1. Chapter 4: Heredity Section1- Genetics
Life Science
Lesson Plan

2. Inheriting Traits
Create a short list of characteristics about yourself…

3. Heredity Heredity is the passing of traits from parents to offspring.
Inherited Traits- Traits that are passed from parents to their offspring (through fertilization)

4. Genes are passed down… but what are genes?
Genes - Sections of DNA on a chromosome.
Genes on chromosomes control the traits that show up in an organism.
There are hundreds of genes on a chromosome

5. Alleles are different forms of a trait that a gene may contain.
There are TWO alleles for every trait
Example: Height
1 allele is tall (T)
1 allele is short (t)

6. Alleles
alleles
a gene

7. GENETICS Gregor Mendel- The Father of Genetics “The Man”
Genetics- the study of inherited traits.
Gregor Mendel- The Father of Genetics “The Man”

8. Gregor Mendel

9. Mendel’s Experiment Mendel studied the traits of Pea Plants
Look Page 105
Crossed 2 Plants with different expressions of the trait
Example- Tall (T)& Short (t)
Round (R) & Wrinkled (r)

10. Mendel’s Tall vs. Short Plants
Mendel’s Experiment
When the plants were crossed he discovered that the new plant formed looked like one of the two parents.
Take a look…
Mendel’s Tall vs. Short Plants

11. Mendel used pollen from both Tall and Short Plants to pollinate by hand the flowers.
Cross-Pollination- the pollination of two different plants together

12. Hybrid vs. Purebred
3.Purebreds- offspring that receives two of the same alleles for a trait (TT or tt)

13. Hybrid vs. Purebred
4. Hybrids- offspring that receives two different alleles for a trait (Tt)

14. OR……

15. Check out these websites!

16. 2 Types of Alleles
a. Dominant allele- covers up or dominates the other trait.
Represented by a CAPITAL
b. Recessive allele- the trait seems to disappear
Represented by a lower case

17. Homozygous vs. Heterozygous
Homozygous – an organism with 2 alleles for one trait that are the same (written TT) 6
Heterozygous – an organism with 2 alleles for one trait that are different (written Tt)

18. Phenotype vs. Genotype
Genotype- the genetic-makeup of an organism (types of letters used)

19. Phenotype vs. Genotype
Phenotype- the way an organism physically looks/behaves as a result of its genotype.
Types of Words used: Tall, Short, Blonde, Brown, etc.

20. The Use of Punnett Squares
A Punnett Square can help you predict what an offspring will look like.
For example, Male and Female Chromosomes

21. Check out the Punnett Square Screencast!

22. Chapter 4 Part 2- Genetics Since Mendel
Life Science

23. Question…
If you crossed Purebred Red four- o’clock plants with Purebred White four-o’clock plants, what would the offspring look like?

24. Actually… they were Pink !?!?!

25. Incomplete Dominance- when two homozygous parents combine, the offspring results in a mixed (or blended) phenotype
Remember the chickens?!?!

26. When neither allele for a trait is Dominant.
The phenotype produced is a blending between the two homozygous parents.
The combining of Purebred Red & Purebred White produced PINK plants.

27. Although Mendel studied peas that were controlled by two alleles, many traits can be controlled by more than two alleles…

28. Multiple Alleles
A trait that is controlled by Having more than two alleles is controlled by Multiple Alleles.
Traits controlled by Multiple Alleles produce more than three phenotypes of that trait.

29. Example of Multiple Alleles…
Blood Types: A, B, AB, and O.
The O allele is recessive to both A and B

30. Other Worksheet… Phenotype A - AA or Ao Genotype
Phenotype B – BB or Bo Genotype
Phenotype AB – AB
Phenotype O – oo Genotype

34. Polygenic Inheritance
Polygenic Inheritance- when a group of gene pairs acts together to produce one trait.
Which creates more variety in phenotypes

35. What would be an example?
Many traits such as…Eye Color, Hair Color, Skin tone, & Handspan are traits produced by a combination of genes.

36. Human Genes & Mutations
What are Mutations?!?!?

45. Mutations Mutations - a permanent change in the DNA sequence
A mutation can be harmful, beneficial, or cause no effect.

46. Chromosome Disorder
Chromosome disorders- caused by more or fewer chromosomes than normal
Downs Syndrome- caused by an extra chromosome (trisomy) at Chromosome 21

47. Recessive Genetic Disorders
Recessive Genetic Disorders are disorders passed through the Recessive alleles.
Both parents contain the recessive allele (containing the disorder) that comes together in the offspring.

48. When both parents are Heterozygous, they do not show any symptoms
(Called “carriers” for the trait.)
Example- Cystic Fibrosis is a homozygous recessive disorder.

49. Sex-Linked Disorders
An allele inherited on a sex chromosomes ( X or Y ) is called a sex-linked gene.
Inherited conditions are linked with the X and Y chromosomes.

50. Example- Color Blindness and Hemophilia

52. Pedigree- used to follow or trace traits through generations of a family.

54. Section 3 Advances in Genetics
A. Genetic Engineering- experimentations that changes the arrangement of DNA that makes up a gene.

55. Types: Recombinant DNA
Inserting a useful section of DNA into a bacteria
Example- Creating Insulin (Page 143)

56. Gene Therapy-
When a “normal allele” is placed into a virus, the virus then delivers the normal allele when it infects a specific cell. (Figure 13 Page 144)
May be used to control Cystic Fibrosis and other disorders.

57. Genetically Engineering Plants-
Plants are created by genetically inserting the desired genes of one plant into another plant you want to show those genes.
Also genetically engineered: ANIMALS
“Cloning”

58. Works Cited www.coolclips.com