in the neutrophils of the Aleutian mink types. Molecular findings at the LYST locus enable the development of genetic tests for analyzing the color selection in American mink.
Question: Which mutated gene causes the ChediakHigashi Syndrome? | [
"lysosomal trafficking regulator gene",
"lyst gene"
] | task469-9e2c8c3e0b334c4f8d540b814c28f4a5 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: At the Kibbutz Stein in Israel in 1956, school teacher Rachel (Clarice van Houten) is reunited with Ronnie (Halina Reijn), a friend from The Hague during World War II. After Ronnie leaves, Rachel reflects on her adventures during the final days of the war.In 1944, Rachel hides from the Nazis in a farm in the Dutch countryside. In exchange for hiding her, they expect her to learn Bible verses. One day, a crippled Allied bomber drops its payload on the farmhouse, killing everyone except Rachel. Rob (Michiel Heisman), a young man from a neighboring farm, hides her in the family's greenhouse. That night, Van Gein (Peter Blok), a police officer, arrives to tell them that the Nazis know that Rachel is in the area and will hunt her down. He agrees to help Rachel and Rob escape to the Allied controlled southern part of Holland. Rachel visits her father's lawyer, Smaal (Dolf de Vries). He gives her enough money and jewels to live on for a year but warns her not to trust people so easily. Van Gein leads Rachel and Rob to a dock where other Jews wait to leave. Rachel is reunited with her parents and brother, who is recovering from an emergency appendectomy. Van Gein does not accompany the Jews on the boat trip. That evening, the boat is ambushed by a Nazi patrol boat. The Nazis immediately open fire; only Rachel survives the massacre. Before drifting down the river, she sees the Nazis loot the corpses.Rachel is found by Resistance fighters who smuggle her into The Hague by disguising her as a typhoid victim and placing her in a coffin that if properly "sealed" has sizable air holes. She is taken to a soup kitchen run by another member of the Resistance, Gerben Kuipers (Derek de Lint) and given the new name of Ellis de Vries. Eventually she is made a part of the Resistance's plans to smuggle in British guns and rations. The smugglers are led by Hans Akkermans (Thom Hoffman), an expert marksman. He and Ellis are to pose as husband and wife so the Nazis will not search their luggage on the train; the luggage is actually full of weaponry. But when the Nazi soldiers on the train clearly do intend to search all baggage, a new plan is needed. Ellis takes the bags and enters a private compartment occupied by SD Colonel Muntze (Sebastian Koch). The Nazis don't search Muntze's compartment. Ellis and Muntze are clearly attracted to each other and she accepts an offer to visit him at his office. Hans is clearly jealous.A truck carrying the British guns crashes in front of the soup kitchen. Kuiper's son, Tim (Ronald Armbrust) was driving and is arrested by the Gestapo. While the others go into hiding, Ellis arranges a meeting with Muntze hoping that she can persuade him to release Tim. Knowing he is an avid stamp collector, she takes some rare Dutch stamps to him. He invites her to a Nazi party. There she sees SS commandant Gunter Franken (Waldemar Kobus) and recognizes him as the Nazi who led the ambush against the refugee boat. Although she is sickened at his sight, she manages to sing at the party later. She and Muntze return to his suite to make love. He intuits that she is Jewish from her dyed blond hair but has fallen in love with her. She accepts a job in his office and begins work the following day. There she meets Ronnie, who is Franken's secretary/sex partner. Franken gives them a report indicating that Tim has confessed everything and is to be executed, however, Muntze refuses to sign the execution order.Ellis sees Smaal at Nazi headquarters and learns that he and Muntze have negotiated a cease fire -- if the Resistance ceases its attacks against the Nazis, the Nazis will cease its violent reprisals against Dutch civilians. However, when a hidden microphone placed by Ellis in Franken's office reveals that Franken and Van Gein have been working together to kill and rob Jews trying to escape into Allied territory, a controversy amongst the Resistance fighters ensues. Van Gein is heard
Question: Where is Akkermans hiding ? | [
"coffin"
] | task469-0301cdf25d614f998e5ac32407bd8b63 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Ponds are small bodies of fresh water that usually have no outlet; ponds are often are fed by underground springs. Like lakes, ponds are bordered by hills or low rises so the water is blocked from flowing directly downhill. Lakes are larger bodies of water. Lakes are usually fresh water, although the Great Salt Lake in Utah is just one exception. Water usually drains out of a lake through a river or a stream and all lakes lose water to evaporation. Lakes form in a variety of different ways: in depressions carved by glaciers, in calderas (Figure 1.1), and along tectonic faults, to name a few. Subglacial lakes are even found below a frozen ice cap. As a result of geologic history and the arrangement of land masses, most lakes are in the Northern Hemisphere. In fact, more than 60% of all the worlds lakes are in Canada most of these lakes were formed by the glaciers that covered most of Canada in the last Ice Age (Figure 1.2). Lakes are not permanent features of a landscape. Some come and go with the seasons, as water levels rise and fall. Over a longer time, lakes disappear when they fill with sediments, if the springs or streams that fill them diminish, (a) Crater Lake in Oregon is in a volcanic caldera. Lakes can also form in volcanic craters and impact craters. (b) The Great Lakes fill depressions eroded as glaciers scraped rock out from the landscape. (c) Lake Baikal, ice coated in winter in this image, formed as water filled up a tectonic faults. Lakes near Yellowknife were carved by glaciers during the last Ice Age. or if their outlets grow because of erosion. When the climate of an area changes, lakes can either expand or shrink (Figure 1.3). Lakes may disappear if precipitation significantly diminishes. Large lakes have tidal systems and currents, and can even affect weather patterns. The Great Lakes in the United States contain 22% of the worlds fresh surface water (Figure 1.1). The largest them, Lake Superior, has a tide that rises and falls several centimeters each day. The Great Lakes are large enough to alter the weather system in Northeastern United States by the lake effect, which is an increase in snow downwind of the relatively warm lakes. The Great Lakes are home to countless species of fish and wildlife. Many lakes are not natural, but are human-made. People dam a stream in a suitable spot and then let the water back up behind it, creating a lake. These lakes are called "reservoirs." Click image to the left or use the URL below. URL:
Question: which of these is not full of fresh water? | [
"the great salt lake"
] | task469-b0e2bf66d1484843ab9fd92b32674ae4 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Labrador Airways Limited, operating as Air Labrador, is a regional airline based in Goose Bay (CFB Goose Bay), Newfoundland and Labrador, Canada.
