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Chapter Resources

Chapter Resources. Click on one of the following icons to go to that resource. life.msscience.com. Image Bank. Foldables. Video Clips and Animations. Chapter Summary. Chapter Review Questions. Standardized Test Practice. life.msscience.com. Image Bank.

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Chapter Resources

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  1. Chapter Resources Click on one of the following icons to go to that resource. life.msscience.com Image Bank Foldables Video Clips and Animations Chapter Summary Chapter Review Questions Standardized Test Practice

  2. life.msscience.com

  3. Image Bank Click on individual thumbnail images to view larger versions.

  4. Image Bank Transfer Images • To transfer images to your own power point follow the following steps: • Open the “Resource” file from the CD-ROM disc – view the file in the “normal view” or “slide sorter view” mode - go to slide #2 – from there you can click through the images and follow these instructions. Click once on the image. • Copy the image • Go to your own power point document • Paste the image.

  5. Image Bank Family

  6. Image Bank Allele Separation

  7. Image Bank Garden Pea Plants

  8. Image Bank Table – Traits Compared by Mendel

  9. Image Bank Punnett Square of Peas

  10. Image Bank Table – Principles of Heredity

  11. Image Bank Punnett Square of a Chestnut Horse

  12. Image Bank Blood Collection Bag

  13. Image Bank Eye

  14. Image Bank Color Blindness Test

  15. Image Bank Pedigree Chart

  16. Image Bank Cows

  17. Image Bank Genetic Engineering

  18. Image Bank Gene Therapy

  19. Image Bank Genetically Engineered Crop Plants

  20. Image Bank Punnett Square of a Calico Cat

  21. Foldables Classify Characteristics As you read this chapter about heredity, you can use the following Foldable to help you classify characteristics as inherited or not inherited.

  22. Foldables Fold the top of a vertical piece of paper down and the bottom up to divide the paper into thirds.

  23. Foldables Turn the paper horizontally; unfoldand label the three columns as shown.

  24. Foldables Read for Main Ideas Before you read the chapter, list personal characteristics and predict which are inherited or not inherited. As you read the chapter, check and change your list.

  25. Video Clips Click image to view movie.

  26. Video Clips Click image to view movie.

  27. Video Clips Click image to view movie.

  28. Reviewing Main Ideas 1 Genetics • Genetics is the study of how traits are inherited. Gregor Mendel determined the basic laws of genetics. • Traits are controlled by alleles on chromosomes. • Some alleles can be dominant or recessive.

  29. Reviewing Main Ideas 1 Genetics • When a pair of chromosomes separates during meiosis, the different alleles move into separate sex cells. Mendel found that he could predict the outcome of genetic crosses.

  30. Reviewing Main Ideas 2 Genetics Since Mendel • Inheritance patterns studied since Mendel include incomplete dominance, multiple alleles, and polygenic inheritance. • These inheritance patterns allow a variety of phenotypes to be produced. • Some disorders are the results of inheritance and can be harmful and even deadly.

  31. Reviewing Main Ideas 2 Genetics Since Mendel • Pedigree charts help reveal patterns of the inheritance of a trait in a family. Pedigrees show that sex-linked traits are expressed more often in males than in females.

  32. Reviewing Main Ideas 3 Advances in Genetics • Genetic engineering uses biological and chemical methods to change genes. • Recombinant DNA is one method of genetic engineering to make useful chemicals, including hormones. • Gene therapy shows promise for correcting many human genetic disorders by inserting normal alleles into cells.

  33. Reviewing Main Ideas 3 Advances in Genetics • Breakthroughs in the field of genetic engineering are allowing scientists to do many things, such as producing plants that are resistant to disease.

  34. Chapter Review Question 1 Study the table. If a pea plant produces round yellow seeds it is exhibiting ________ traits.

  35. Chapter Review A. dominant B. hybrid C. purebred D. recessive

  36. Chapter Review Answer The correct answer is A. In the table shown, round, yellow seeds are a dominant trait of pea plants.

  37. Chapter Review Question 2 When using Punnett squares to predict results in genetics, why do you sometimes use uppercase letters and other times lowercase letters?

  38. Chapter Review Answer Uppercase letters are used to represent dominant alleles while lowercase letters are used to represent recessive alleles. A Punnett square can be used to predict which two alleles an offspring might inherit from a cross of two particular parents.

  39. Chapter Review Question 3 What type of inheritance does the cross shown by this Punnett square represent?

  40. Chapter Review Answer This cross represents incomplete dominance. In this case, when a horse homozygous for chestnut coat color and one homozygous for cremello coat color are mated, none of the offspring have the coat color of either of the parents. The offspring are all palomino which is an intermediate coat color.

  41. Chapter Review Question 4 Cystic fibrosis is caused by a recessive allele. How can two parents who do not have cystic fibrosis have a child with this disease?

  42. Chapter Review Answer Because the allele is recessive, it will be masked by the dominant allele. If both parents are heterozygous, they will not have the disease but they each have one recessive allele. If each parent happens to pass on their recessive allele to a child, the child will have cystic fibrosis.

  43. Chapter Review Question 5 Which would be an example of genetic engineering corn plants?

  44. Chapter Review • cross breeding two different corn plants to • get stronger plants • B. inserting a gene into corn plants that helped • them grow faster • C. predicting the offspring of corn plants using • Punnett squares • D. using herbicides to kill corn plants with • undesirable traits

  45. Chapter Review Answer The correct answer is B. Scientists are finding genes that produce desirable traits and inserting them into plants using genetic engineering techniques.

  46. Standardized Test Practice Question 1 Which correctly describes the phenotypes of these three plants?

  47. Standardized Test Practice • All three plants should have different • phenotypes. • B. All three plants should have the same • phenotype. • C. Plant 1 and plant 2 should have the same • phenotype. • D. Plant 2 and plant 3 should have the same • phenotype.

  48. Standardized Test Practice Answer The correct answer is C. Because plant 1 and plant 2 each have a dominant allele, they should each have the same phenotype. Plant 3 should not look like the other two plants.

  49. Standardized Test Practice Question 2 Which would represent a hybrid individual? A. T B. TT C. Tt D. tt

  50. Standardized Test Practice Answer The correct answer it C. A hybrid individual has received a different allele for a trait from each parent. In this example, the individual received a dominant allele from one parent (T) and a recessive allele from the other parent (t).

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