Name Date Class. Genetic Disorders

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Concept Mapping Genetic Disorders Complete the network tree about genetic disorders. These terms may be used more than once: albinism, a dominant gene, Down syndrome, Huntington s disease, nondisjunction, too many, Turner s syndrome. The cause of a genetic disorder can be two copies of a recessive gene 1. 2. causing either 3. 4. 5. of a type of chromosome 6. too few of a type of chromosome 7. 48 Complex Inheritance and Human Heredity Unit 3

Section 1: Basic Patterns of Human Inheritance In your textbook, read about basic patterns of human inheritance. Use the terms below to complete the passage. These terms may be used more than once. albinism alleles cystic fibrosis dominant heterozygous homozygous pedigree recessive A (1) shows the inheritance of a particular trait over several generations. An organism with two of the same (2) for a particular trait is said to be (3) for that trait. An organism with two different (4) for a particular trait is heterozygous for that trait. When alleles are present in the (5) state, the (6) trait will be observable. An individual who is heterozygous for a (7) disorder is called a carrier. Examples of recessive genetic disorders in humans are (8) and (9). In your textbook, read about recessive and dominant genetic disorders. Complete the table by writing the disease name for each description. Disease 10. 11. 12. 13. 14. 15. albinism anchondroplasia cystic fibrosis galactosemia Huntington s disease Tay-Sachs disease Description caused by altered genes; results in lack of skin pigment recessive genetic disorder; characterized by body s inability to tolerate galactose recessive genetic disorder; gene found on chromosome 15; characterized by lack of enzyme that breaks down fatty acids recessive genetic disorder; affects mucus-producing glands, digestive enzymes, sweat glands dominant genetic disorder; affects the nervous system autosomal dominant genetic condition; affects height and body size Unit 3 Complex Inheritance and Human Heredity 49

, Section 1: Basic Patterns of Human Inheritance continued In your textbook, read about patterns of inheritance. For each statement below, write true or false. 16. A scientist uses a pedigree to study family history. 17. A pedigree traces the inheritance of a particular trait through only two generations. 18. In a pedigree, one who does not express the trait is represented by a darkened square or circle. 19. In a pedigree, a horizontal line between two symbols shows that these individuals are the parents of the offspring. 20. Individual II1, as shown below, is in generation II. Refer to the pedigree above. Respond to each statement. 21. Recall if the trait is recessive or dominant based on the following information: In the pedigree, individuals I1 and I2 are unaffected but have an affected child. 22. Specify if parents II1 and II2, who have an affected child, are carriers of the trait. 23. Tell whether there is a dominant gene in the genotype of II4. 50 Complex Inheritance and Human Heredity Unit 3

Section 2: Complex Patterns of Inheritance In your textbook, read about incomplete dominance. Complete the table by checking the correct column(s) for each description. Reminder: R is dominant (normal red blood cells). R is recessive (sickle-shaped red blood cells). 1. R R 2. RR 3. RR In your textbook, read about sex-linked traits. Refer to the Punnett square. Respond to each statement. X B Y X B X B X B X B Y X b X B X b X b Y Reminder: A female has 2 X chromosomes. A male has an X and a Y chromosome. B is dominant (normal color vision). b is recessive (color blindness). 4. Tell if the father has color blindness. 5. Specify if the father has a recessive allele. 6. State whether the only child that could have color blindness is male or female. Unit 3 Complex Inheritance and Human Heredity 51

Section 3: Chromosomes and Human Heredity In your textbook, read about chromosomes and human heredity. Match the definition in Column A with the term in Column B. Column A Column B 1. micrograph of chromosomes A. karyotype 2. abnormal number of chromosomes B. Down syndrome 3. withdrawal of tissue from the placenta C. telomere 4. extra chromosome 21 D. nondisjunction 5. protective cap at the end of a chromosome E. chorionic villus sampling In your textbook, read about Down syndrome. Draw the indicated parts of a karyotype of a child born with Down syndrome and respond to each statement. 6. Chromosome 20 7. Chromosome 21 8. Chromosome 22 9. Tell why this karyotype is called trisomy. 10. Recall the term for the sister chromosomes failing to separate during cell division. 11. State whether the risk of having a child with Down syndrome is higher in mothers who are younger or older. 52 Complex Inheritance and Human Heredity Unit 3

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