Question: Which airport does Air Labrador operate in? | [
"cfb goose bay"
] | task469-c00bcc52732841068674bacdd1bca1a3 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The movie begins in the year 1967 with a pregnant woman being admitted to a hospital, bleeding from the neck. Paramedics think she was attacked by some type of animal. Doctors perform an emergency C-Section, and her baby (a boy) is born alive just as she dies.Thirty years later a young man named Dennis (Kenny Johnson) is riding in a car with an attractive redhead named Racquel (Traci Lords) heading to an underground nightclub (located, oddly, in a slaughterhouse) somewhere in Los Angeles. After addressing the doorman in Russian, Racquel brings the young man into the club. The man is confused and trying to understand the rules of the club. Some of the regulars indifferently push him aside. Saying he needs a drink, the sprinkler suddenly system activates, raining blood down on everyone inside. It is then that he (and the audience) realizes that everyone in the club is a vampire.Dennis desperately tries to get away and winds up at the feet of a menacing figure in a black-leather trenchcoat. The vampires look on this figure with awe, mumbling the words: "it's the Daywalker!" This is our first look at Blade (Wesley Snipes), the vampire killer.Blade pulls out a shotgun and opens fire on the vampires, who instantly burn to ashes when killed. When the gun is knocked out of his hands by Racquel, Blade uses a set of silver stakes to kill Racquel and more vampires, including the disk jockey. Soon all the vamps are either dead or have fled except for one; a heavyset vamp named Quinn (Donal Logue), whom Blade has apparently run into before. Blade pins Quinn to the wall, and then sets him on fire before confronting the last member in the club (the human man from the beginning). Finding no vampire bite marks on Dennis, Blade lets him live and makes his escape as the police arrive.Quinn is extinguished and taken to the local hospital. A morgue technician examines his blood and shows the results to Dr. Karen Jenson (N'Bushe Wright), who finds a number of irregularities, including abnormally developed jaw muscles. As they are discussing the test results, Quinn springs back to life and bites both doctors. Before he can finish Dr. Jenson, Blade shows up and saves her, cutting off one of Quinn's arms.Blade brings Karen to his hideout and asks for help from his mentor, an elderly man named named Whistler (Kris Kristofferson). Whistler injects Dr. Jenson with a solution of garlic essence and silver nitrate and remarks that she has a 50/50 chance of recovering.Meanwhile, a group of vampires are discussing Blade's latest attack on their members. Apparently this club (and to an extent, Quinn) is the property of a vampire named Deacon Frost (Stephen Dorff). Frost wants the vampires to outright rule the humans and use them as a food source while the others (particularly an older vampire named Dragonetti) prefer to maintain a peaceful co-existance. Dragonetti (Udo Kier) in particular does not like Frost because Frost is not a "pure-blood" (ie: was not born a vampire, merely became one through the bite of another). Frost is also arrogant and his & the actions of his followers draw unnecessary attention to the vampire underworld.The next morning, Jenson awakens and sees Whistler injecting Blade with some type of serum. She tries to run away but Whistler confronts her and tells her that he and Blade are hunting vampires. Karen of course is skeptical, but Whistler goes on to talk about what they use to hunt- explaining that vampires are severely allergic to silver & garlic while also being vulnerable to sunlight (ultraviolet rays in particular). Whistler fuels up Blade's car and gives him a new UV flashlight to use when hunting that night. Whistler also gives Karen a type of "vampire mace" (garlic & silver nitrate in a liquid form).Blade drops Karen off at her apartment and she tries to pack up and get out of town. A police officer, identifying himself as Officer Krieger (Kevin Patrick Walls), arrives and questions her about the events
Question: When was the woman attacked? | [
"while giving birth",
"1967"
] | task469-577e42ceb2544eb4a0678d174489de63 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Human selenoprotein P (HSelP) is unique protein that contains 10 selenocysteines encoded by 10 inframe UGA, which typically function as stop codon. The function of HSelP remains unclear, in part due to the inability to express it by gene recombinant technique. This study is to investigate expression and purification of recombinant HSelP in prokaryotic expression system, and its activity to induce apoptosis in vitro. The shorter HSelP isoform was cloned. After the selenocysteine (SeCys) at 40th position from N terminus of the HSelP shorter isoform was mutated into cysteine by PCR, it was expressed in E. coli. The expressed product was purified with DEAE column and identified by Western blot. Subsequently, its function on induction of mitochondrial apoptotic activity was studied. The mutant HSelP shorter isoform expressed in prokaryotic system was purified by DEAE column to 90% homogeneity. The purified product, HSelP280m, induced the opening of mitochondrial permeability transition pore (PTP) and decreased the transmembrane potential in a dose-dependent manner. These events could be abolished by PTP specific inhibitors. HSelP280m can induce the opening of mitochondrial PTP, which provides a basis for investigating the structure and function of recombinant HSelP.
Question: Which is the human selenoprotein that contains several Se-Cys residues? | [
"selenoprotein p"
] | task469-d5b0d45a3e5f40e5997836b1024a92c9 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Modeled after US hot website.com, group buying websites are now popular in China. These websites use the power of group buying to get competitive discounts for a daily deal on some best stuff to do, see, eat and buy in the cities across China. Discounts are available within just one click. Zhao lei, a software engineer in Beijing, loves the one-hour lunch break at noon,as it is the best time for him to check "today's special" at his favorite group buying websites . Sometimes he searches for great deals at directory sites devoted to the new shopping space. Zhao spends around 800 yuan($117.65) on group buying every month, mostly to buy food coupons for eating at some nice restaurants and occasionally to find something fun to do. " I love group buying. In addition to the competitive discounts it offers, it helps me get something fun, exciting and new, and such surprises give me a reason to try something new," he said. When he finds a really good bargain, he will send the link to friends or colleagues through MSN,QQ, or e-mail, or share the information at some social networking websites. In doing so, he often gets a certain cut off the price. At some sites, buyers are invited to leave notes about what they want to buy and the website will consider it if similar applications reach a certain number. That is how Zuo got her digital camera after waiting for two months. "It is cool. I want to buy a new digitgal camera for my trip to Switzerland this winter, but I never expected such cheap prices!" Zuo said.
