1. Genetics

2. Who was Gregor Mendel? Gregory Mendel was an Austrian monk.
Mendel was the gardener of the monastery where he lived. He did experiments on hundreds of pea plants there.
He kept careful records and used mathematics to make sense of what he observed.

3. Heredity is the passing of traits from parents to offspring.
Mendel experimented with heredity of certain traits found in peas.
Mendel studied each trait separately and discovered certain patterns in the way traits are inherited in peas.
Mendel’s work has become the basis of genetics, the study of heredity.

4. Mendel’s Pea Experiments
Mendel chose pea plants because their traits were easy to see and distinguish.
He crossed plants with two different traits, for example purple flowers with white flowers.
He started his experiments with purebred plants.
Purebred plants ALWAYS produce offspring with the same trait as the parent. For example, if the parent is tall, all offspring will be tall. If the parent is short, all offspring will be short.

5. Some Pea Traits that Mendel Studied

6. F1 Generation Mendel called the parent plants the P generation.
He called the offspring from the parents the F1 generation.
When Mendel crossed pure pea plants with purple flowers with pure pea plants with white flowers, all the F1 generation had purple flowers

7. F2 Generation
When he crossed the F1 generation peas with one another, only some of the offspring had purple flowers. These formed the F2 generation.
Mendel found that in the F2 generation, ¾ of the plants had purple flowers and ¼ of them had white flowers.

8. Review Who was Gregory Mendel?
Why did he choose peas for his experiments?
What is heredity?
What is genetics?
What is a purebred plants?
What is the P generation?
What is the F1 generation?
What is the F2 generation?

9. Steps for Solving a Genetics Problem:
Trait – dominant = A (AA or Aa) Trait – recessive = a (aa)
___________ x ___________
Punnett Square
Answer questions based on results from Punnett Square
____

10. Monohybrid Crosses Cross that involves one pair of contrasting traits
Solve using Punnett Square
Sample problems:
Pp x pp
PP x pp
Pp x Pp
Pp x PP

11. Let’s Solve Together
Short hair (L) is dominant to long hair (l) in mice. What is the genotype and phenotype ratio of a heterozygous short-haired mouse crossed with a long-haired mouse?

12. Example 1: Monohybrid
Short hair = dominant = L (LL or Ll) long hair = recssive = l
Ll x ll (heterozygote parent = Ll)
Punnett Square:
Genotype ratio: ½ Ll: ½ ll
Phenotype ratio: ½ short hair: ½ long hair L l Ll ll

13. Other Types of Heredity Patterns
Co dominance – can see both alleles at the same time.
Roan coats in horses
Some white hairs,
some black hairs

14. Other Types of Heredity Patterns
Incomplete Dominance – blending of traits in heterozygote.
Pink flowers
RR = red
Rr = pink
rr = white

15. Multiple Alleles Blood Types in Humans
Single gene, but four phenotypes
Type A  can be AA or Ao
Type B  can be BB or Bo
Type AB  only AB (codominant pattern here)
Type O  only oo (both recessive)
All 3 blood types are dominant to O

16. Continuous Variation Multiple genes are involved Examples Eye color
Skin color
Hair color

19. Sex-linked Genes Present on the X chromosome More common in males
When would a female have this phenotype?
Examples:
Baldness
Hemophilia

20. Some Human Genetic Disorders Of Interest:
Cystic Fibrosis
Sickle-cell Anemia
Tay-Sachs Disease
Phenylketonuria (PKU)
Hemophilia
Huntington’s Disease
Muscular Dystrophy