SSC: Reading Comprehension Quiz: 04.05.2019
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Question 1
Read the following passage and answer the questions that follow.
U.S. Route 66 (US 66 or Route 66), also known as the Will Rogers Highway, the Main Street of America or the Mother Road, was one of the original highways within the U.S. Highway System. US 66 was established on November 11, 1926, with road signs erected the following year. The highway, which became one of the most famous roads in the United States, originally ran from Chicago, Illinois, through Missouri, Kansas, Oklahoma, Texas, New Mexico, and Arizona before ending at Santa Monica, California, covering a total of 2,448 miles (3,940 km). It was recognized in popular culture by both the hit song "(Get Your Kicks on) Route 66" and the Route 66 television show in the 1960s.
Question 2
Read the following passage and answer the questions that follow.
U.S. Route 66 (US 66 or Route 66), also known as the Will Rogers Highway, the Main Street of America or the Mother Road, was one of the original highways within the U.S. Highway System. US 66 was established on November 11, 1926, with road signs erected the following year. The highway, which became one of the most famous roads in the United States, originally ran from Chicago, Illinois, through Missouri, Kansas, Oklahoma, Texas, New Mexico, and Arizona before ending at Santa Monica, California, covering a total of 2,448 miles (3,940 km). It was recognized in popular culture by both the hit song "(Get Your Kicks on) Route 66" and the Route 66 television show in the 1960s.
Question 3
Read the following passage and answer the questions that follow.
U.S. Route 66 (US 66 or Route 66), also known as the Will Rogers Highway, the Main Street of America or the Mother Road, was one of the original highways within the U.S. Highway System. US 66 was established on November 11, 1926, with road signs erected the following year. The highway, which became one of the most famous roads in the United States, originally ran from Chicago, Illinois, through Missouri, Kansas, Oklahoma, Texas, New Mexico, and Arizona before ending at Santa Monica, California, covering a total of 2,448 miles (3,940 km). It was recognized in popular culture by both the hit song "(Get Your Kicks on) Route 66" and the Route 66 television show in the 1960s.
Question 4
Read the following passage and answer the questions that follow.
U.S. Route 66 (US 66 or Route 66), also known as the Will Rogers Highway, the Main Street of America or the Mother Road, was one of the original highways within the U.S. Highway System. US 66 was established on November 11, 1926, with road signs erected the following year. The highway, which became one of the most famous roads in the United States, originally ran from Chicago, Illinois, through Missouri, Kansas, Oklahoma, Texas, New Mexico, and Arizona before ending at Santa Monica, California, covering a total of 2,448 miles (3,940 km). It was recognized in popular culture by both the hit song "(Get Your Kicks on) Route 66" and the Route 66 television show in the 1960s.
Question 5
Read the following passage and answer the questions that follow.
U.S. Route 66 (US 66 or Route 66), also known as the Will Rogers Highway, the Main Street of America or the Mother Road, was one of the original highways within the U.S. Highway System. US 66 was established on November 11, 1926, with road signs erected the following year. The highway, which became one of the most famous roads in the United States, originally ran from Chicago, Illinois, through Missouri, Kansas, Oklahoma, Texas, New Mexico, and Arizona before ending at Santa Monica, California, covering a total of 2,448 miles (3,940 km). It was recognized in popular culture by both the hit song "(Get Your Kicks on) Route 66" and the Route 66 television show in the 1960s.
Question 6
Read the following passage and answer the questions that follow.
Scientists revealed a method to reprogram specific T cells. More precisely, they discovered how to turn pro-inflammatory cells that boost the immune system into anti-inflammatory cells that suppress it, and vice versa. The researchers studied only two types of cells called effector T cells, which activate the immune system to defend our body against different pathogens, and regulatory T cells, which help control the immune system and prevent it from attacking healthy parts of its environment. They have identified a small-molecule drug that can successfully reprogram effector T cells into regulatory T cells. This new approach to reprogram T cells could have several medical applications. For instance, in auto-immune disease, effector T cells are overly activated and cause damage to the body. Converting these cells into regulatory T cells could help reduce the hyperactivity and return balance to the immune system, thus treating the root of the disease. In addition, the study could improve therapies using stem cells. Producing regulatory T cells could promote immune tolerance and prevent the body from rejecting newly-transplanted cells. This method could also contribute to ongoing efforts in immuno-oncology and the treatment of cancer.