Question: What is the passage mainly about? | [
"group buying"
] | task469-ef724072851e40219194172096a1870a | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Vaginal microbicides for the prevention of HIV transmission may be an important option for protecting women from infection. Incorporation of dapivirine, a lead candidate nonnucleoside reverse transcriptase inhibitor, into intravaginal rings (IVRs) for sustained mucosal delivery may increase microbicide product adherence and efficacy compared with conventional vaginal formulations. Twenty-four healthy HIV-negative women 18-35 years of age were randomly assigned (1:1:1) to dapivirine matrix IVR, dapivirine reservoir IVR, or placebo IVR. Dapivirine concentrations were measured in plasma and vaginal fluid samples collected at sequential time points over the 33-day study period (28 days of IVR use, 5 days of follow-up). Safety was assessed by pelvic/colposcopic examinations, clinical laboratory tests, and adverse events. Both IVR types were safe and well tolerated with similar adverse events observed in the placebo and dapivirine groups. Dapivirine from both IVR types was successfully distributed throughout the lower genital tract at concentrations over 4 logs greater than the EC50 against wild-type HIV-1 (LAI) in MT4 cells. Maximum concentration (Cmax) and area under the concentration-time curve (AUC) values were significantly higher with the matrix than reservoir IVR. Mean plasma concentrations of dapivirine were <2 ng/mL. These findings suggest that IVR delivery of microbicides is a viable option meriting further study.
Question: Which infection can be prevented with Dapivirine? | [
"hiv"
] | task469-16736f356df246db8b4659ef7a84ecbb | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The Rams started their season on the road against the Lions. The Rams drew first blood in the first quarter with a 48-yard field goal from Greg Zuerlein to take a 3-0 lead for the only score of that quarter. The Lions then took a 7-3 lead with Joique Bell's 1-yard run for a touchdown in the 2nd quarter. The Rams responded with a 29-yard field goal from Zuerlein as they came up within a point 7-6 before on the Lions' next possession, Matthew Stafford was picked off by Cortland Finnegan and it was returned 31 yards for a touchdown as the Rams retook the lead 13-7. The Lions then responded with Jason Hanson kicking a 41-yard field goal to shorten the Rams' lead to 13-10 at halftime. After the break, the Lions scored first with Jason Hanson kicking a 45-yard field goal to tie the game 13-13 for the only score of the 3rd quarter. However, the Rams moved back into the lead in the 4th quarter with Brandon Gibson's 23-yard catch from Sam Bradford to make it 20-13. The Lions tied the game back up with Kevin Smith running for a touchdown from 5 yards out to tie the game 20-20. The Rams then retook the lead with Greg Zuerlein kicking a 46-yard field goal to make the score 23-20. On their last possession, the Lions moved down the field and Matthew Stafford found Kevin Smith on a 5-yard touchdown pass to make the final score 27-23 as the Rams began their season 0-1.
Question: Who kicked the longest field goal in the last quarter? | [
"greg zuerlein"
] | task469-e4e543787813461c9419b53bc13c1a2a | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Ron Bozman is an American film producer who won an Academy Award for Best Picture in 1991 for the film The Silence of the Lambs.
Question: What award was Ron Bozman nominated for? | [
"academy award for best picture"
] | task469-72c56c1e4b274ba297c00126dcdb1dd5 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: As of the 2010 United States Census, there were 1,951,269 people, 715,365 households, and 467,916 families residing in the county. The population density was . There were 840,343 housing units at an average density of . The racial makeup of the county was 60.9% white, 10.5% black or African American, 8.7% Asian, 0.7% Pacific islander, 0.7% American Indian, 13.5% from other races, and 5.1% from two or more races. Those of Hispanic or Latino origin made up 29.1% of the population. In terms of ancestry, 11.7% were Germans, 9.1% were Irish people, 7.6% were English people, 6.3% were Italians, and 2.7% were Americans.
Question: Where there more people from other races, or two or more races? | [
"other races"
] | task469-7cd6a9f803314c5a8ba8f5a8bcc83140 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: A Viking boy called Hiccup (voice: Jay Baruchel) introduces his village of Berk ("it's been here for seven generations, but every single building is new"). The village is attacked by dragons, who steal food (mostly sheep) and set things on fire (hence all the new buildings). The villagers grab weapons and try to fight the dragons off. Despite being told by every adult in sight to go indoors, Hiccup hauls out a bolas-shooting cannon he made himself and shoots a dragon out of the night sky. (As assistant to the village blacksmith, Gobber (voice: Craig Ferguson), Hiccup has access to tools and materials and knows how to use them.) The dragon lands in the woods some distance form the village and no one believes that he hit anything, so it's the next day before Hiccup can go looking for it. It turns out to be a rare and deadly Night Fury, but Hiccup can't make himself kill it. Instead he releases it -- whereupon it also refrains from killing Hiccup -- and it flies off through the trees.Hiccup discovers that the dragon (which he eventually calls Toothless because of its retractable teeth) has holed up in a steep-sided valley because it can no longer fly more than a few feet at a time. While sketching the dragon, Hiccup realizes that it's missing a tail fin. He makes a prosthetic tail fin out of leather. The new fin helps, but Toothless can't control it and inadvertently takes Hiccup for a ride, giving him a clear idea of what's needed to help the dragon fly right. In a series of workshop and test flight scenes, Hiccup builds and perfects a saddle, a control mechanism for the tail fin, and a safety harness.Meanwhile, Hiccup's father Stoick (voice: Gerard Butler) has signed him up for dragon training with Gobber, which is very different from the training he's already doing with Toothless: he's going to learn to fight dragons. At first, he's the worst student in the class. Since Hiccup has always been an accident-prone klutz, this comes as no surprise to his classmates Astrid (voice: America Ferrera), Snotlout (voice: Jonah Hill), Fishlegs (voice: Christopher Mintz-Plasse), Ruffnut (voice: Kristen Wiig), and her twin brother Tuffnut (voice: T.J. Miller). (Hiccup's a little sweet on Astrid.) Before long, Hiccup is able to use some things he's learned while working with Toothless to soothe and manage the school's practice dragons. (It turns out dragons are just big kitty-cats: they like to be petted, there's a kind of grass that's like cat-nip to them, and they love fish (but hate eels).) When Stoick returns from a failed search for the fabled nest of the dragons, he's surprised but thrilled to hear that his son is doing brilliantly at dragon training. He gives Hiccup a horned helmet made from one of his dead mother's breastplates. But Hiccup, as usual, is unable to get around his father's expectations and speak frankly, so he can't explain that his success at dragon school is unlikely to lead to the slaying of any dragons.When Hiccup subdues a practice dragon, unintentionally earning the privilege of killing it before the entire village, he's horrified and decides to flee with Toothless. However Astrid, having noticed Hiccup's frequent disappearances and secretive behavior, is suspicious. She follows him to the hidden valley and sees Toothless. Unable to explain his relationship with the dragon, Hiccup takes her flying, and she's captivated. But they get caught up in a flock of dragons returning to their nest carrying food. The dragons fly inside a mountainous island and drop the food into a pit, which turns out to contain a huge, terrifying, and very hungry dragon that eats the smaller ones if they don't bring it enough food. Hiccup and Astrid and shocked to realize that the dragons have been stealing their sheep to keep from being eaten themselves. When they get home,
Question: Who teaches the dragon fighting class? | [
"hiccup",
"gobber"
