Chat with AIExam 18: Patterns of Inheritance
Exam 1: Biology: The Scientific Study of Life40 Questions
Exam 2: Evolution and the Diversity of Life42 Questions
Exam 3: Evolutionary Change and Adaptation43 Questions
Exam 4: Organisms in Their Habitat39 Questions
Exam 5: Ecological Interactions Among Organisms41 Questions
Exam 6: Animal Structure and Function45 Questions
Exam 7: Animal Growth and Development44 Questions
Exam 8: Animal Feeding and Digestion42 Questions
Exam 9: Animal Respiration, Circulation, and Metabolism46 Questions
Exam 10: Animal Sensory Perception, Integration, and Movement41 Questions
Exam 11: Animal Mating and Reproduction44 Questions
Exam 12: Plant Growth, Structure, and Function55 Questions
Exam 13: Plants Functioning in Their Habitat56 Questions
Exam 14: Plant Reproduction56 Questions
Exam 15: The Biology of Fungi56 Questions
Exam 16: Physical Cycles and the Biosphere50 Questions
Exam 17: Preserving Biodiversity Through Conservation Biology51 Questions
Exam 18: Patterns of Inheritance44 Questions
Exam 19: Biotechnology and Genetics38 Questions
Exam 20: Infectious Diseases and the Bodys Responses43 Questions
Exam 21: The Biology of Chronic Disease40 Questions
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Use a Punnett square to determine how many different genotypes can be produced by two parents that are homozygous dominant (mother) and homozygous recessive (father) for a particular trait.
(Multiple Choice)
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(35) __________ code(s) for a specific trait, but there may be different versions of the trait called __________.
(Multiple Choice)
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(35) Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A woman who is a carrier for DMD marries a man who does not have the disease. What is the probability that they will have a girl with DMD?
(Multiple Choice)
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(42) Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. For a girl to show symptoms of the disease, she must have _____ copies of the gene.
(Multiple Choice)
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