[["Question: Tay-Sachs disease is caused by deficiency of _________________?\nChoices:\nA. Alpha-L-iduronidase\nB. Glucose-6-phosphatase\nC. Hexosaminidase A\nD. Homogentisic acid oxidase\nAnswer:"," Alpha-L-iduronidase"],["Question: Tay-Sachs disease is caused by deficiency of _________________?\nChoices:\nA. Alpha-L-iduronidase\nB. Glucose-6-phosphatase\nC. Hexosaminidase A\nD. Homogentisic acid oxidase\nAnswer:"," Glucose-6-phosphatase"],["Question: Tay-Sachs disease is caused by deficiency of _________________?\nChoices:\nA. Alpha-L-iduronidase\nB. Glucose-6-phosphatase\nC. Hexosaminidase A\nD. Homogentisic acid oxidase\nAnswer:"," Hexosaminidase A"],["Question: Tay-Sachs disease is caused by deficiency of _________________?\nChoices:\nA. Alpha-L-iduronidase\nB. Glucose-6-phosphatase\nC. Hexosaminidase A\nD. Homogentisic acid oxidase\nAnswer:"," Homogentisic acid oxidase"],["Question: If an X-linked recessive disorder is in Hardy-Weinberg equilibrium and the incidence in males equals 1 in 100, then the expected incidence of affected homozygous females would be _______.\nChoices:\nA. 1 in 1000\nB. 1 in 4000\nC. 1 in 10 000\nD. 1 in 40 000\nAnswer:"," 1 in 1000"],["Question: If an X-linked recessive disorder is in Hardy-Weinberg equilibrium and the incidence in males equals 1 in 100, then the expected incidence of affected homozygous females would be _______.\nChoices:\nA. 1 in 1000\nB. 1 in 4000\nC. 1 in 10 000\nD. 1 in 40 000\nAnswer:"," 1 in 4000"],["Question: If an X-linked recessive disorder is in Hardy-Weinberg equilibrium and the incidence in males equals 1 in 100, then the expected incidence of affected homozygous females would be _______.\nChoices:\nA. 1 in 1000\nB. 1 in 4000\nC. 1 in 10 000\nD. 1 in 40 000\nAnswer:"," 1 in 10 000"],["Question: If an X-linked recessive disorder is in Hardy-Weinberg equilibrium and the incidence in males equals 1 in 100, then the expected incidence of affected homozygous females would be _______.\nChoices:\nA. 1 in 1000\nB. 1 in 4000\nC. 1 in 10 000\nD. 1 in 40 000\nAnswer:"," 1 in 40 000"],["Question: Consanguinity shows a strong association with which pattern of inheritance?\nChoices:\nA. Autosomal dominant\nB. Autosomal recessive\nC. X-linked dominant\nD. X-linked recessive\nAnswer:"," Autosomal dominant"],["Question: Consanguinity shows a strong association with which pattern of inheritance?\nChoices:\nA. Autosomal dominant\nB. Autosomal recessive\nC. X-linked dominant\nD. X-linked recessive\nAnswer:"," Autosomal recessive"],["Question: Consanguinity shows a strong association with which pattern of inheritance?\nChoices:\nA. Autosomal dominant\nB. Autosomal recessive\nC. X-linked dominant\nD. X-linked recessive\nAnswer:"," X-linked dominant"],["Question: Consanguinity shows a strong association with which pattern of inheritance?\nChoices:\nA. Autosomal dominant\nB. Autosomal recessive\nC. X-linked dominant\nD. X-linked recessive\nAnswer:"," X-linked recessive"],["Question: Exon skipping is associated with:\nChoices:\nA. nonsense mutations.\nB. regulatory mutations.\nC. RNA processing mutations.\nD. silent mutations.\nAnswer:"," nonsense mutations."],["Question: Exon skipping is associated with:\nChoices:\nA. nonsense mutations.\nB. regulatory mutations.\nC. RNA processing mutations.\nD. silent mutations.\nAnswer:"," regulatory mutations."],["Question: Exon skipping is associated with:\nChoices:\nA. nonsense mutations.\nB. regulatory mutations.\nC. RNA processing mutations.\nD. silent mutations.\nAnswer:"," RNA processing mutations."],["Question: Exon skipping is associated with:\nChoices:\nA. nonsense mutations.\nB. regulatory mutations.\nC. RNA processing mutations.\nD. silent mutations.\nAnswer:"," silent mutations."],["Question: Simple tandem repeat polymorphisms in humans are most useful for\nChoices:\nA. solving criminal and paternity cases\nB. reconstructing the relationships of humans and chimps.\nC. estimating relationships of humans and Neanderthals\nD. transferring disease resistance factors into bone marrow cells\nAnswer:"," solving criminal and paternity cases"],["Question: Simple tandem repeat polymorphisms in humans are most useful for\nChoices:\nA. solving criminal and paternity cases\nB. reconstructing the relationships of humans and chimps.\nC. estimating relationships of humans and Neanderthals\nD. transferring disease resistance factors into bone marrow cells\nAnswer:"," reconstructing the relationships of humans and chimps."],["Question: Simple tandem repeat polymorphisms in humans are most useful for\nChoices:\nA. solving criminal and paternity cases\nB. reconstructing the relationships of humans and chimps.\nC. estimating relationships of humans and Neanderthals\nD. transferring disease resistance factors into bone marrow cells\nAnswer:"," estimating relationships of humans and Neanderthals"],["Question: Simple tandem repeat polymorphisms in humans are most useful for\nChoices:\nA. solving criminal and paternity cases\nB. reconstructing the relationships of humans and chimps.