] | task469-15fb976983f84653adeec2bbef97a49d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The film starts on June 16, 1994 with Jesse meeting Celine on a train from Budapest and striking up a conversation with her. Jesse is going to Vienna to catch a flight back to the United States, whereas Celine is returning to university in Paris after visiting her grandmother. When they reach Vienna, Jesse convinces Celine to disembark with him, saying that 10 or 20 years down the road, she might not be happy with her marriage and might wonder how her life would have been different if she had picked another guy, and this is a chance to realize that he himself is not that different from the rest; in his words, he is "the same boring, unmotivated guy." Jesse has to catch a flight early in the morning and does not have enough money to rent a room for the night, so they decide to roam around in Vienna. After visiting a few landmarks in Vienna, they share a kiss at the top of the Wiener Riesenrad at sunset and start to feel a romantic connection. As they continue to roam around the city, they begin to talk more openly with each other, with conversations ranging from topics about love, life, religion, and their observations of the city. Celine tells Jesse that her last boyfriend broke up with her six months ago, claiming that she "loved him too much". When questioned, Jesse reveals he had initially come to Europe to spend time with his girlfriend who was studying in Madrid, but they had broken up when she was avoiding him while he was there. He decided to take a cheap flight home, via Vienna, but it did not leave for two weeks so he bought a Eurail pass and traveled around Europe. When they are walking alongside the Donaukanal (Danube canal) they are approached by a man who, instead of begging, offers to write them a poem with a word of their choice in it. Jesse and Celine decide on the word "milkshake", and are soon presented with the poem Delusion Angel (written for the film by the poet David Jewell). In a traditional Viennese cafe, Jesse and Celine stage fake phone conversations with each other, playing each other's friends they pretend to call. Celine reveals that she was ready to get off the train with Jesse before he convinced her. Jesse reveals that after he broke up with his girlfriend, he bought a flight that really was not much cheaper, and all he really wanted was an escape from his life. They admit their attraction to each other and how the night has made them feel, though they understand that they probably will not see each other again when they leave. They simply decide to make the best of what time they have left, ending the night with the implication of a sexual encounter between them. At that point, Jesse explains that if given the choice, he would marry her instead of never seeing her again. The film ends the next day at the train station, where, just as Celine's train is about to leave, the couple decides not to exchange any contact information but instead to meet at the same place in six months.
Question: Jesse and Cline decide to meet again at the train station after how many months? | [
"six months"
] | task469-0f8c86d2e72e45eda7356ee088c8725c | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The World's Largest Insect .This giant insect can be used as a toy. A child ties one end of a string to a stick and the other end around the "neck" of an insect. Holding the stick, the child lets the insect go. With a loud whirring sound, the insect takes off, pulling the string in a large curve over the child's head. The child laughs as the stick jumps around. The child is African, and the toy is the African Goliath beetle, the largest insect in the world. The Goliath is a true insect because it has six legs and a body that is divided into three parts. Like all beetles, it has two pairs of wings. The front pair are thick and stiff and protect the back pair, which are soft. It is these soft back wings that make the beetle fly forward. They also cause the loud whirring sound the beetle makes when it flies. To steer, the beetle twists and turns its legs the same way you steer a bike by turning its front wheel. African children often use the Goliath beetle as a toy. Although it is over 15 centimeters long, it is quite harmless.
Question: What do African children often use the Goliath beetle as? | [
"a toy."
] | task469-2e0527d51b2342608f75762350a9efa4 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Tardive dyskinesia (TD) is a movement disorder characterized by abnormal involuntary facial movements induced by chronic therapy with classical antipsychotic medications. Currently, there is no satisfactory pharmacotherapy for TD, which represents a major limitation to therapy with classical antipsychotics. In order to develop or optimize therapies for TD, and to develop new APDs with lower indices of motor side effects, the pathology underlying TD must first be understood. The use of animal models has been used to further this objective. Here, we review different preparations that have been used to model TD and discuss the contribution of neuroimaging studies conducted in these models. Studies in animal models have lead to several hypotheses of TD pathology, although none has yet emerged as the ultimate underlying cause of this syndrome. We discuss alterations in functional indices, neuron and synapse morphology and changes in specific neurotransmitter systems that have been described in animal models of TD, and outline how these findings have contributed to our understanding of antipsychotic-induced dyskinesias. We conclude that several non-mutually exclusive theories of TD are supported by animal studies, including increases in oxidative stress leading to structural and functional changes in specific neurotransmitter systems. Elucidating the mechanisms underlying TD neuropathology partly through the use of animal models will lead to the development of APDs with superior side effect profiles or more effective therapies for TD.
Question: What is the cause of Tardive dyskinesia? | [
"tardive dyskinesia (td) is a movement disorder characterized by abnormal involuntary facial movements induced by chronic therapy with classical antipsychotic medications."
] | task469-e8e00ce93b3644f4886fdc8b5cce9f15 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Born on 16 November 1920 in Brunoy, near Paris, Jean Boulet was first hired in 1947 by the SNCASE, which would become Sud Aviation and then later the Division Helicopteres of the Societe Nationale Industrielle Aerospatiale.
Question: What is Jean Boulet's place of employment? | [
"sncase"
] | task469-f4b9a59a00604a7d8ab97a8d4796797e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: 897 Lysistrata is a minor planet orbiting the Sun that was discovered by German astronomer Max Wolf on August 3, 1918.
Question: What was the name of the discoverer of 897 Lysistrata? | [
"max wolf"
] | task469-7f7ad5ae6d5745faa620ffd0dd46c372 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The President of the European Parliament (Parliament's speaker) is Martin Schulz (S&D), elected in January 2012.
Question: Who led European Parliament? | [
"martin schulz"
] | task469-b8687498b2ad4235995b1317f56b23d7 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Our planet was born some billions of years ago. Ever since this planet has developed, it has surprised us human beings. No matter how much we human beings have developed technologically, we cannot ever create this kind of natural planet. The human race can only discover some amazing facts about it. Let us find out what some of them are. On September 13, 1922 El Azizia, a place in Libya, recorded a temperature of 136 degrees Fahrenheit. This was the highest temperature ever measured on the planet Earth. The highest waterfall in the world is Angel Falls in Venezuela, which drops from an amazing height of 3,212 feet. The waterfall drops over the edge of Auyantepui in the Canaima National Park. The gravitational pull of the Earth can be escaped if someone moves at a speed of 6.95 miles per second. At such a speed, one could travel from New York to Philadelphia in just 20 seconds. If the entire water in the world's oceans evaporated, the salt we got from these oceans could cover the entire planet with a 500-foot deep layer of salt. The deepest lake on Earth is Lake Baikal in Russia. Lake Baikal is the largest freshwater lake in the world, containing about 20% of the world's unfrozen surface fresh water. The Andes in South America spreads over 4,525 miles. This is the longest mountain range in the world. Did you know that the biggest valley in the world is the Grand Valley in Mesa County, Colorado and Grand County, Utah? It is about 30 miles (48 km) long and 5 miles (8 km) wide, along the Colorado River. The amazing facts about the earth are too many to be told completely above.