Question 7
Read the following passage and answer the questions that follow.
Scientists revealed a method to reprogram specific T cells. More precisely, they discovered how to turn pro-inflammatory cells that boost the immune system into anti-inflammatory cells that suppress it, and vice versa. The researchers studied only two types of cells called effector T cells, which activate the immune system to defend our body against different pathogens, and regulatory T cells, which help control the immune system and prevent it from attacking healthy parts of its environment. They have identified a small-molecule drug that can successfully reprogram effector T cells into regulatory T cells. This new approach to reprogram T cells could have several medical applications. For instance, in auto-immune disease, effector T cells are overly activated and cause damage to the body. Converting these cells into regulatory T cells could help reduce the hyperactivity and return balance to the immune system, thus treating the root of the disease. In addition, the study could improve therapies using stem cells. Producing regulatory T cells could promote immune tolerance and prevent the body from rejecting newly-transplanted cells. This method could also contribute to ongoing efforts in immuno-oncology and the treatment of cancer.
Question 8
Read the following passage and answer the questions that follow.
Scientists revealed a method to reprogram specific T cells. More precisely, they discovered how to turn pro-inflammatory cells that boost the immune system into anti-inflammatory cells that suppress it, and vice versa. The researchers studied only two types of cells called effector T cells, which activate the immune system to defend our body against different pathogens, and regulatory T cells, which help control the immune system and prevent it from attacking healthy parts of its environment. They have identified a small-molecule drug that can successfully reprogram effector T cells into regulatory T cells. This new approach to reprogram T cells could have several medical applications. For instance, in auto-immune disease, effector T cells are overly activated and cause damage to the body. Converting these cells into regulatory T cells could help reduce the hyperactivity and return balance to the immune system, thus treating the root of the disease. In addition, the study could improve therapies using stem cells. Producing regulatory T cells could promote immune tolerance and prevent the body from rejecting newly-transplanted cells. This method could also contribute to ongoing efforts in immuno-oncology and the treatment of cancer.
Question 9
Read the following passage and answer the questions that follow.
Scientists revealed a method to reprogram specific T cells. More precisely, they discovered how to turn pro-inflammatory cells that boost the immune system into anti-inflammatory cells that suppress it, and vice versa. The researchers studied only two types of cells called effector T cells, which activate the immune system to defend our body against different pathogens, and regulatory T cells, which help control the immune system and prevent it from attacking healthy parts of its environment. They have identified a small-molecule drug that can successfully reprogram effector T cells into regulatory T cells. This new approach to reprogram T cells could have several medical applications. For instance, in auto-immune disease, effector T cells are overly activated and cause damage to the body. Converting these cells into regulatory T cells could help reduce the hyperactivity and return balance to the immune system, thus treating the root of the disease. In addition, the study could improve therapies using stem cells. Producing regulatory T cells could promote immune tolerance and prevent the body from rejecting newly-transplanted cells. This method could also contribute to ongoing efforts in immuno-oncology and the treatment of cancer.
Question 10
Read the following passage and answer the questions that follow.
Scientists revealed a method to reprogram specific T cells. More precisely, they discovered how to turn pro-inflammatory cells that boost the immune system into anti-inflammatory cells that suppress it, and vice versa. The researchers studied only two types of cells called effector T cells, which activate the immune system to defend our body against different pathogens, and regulatory T cells, which help control the immune system and prevent it from attacking healthy parts of its environment. They have identified a small-molecule drug that can successfully reprogram effector T cells into regulatory T cells. This new approach to reprogram T cells could have several medical applications. For instance, in auto-immune disease, effector T cells are overly activated and cause damage to the body. Converting these cells into regulatory T cells could help reduce the hyperactivity and return balance to the immune system, thus treating the root of the disease. In addition, the study could improve therapies using stem cells. Producing regulatory T cells could promote immune tolerance and prevent the body from rejecting newly-transplanted cells. This method could also contribute to ongoing efforts in immuno-oncology and the treatment of cancer.
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