\nC. estimating relationships of humans and Neanderthals\nD. transferring disease resistance factors into bone marrow cells\nAnswer:"," transferring disease resistance factors into bone marrow cells"],["Question: Which of the following is a feature of X-linked dominant inheritance?\nChoices:\nA. Parental consanguinity\nB. Male to male transmission\nC. Transmission only by females\nD. Transmitted by males only to females\nAnswer:"," Parental consanguinity"],["Question: Which of the following is a feature of X-linked dominant inheritance?\nChoices:\nA. Parental consanguinity\nB. Male to male transmission\nC. Transmission only by females\nD. Transmitted by males only to females\nAnswer:"," Male to male transmission"],["Question: Which of the following is a feature of X-linked dominant inheritance?\nChoices:\nA. Parental consanguinity\nB. Male to male transmission\nC. Transmission only by females\nD. Transmitted by males only to females\nAnswer:"," Transmission only by females"],["Question: Which of the following is a feature of X-linked dominant inheritance?\nChoices:\nA. Parental consanguinity\nB. Male to male transmission\nC. Transmission only by females\nD. Transmitted by males only to females\nAnswer:"," Transmitted by males only to females"],["Question: Zinc finger proteins and helix-turn-helix proteins are\nChoices:\nA. types of DNA-binding proteins\nB. involved in the control of translation\nC. components of ribosomes\nD. part of the hemoglobin in blood cells\nAnswer:"," types of DNA-binding proteins"],["Question: Zinc finger proteins and helix-turn-helix proteins are\nChoices:\nA. types of DNA-binding proteins\nB. involved in the control of translation\nC. components of ribosomes\nD. part of the hemoglobin in blood cells\nAnswer:"," involved in the control of translation"],["Question: Zinc finger proteins and helix-turn-helix proteins are\nChoices:\nA. types of DNA-binding proteins\nB. involved in the control of translation\nC. components of ribosomes\nD. part of the hemoglobin in blood cells\nAnswer:"," components of ribosomes"],["Question: Zinc finger proteins and helix-turn-helix proteins are\nChoices:\nA. types of DNA-binding proteins\nB. involved in the control of translation\nC. components of ribosomes\nD. part of the hemoglobin in blood cells\nAnswer:"," part of the hemoglobin in blood cells"],["Question: Male breast cancer is associated with mutations in ___.\nChoices:\nA. BRCA1\nB. BRCA2\nC. NF1\nD. RET\nAnswer:"," BRCA1"],["Question: Male breast cancer is associated with mutations in ___.\nChoices:\nA. BRCA1\nB. BRCA2\nC. NF1\nD. RET\nAnswer:"," BRCA2"],["Question: Male breast cancer is associated with mutations in ___.\nChoices:\nA. BRCA1\nB. BRCA2\nC. NF1\nD. RET\nAnswer:"," NF1"],["Question: Male breast cancer is associated with mutations in ___.\nChoices:\nA. BRCA1\nB. BRCA2\nC. NF1\nD. RET\nAnswer:"," RET"],["Question: QTL analysis is used to\nChoices:\nA. identify chromosome regions associated with a complex trait in a genetic cross\nB. determine which genes are expressed at a developmental stage\nC. map genes in bacterial viruses\nD. identify RNA polymerase binding sites\nAnswer:"," identify chromosome regions associated with a complex trait in a genetic cross"],["Question: QTL analysis is used to\nChoices:\nA. identify chromosome regions associated with a complex trait in a genetic cross\nB. determine which genes are expressed at a developmental stage\nC. map genes in bacterial viruses\nD. identify RNA polymerase binding sites\nAnswer:"," determine which genes are expressed at a developmental stage"],["Question: QTL analysis is used to\nChoices:\nA. identify chromosome regions associated with a complex trait in a genetic cross\nB. determine which genes are expressed at a developmental stage\nC. map genes in bacterial viruses\nD. identify RNA polymerase binding sites\nAnswer:"," map genes in bacterial viruses"],["Question: QTL analysis is used to\nChoices:\nA. identify chromosome regions associated with a complex trait in a genetic cross\nB. determine which genes are expressed at a developmental stage\nC. map genes in bacterial viruses\nD. identify RNA polymerase binding sites\nAnswer:"," identify RNA polymerase binding sites"],["Question: Which component of transcribed RNA in eukaryotes is present in the initial transcript but is removed before translation occurs?\nChoices:\nA. Intron\nB. 3\u2019 Poly A tail\nC. Ribosome binding site\nD. 5\u2019 cap\nAnswer:"," Intron"],["Question: Which component of transcribed RNA in eukaryotes is present in the initial transcript but is removed before translation occurs?\nChoices:\nA. Intron\nB. 3\u2019 Poly A tail\nC. Ribosome binding site\nD. 5\u2019 cap\nAnswer:"," 3\u2019 Poly A tail"],["Question: Which component of transcribed RNA in eukaryotes is present in the initial transcript but is removed before translation occurs?\nChoices:\nA. Intron\nB. 3\u2019 Poly A tail\nC. Ribosome binding site\nD. 5\u2019 cap\nAnswer:"," Ribosome binding site"],["Question: Which component of transcribed RNA in eukaryotes is present in the initial transcript but is removed before translation occurs?\nChoices:\nA. Intron\nB. 3\u2019 Poly A tail\nC. Ribosome binding site\nD. 5\u2019 cap\nAnswer:"," 5\u2019 cap"]]