Question: Where is the longest mountain range in the world? | [
"in south america."
] | task469-32d79e8180524f1e8e7c883bcf722bad | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Since the publication of the first European Federation of Neurological Societies (EFNS) guidelines in 2005 on the management of restless legs syndrome (RLS; also known as Willis-Ekbom disease), there have been major therapeutic advances in the field. Furthermore, the management of RLS is now a part of routine neurological practice in Europe. New drugs have also become available, and further randomized controlled trials have been undertaken. These guidelines were undertaken by the EFNS in collaboration with the European Neurological Society and the European Sleep Research Society. To provide an evidence-based update of new treatments published since 2005 for the management of RLS. First, we determined what the objectives of management of primary and secondary RLS should be. We developed the search strategy and conducted a review of the scientific literature up to 31 December 2011 (print and electronic publications) for the drug classes and interventions employed in RLS treatment. Previous guidelines were consulted. All trials were analysed according to class of evidence, and recommendations made according to the 2004 EFNS criteria for rating. Level A recommendations can be made for rotigotine, ropinirole, pramipexole, gabapentin enacarbil, gabapentin and pregabalin, which are all considered effective for the short-term treatment for RLS. However, for the long-term treatment for RLS, rotigotine is considered effective, gabapentin enacarbil is probably effective, and ropinirole, pramipexole and gabapentin are considered possibly effective. Cabergoline has according to our criteria a level A recommendation, but the taskforce cannot recommend this drug because of its serious adverse events.
Question: Willis-Ekbom disease is also known as? | [
"restless legs syndrome"
] | task469-625489a7bb7a411f9de9a2bba83764d1 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: All rocks on Earth change, but these changes usually happen very slowly. Some changes happen below Earths surface. Some changes happen above ground. These changes are all part of the rock cycle. The rock cycle describes each of the main types of rocks, how they form and how they change. Figure 4.1 shows how the three main rock types are related to each other. The arrows within the circle show how one type of rock may change to rock of another type. For example, igneous rock may break down into small pieces of sediment and become sedimentary rock. Igneous rock may be buried within the Earth and become metamorphic rock. Igneous rock may also change back to molten material and re-cool into a new igneous rock. Rocks are made of minerals. The minerals may be so tiny that you can only see them with a microscope. The minerals may be really large. A rock may be made of only one type of mineral. More often rocks are made of a mixture of different minerals. Rocks are named for the combinations of minerals they are made of and the ways those minerals came together. Remember that different minerals form under different environmental conditions. So the minerals in a rock contain clues about the conditions in which the rock formed (Figure 4.2). Geologists group rocks based on how they were formed. The three main kinds of rocks are: 1. Igneous rocks form when magma cools below Earths surface or lava cools at the surface (Figure 4.3). 2. Sedimentary rocks form when sediments are compacted and cemented together (Figure 4.4). These sediments may be gravel, sand, silt or clay. Sedimentary rocks often have pieces of other rocks in them. Some sedimentary rocks form the solid minerals left behind after a liquid evaporates. 3. Metamorphic rocks form when an existing rock is changed by heat or pressure. The minerals in the rock change but do not melt (Figure 4.5). The rock experiences these changes within the Earth. Rocks can be changed from one type to another, and the rock cycle describes how this happens. Any type of rock can change and become a new type of rock. Magma can cool and crystallize. Existing rocks can be weathered and eroded to form sediments. Rock can change by heat or pressure deep in Earths crust. There are three main processes that can change rock: Cooling and forming crystals. Deep within the Earth, temperatures can get hot enough to melt rock. This molten material is called magma. As it cools, crystals grow, forming an igneous rock. The crystals will grow larger if the magma cools slowly, as it does if it remains deep within the Earth. If the magma cools quickly, the crystals will be very small. Weathering and erosion. Water, wind, ice, and even plants and animals all act to wear down rocks. Over time they can break larger rocks into smaller pieces called sediments. Moving water, wind, and glaciers then carry these pieces from one place to another. The sediments are eventually dropped, or deposited, somewhere. The sediments may then be compacted and cemented together. This forms a sedimentary rock. This whole process can take hundreds or thousands of years. Metamorphism. This long word means to change form. A rock undergoes metamorphism if it is exposed to extreme heat and pressure within the crust. With metamorphism, the rock does not melt all the way. The rock changes due to heat and pressure. A metamorphic rock may have a new mineral composition and/or texture. An interactive rock cycle diagram can be found here: The rock cycle really has no beginning or end. It just continues. The processes involved in the rock cycle take place over hundreds, thousands, or even millions of years. Even though for us rocks are solid and unchanging, they slowly change all the time.
Question: process in which a rock changes to a different type of rock due to extreme heat and pressure | [
"metamorphism"
] | task469-eb69ab77fded4df6ba81111fbddbee9e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: After winning in a close game at home, the Steelers traveled to Cincinnati for Game 2 against the Bengals. The Bengals scored first in the first quarter when Randy Bullock kicked a 35-yard field goal to make it 3-0. They would then make it 10-0 when Andy Dalton found A.J. Green on an 8-yard pass. In the second quarter, Dalton and Green connected again on a 15-yard pass to make it 17-0. The Steelers managed to get on the board before halftime when Chris Boswell put a 30-yard field goal through to make the score 17-3. In the third quarter, the Steelers drew closer when Ben Roethlisberger found Le'Veon Bell on a 35-yard touchdown to make it 17-10. The Bengals moved back ahead by double digits when Randy Bullock kicked a 31-yard field goal to make it 20-10. In the fourth quarter, it was all Steelers when Boswell put up a 37-yard field goal to make it 20-13. Roethlisberger then found Antonio Brown on a 6-yard pass to tie the game up at 20-20. Finally, Boswell was able to seal the victory with a 38-yard field goal to make the final score 23-20. With their sixth straight win over the Bengals, the Steelers improved to 10-2. The victory marks the third time that the Steelers have recorded two different 7+ win streaks within consecutive and separate regular seasons (1975-76, 1994-95). The team also won their 8th straight game against a divisional opponent. With the win, the Steelers began 4-0 in their division for the first time since 2008. The 17-point comeback was the Steelers' largest since they came back from down 17 on December 20, 2015 against the Denver Broncos, and their largest on the road since their 21-point comeback on October 5, 1997 against the Baltimore Ravens.
Question: Which team scored more points, Bengals or Steelers? | [
"steelers"
] | task469-1c602853a40b4b839037a3532468878d | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The human ETHE1 gene consists of 7 exons and encodes for a protein that is approximately 27 kDa in size.
Question: Which species has the ETHE1 gene? | [
"human"
] | task469-c336d6b06c4346fab7f4a6d5b1cb3a2b | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: New Orleans narcotics detective Anthony Stowe (Jean-Claude Van Damme) is a heroin addict who is teetering on the edge of oblivion, and he couldn't care less.At the moment, Stowe is trying to bring down his former partner Gabriel Callahan (Stephen Rea), who has become a drug kingpin. Callahan is trying to, and slowly succeeding at, taking over the New Orleans underworld.Stowe botches a sting operation against Callahan, resulting in the death of fellow cop Maria Ronson (Rachel Grant), whose fiancee, fellow cop Van Huffel (Adam Leese), is furious at Stowe. Chief Mac Baylor (Gary Beadle) has a very blunt chat with Stowe about it. Stowe is approached by fellow cop Walter Curry (Trevor Cooper) to help his nephew beat a drug-dealing charge. Stowe instead turns him over to Baylor, who fires him. After barricading himself in the station bathroom, Walter confronts an unrepentant Stowe and condemns him for betraying his fellow officers.Later, Van Huffel berates Stowe for getting Maria killed. Stowe responds by attacking Van Huffel in front of several officers. Later, Stowe meets with his estranged wife Valerie (Selina Giles), who tells him that she's pregnant, but that he's not the father. Valerie, whose marriage with Stowe is on the rocks, has been seeing a man named Mark Rossini (Mark Dymond), the gym teacher at the school she is principle of. But he may not be the father either. Stowe brashly accuses Valerie of being impregnated by Callahan, and Valerie tells him she never wants to see him again.The only thing keeping Stowe from total collapse is his dogged pursuit of Callahan. But he drunkenly stumbles into an ambush masterminded by Callahan, and is shot in the head by Callahan's right-hand man Jimmy (Stephen Lord).Stowe undergoes emergency surgery, and ends up in a coma. Months later, he recovers to the point that he opens his eyes, and is transported to his and Valerie's house to recover properly.Seven months after getting shot, Stowe has recovered a lot, although he must learn to walk and speak again. He manages to survive an attempt on his life, by someone who appears to be a cop. He's recovered enough to try to get his job back, but that's the one thing that Chief Baylor doesn't want to give him. The coma has led to his decision to become a better man, and to right some wrongs. He reconciles with his wife, although awkwardly, and gives Walter a check for $40,000, part of his insurance money that compensated his time in a coma. Finally, he visits the grave of fellow police officer Serge (William Ash), who once saved Stowe's life but has been killed by an unknown attacker following another failed sting operation.Valerie packs up to move out of the house so she can live with Mark, but after realizing the change that Stowe has undergone, she later decides to leave Mark and come back home. Stowe is convinced by his friend Chad Mansen (Wes Robinson) not to let his wife go, and Stowe goes after her. They miss each other by a few minutes.Just after Valerie returns and meets Chad, some of Callahan's men show up. Jimmy kills Chad, and kidnaps Valerie. Stowe returns to the house, and finds Chad's body, along with Jimmy waiting for him.Van Damme promoting the film in 2007Jimmy takes Stowe to a warehouse where Callahan is waiting. Along the way, Stowe manages to overpower Jimmy and take his gun, but he finds that the odds against him are impossible- and Callahan has Valerie hostage. Van Huffel is revealed to be Callahan's mole on the police force, and the sting operation at the beginning of the film was a set-up. Walter suddenly arrives and saves Stowe. Together they kill all of Callahan's men, including Jimmy and Van Huffel, as Callahan tries to escape with Valerie to his helicopter. Just as Callahan is about to reach it, Stowe appears.In the European DVD ending, each fire a shot that kills the other. Valerie cries out
Question: Who does Jimmy kill? | [
"chad"
] | task469-3b0cdd0005e0402d9daee42c0a7e9483 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: We now know how variation in traits is inherited. Variation in traits is controlled by different alleles for genes. Alleles, in turn, are passed to gametes and then to offspring. Evolution occurs because of changes in alleles over time. How long a time? That depends on the time scale of evolution you consider. Evolution that occurs over a short period of time is known as microevolution. It might take place in just a couple of generations. This scale of evolution occurs at the level of the population. The Grants observed evolution at this scale in populations of Darwins finches. Beak size in finch populations changed in just two years because of a serious drought. Evolution that occurs over a long period of time is called macroevolution. It might take place over millions of years. This scale of evolution occurs above the level of the species. Fossils provide evidence for evolution at this scale. The evolution of the horse family, shown in Figure 7.13, is an example of macroevolution. Individuals dont evolve. Their alleles dont change over time. The unit of microevolution is the population. A population is a group of organisms of the same species that live in the same area. All the genes in all the members of a population make up the populations gene pool. For each gene, the gene pool includes all the different alleles in the population. The gene pool can be described by its allele frequencies for specific genes. The frequency of an allele is the number of copies of that allele divided by the total number of alleles for the gene in the gene pool. A simple example will help you understand these concepts. The data in Table 7.2 represent a population of 100 individuals. For each gene, the gene pool has a total of 200 alleles (2 per individual x 100 individuals). The gene in question exists as two different alleles, A and a. The number of A alleles in the gene pool is 140. Of these, 100 are in the 50 AA homozygotes. Another 40 are in the 40 Aa heterozygotes. The number of a alleles in the gene pool is 60. Of these, 40 are in the 40 Aa heterozygotes. Another 20 are in the 10 aa homozygotes. The frequency of the A allele is 140/200 = 0.7. The frequency of the a allele is 60/200 = 0.3. Genotype AA Aa aa Totals Number of Individuals 50 40 10 100 Number of A Alleles 100 (50 x 2) 40 (40 x 1) 0 (10 x 0) 140 Number of a Alleles 0 (50 x 0) 40 (40 x 1) 20 (10 x 2) 60 Evolution occurs in a population when its allele frequencies change over time. For example, the frequency of the A allele might change from 0.7 to 0.8. If that happens, evolution has occurred. What causes allele frequencies to change? The answer is forces of evolution. There are four major forces of evolution that cause allele frequencies to change. They are mutation, gene flow, genetic drift, and natural selection. Mutation creates new genetic variation in a gene pool This is how all new alleles first arise. Its the ultimate source of new genetic variation, so it is essential for evolution. However, for any given gene, the chance of a mutation occurring is very small. Therefore, mutation alone does not have much effect on allele frequencies. Gene flow is the movement of genes into or out of a gene pool It occurs when individuals migrate into or out of the population. How much gene flow changes allele frequencies depends on how many migrants there are and their genotypes. Genetic drift is a random change in allele frequencies. It occurs in small populations. Allele frequencies in the offspring may differ by chance from those in the parents. This is like tossing a coin just a few times. You may, by chance, get more or less than the expected 50 percent heads or tails. In the same way, you may get more or less than the expected allele frequencies in the small number of individuals in the next generation. The smaller the population is, the more allele frequencies may drift. Natural selection is a change in
Question: ___change in allele frequencies that occurs because some genotypes are more fit than others | [
"natural selection"
] | task469-95669fb2698a4899be2fd1a7a2e4937b | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Tony Scott died on 19 August 2012, committing suicide by jumping off the Vincent Thomas Bridge in San Pedro, California.
Question: What was the cause of death of Tony Scott? | [
"suicide"
] | task469-4a88fd3bc04b4f76ae4cac20695cd7aa | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: September 1939. Mrs. Kay Miniver (Greer Garson) and her family live a comfortable life at a house called 'Starlings' in Belham, a fictional village outside London, England. The house has a large garden, with a private landing stage on the River Thames at which is moored a motorboat belonging to her devoted husband Clem (Walter Pidgeon), a successful architect. They have three children: the youngsters Toby and Judy (Christopher Severn and Clare Sandars) and an older son Vin (Richard Ney) at university. They have live-in staff: Gladys the housemaid (Brenda Forbes) and Ada the cook (Marie De Becker).As World War II looms, Vin comes down from university and meets Carol Beldon (Teresa Wright), granddaughter of Lady Beldon (Dame May Whitty) from nearby Beldon Hall. Despite initial disagreements (mainly contrasting Vin's idealistic attitude to class differences with Carol's practical altruism) they fall in love. Vin proposes to Carol in front of his family at home after his younger brother prods him to give a less romantic but more honest proposal.Several months later, as the war comes closer to home with the bombing of Great Brittan, Vin feels he must "do his bit" and enlists in the Royal Air Force, qualifying as a fighter pilot. He is posted to a base near to his parents' home and is able to signal his safe return from operations to his parents by cutting his engines briefly as he flies over the house. Together with other boat owners, Clem volunteers to take his motorboat to assist in the May-June 1940 Dunkirk evacuation.Early one morning, Kay unable to sleep as Clem is still away, wanders down to the landing stage. She is startled to discover a wounded German pilot (Helmut Dantine) hiding in her garden and he holds her at gunpoint. Demanding food and a coat, the pilot maniacally asserts that the Third Reich will mercilessly overcome its enemies. She feeds him, calmly disarms him and then calls the police. Soon after, Clem returns home, exhausted, from Dunkirk.Lady Beldon visits Kay to try and convince her to talk Vin out of marrying Carol on account of her granddaughter's comparative youth. Lady Beldon is unsuccessful and admits defeat when Kay reminds her that she, too, was young when she married her late husband. Lady Beldon concedes defeat and realises that she would be foolish to try and stop the marriage. Vin and Carol are married; Carol has now also become Mrs Miniver, and they return from their honeymoon in Scotland. A key theme is that she knows he is likely to be killed in action, but the short love will fill her life. Later, Kay and her family take refuge in their Anderson shelter in the garden during an air raid, and attempt to keep their minds off the frightening bombing by reading Alice's Adventures in Wonderland, which Clem refers to as a "lovely story" as they barely survive a bomb destroys parts of the house. They take the damage with nonchalance.At the annual village flower show, Lady Beldon silently disregards the judges' decision that her rose is the winner, instead announcing the entry of the local stationmaster, Mr. Ballard (Henry Travers), named the "Mrs. Miniver" rose, as the winner, with her own rose taking second prize. As air raid sirens sound and the villagers take refuge in the cellars of Beldon Hall, Kay and Carol drive Vin to join his squadron. On their journey home they witness fighter planes in a 'dogfight'. For safety, Kay stops the car and they see the German plane crash. Kay realises Carol has been wounded by shots from the plane and takes her back to 'Starlings'. She dies a few minutes after they reach home. Kay is devastated. When Vin returns from battle, he already knows the terrible news. Unexpectedly he is the survivor, and she the one who gives her life for England.The villagers assemble at the badly damaged church where their vicar (Henry Wilcoxon) affirms their determination in a powerful sermon:"We in this quiet corner of England have suffered the loss of friends very dear to us, some
Question: Who is the enemy? | [
"a wounded german pilot."
] | task469-0ff154212a6d499aac09fdaf3b4789e0 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Air temperature changes as altitude increases. In some layers of the atmosphere, the temperature decreases. In other layers, it increases. You can see this in Figure 15.12. Refer to this figure as you read about the layers below. The troposphere is the lowest layer of the atmosphere. In it, temperature decreases with altitude. The troposphere gets some of its heat directly from the Sun. Most, however, comes from Earths surface. The surface is heated by the Sun and some of that heat radiates back into the air. This makes the temperature higher near the surface than at higher altitudes. Look at the troposphere in Figure 15.12. This is the shortest layer of the atmosphere. It rises to only about 12 kilometers (7 miles) above the surface. Even so, this layer holds 75 percent of all the gas molecules in the atmosphere. Thats because the air is densest in this layer. Air in the troposphere is warmer closer to Earths surface. Warm air is less dense than cool air, so it rises higher in the troposphere. This starts a convection cell. Convection mixes the air in the troposphere. Rising air is also a main cause of weather. All of Earths weather takes place in the troposphere. Sometimes air doesnt mix in the troposphere. This happens when air is cooler close to the ground than it is above. The cool air is dense, so it stays near the ground. This is called a temperature inversion. An inversion can trap air pollution near the surface. Temperature inversions are more common in the winter. Can you explain why? At the top of the troposphere is a thin layer of air called the tropopause. You can see it in Figure 15.12. This layer acts as a barrier. It prevents cool air in the troposphere from mixing with warm air in the stratosphere. The stratosphere is the layer above the troposphere. The layer rises to about 50 kilometers (31 miles) above the surface. Air temperature in the stratosphere layer increases with altitude. Why? The stratosphere gets most of its heat from the Sun. Therefore, its warmer closer to the Sun. The air at the bottom of the stratosphere is cold. The cold air is dense, so it doesnt rise. As a result, there is little mixing of air in this layer. The stratosphere contains a layer of ozone gas. Ozone consists of three oxygen atoms (O3 ). The ozone layer absorbs high-energy UV radiation. As you can see in Figure 15.14, UV radiation splits the ozone molecule. The split creates an oxygen molecule (O2 ) and an oxygen atom (O). This split releases heat that warms the stratosphere. By absorbing UV radiation, ozone also protects Earths surface. UV radiation would harm living things without the ozone layer. At the top of the stratosphere is a thin layer called the stratopause. It acts as a boundary between the stratosphere and the mesosphere. The mesosphere is the layer above the stratosphere. It rises to about 85 kilometers (53 miles) above the surface. Temperature decreases with altitude in this layer. There are very few gas molecules in the mesosphere. This means that there is little matter to absorb the Suns rays and heat the air. Most of the heat that enters the mesosphere comes from the stratosphere below. Thats why the mesosphere is warmest at the bottom. Did you ever see a meteor shower, like the one in Figure 15.15? Meteors burn as they fall through the mesosphere. The space rocks experience friction with the gas molecules. The friction makes the meteors get very hot. Many meteors burn up completely in the mesosphere. At the top of the mesosphere is the mesopause. Temperatures here are colder than anywhere else in the atmosphere. They are as low as -100 C (-212 F)! Nowhere on Earths surface is that cold. The thermosphere is the layer above the mesosphere. It rises to 600 kilometers (372 miles) above the surface. The International Space Station orbits Earth in this layer as in Figure 15.16. Temperature increases with altitude in the thermosphere. Surprisingly,
Question: layer of the atmosphere above the mesosphere | [
"thermosphere"
] | task469-b71a460007a340ab9501bec3044a03d3 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: After tough losses at home, the Raiders traveled to Cleveland to take on the Browns. The Browns scored 9 straight points leading into the 2nd quarter when Billy Cundiff kicked 3 field goals from: 52 (in the 1st quarter), 33, and 26 yards out (in the 2nd quarter) for leads of 3-0, 6-0, and 9-0. The Raiders got on the board when Sebastian Janikowski kicked 2 field goals before halftime from 46 and 38 yards out for a 9-3 and then 9-6 game at halftime. After a scoreless 3rd quarter, the Browns got back to work in the 4th when Brian Hoyer found Andrew Hawkins on a 4-yard touchdown pass for a 16-6 lead followed by Ben Tate running in the end zone for a 5-yard touchdown for a 23-6 game. The Raiders wrapped up the scoring of the game later on when Derek Carr found Andre Holmes 10-yard touchdown pass for the final score: 23-13.
Question: Who kicked the longest field goal of the first half? | [
"billy cundiff"
] | task469-ec768d56c4d6425fb055f817808d66af | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: The 10th Cavalry returned from the Philippines in late 1902 and settled down in different posts in the south western United States. Patrols and garrison life was the routine for the regiment. Under war plans, the 10th was designated for service in the Pacific and support in the Philippines from 1915 through 1942 but never rotated there. The 9th Cavalry Regiment became "Park Rangers" in 1905 for Yosemite National Park and other state and federal lands. The Troopers' Campaign Hat, sporting the "Montana Pinch" used to help shed the tropical downpours. That "Montana Pinch" gave the hat the distinctive look we recognize today as the "Smokey Bear Hat".
Question: What do they call the hat today, the Troopers' Campaign Hat or the Smokey Bear Hat? | [
"smokey bear hat",
"that \"montana pinch\" gave the hat the distinctive look we recognize today as the \"smokey bear hat\"."
] | task469-7663567ff43840ad89fa05bd0d9ee2eb | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Nuclear receptor co-repressor (N-CoR) plays important role in transcriptional control mediated by several tumor suppressor proteins. Recently, we reported a role of misfolded-conformation dependent loss (MCDL) of N-CoR in the activation of oncogenic survival pathway in acute promyelocytic leukemia (APL). Since N-CoR plays important role in cellular homeostasis in various tissues, therefore, we hypothesized that an APL like MCDL of N-CoR might also be involved in other malignancy. Indeed, our initial screening of N-CoR status in various leukemia and solid tumor cells revealed an APL like MCDL of N-CoR in primary and secondary tumor cells derived from non-small cell lung cancer (NSCLC). The NSCLC cell specific N-CoR loss could be blocked by Kaletra, a clinical grade protease inhibitor and by genistein, an inhibitor of N-CoR misfolding previously characterized by us. The misfolded N-CoR presented in NSCLC cells was linked to the amplification of ER stress and was subjected to degradation by NSCLC cell specific aberrant protease activity. In NSCLC cells, misfolded N-CoR was found to be associated with Hsc70, a molecular chaperone involved in chaperone mediated autophagy (CMA). Genetic and chemical inhibition of Lamp2A, a rate limiting factor of CMA, significantly blocked the loss of N-CoR in NSCLC cells, suggesting a crucial role of CMA in N-CoR degradation. These findings identify an important role of CMA-induced degradation of misfolded N-CoR in the neutralization of ER stress and suggest a possible role of misfolded N-CoR protein in the activation of oncogenic survival pathway in NSCLC cells.
Question: Which is the receptor for substrates of Chaperone Mediated Autophagy? | [
"lamp2a",
"lysosome-associated membrane protein 2 isoform a"
] | task469-9a2707f9849045b886b9951fa3da356e | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
Context: Professor Barry Wellman of the University of Toronto in Canada has invented a term to describe the way many North Americans interact these days. The term is _ . This concept is not easy to understand because the words seem to have opposite meanings. How can we be individuals and be networked at the same time? You need other people for networks. Here is what Professor Wellman means. Before the invention of the Internet and e-mail, our social networks included live interactions with relatives, neighbors, and friends. Some of the interaction was by phone, but it was still voice to voice, person to person, in real time. A recent research study by the Pew Internet and American Life Project showed that for a lot of people, electronic interaction through the computer has replaced this person-to-person interaction. However, a lot of people interviewed for the Pew study say that's a good thing. Why? In the past, many people were worried that the internet isolated us and caused us to spend too much time in the imaginary world of the computer. But the Pew study discovered that the opposite is true. The Internet connects us with more real people than expected--helpful people who can give advice on careers, medical problems, raising children, and choosing a school or college. About 60 million Americans told Pew that the Internet plays an important role in helping them make major life decisions. Thanks to the computer, we are able to be alone an together with other people--at the same time!
Question: According to the Pew study, what do many people rely on to make major life decisions? | [
"networks."
] | task469-506b19d0636e4942b10935abeb96c164 | question_answering | [
"Wikipedia",
"News",
"Natural Science"
] | mrqa | task469_mrqa_answer_generation | english |
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