1. Genetics
Or…..Who’s Yo Daddy?!?

2. Meiosis: Only with gametes (sex cells)
Homologous pair (mom + dad)
Meiosis: Only with gametes (sex cells)

3. Practice for meiosis review with whiteboards and pipecleaners.
Vocabulary
Haploid
Gamete
Diploid
Chromosome
HOmologous

4. Heredity- passing of characteristics (traits) from parent to offspring.
Traits- examples: shape of nose, size of lips, dimples
Traits- passed on in packets of DNA called genes.

5. Genes All genes are not created equal!!
Stronger genes for the same trait are called “dominant”
Weaker genes for the same trait are called “recessive”
Dominant genes are always expressed over recessive
Abbreviate capital letter for dominant, lower case for recessive. Ex: brown hair is dominant over blonde so brown = B and blonde = b.

6. Allele = the same kind of gene on homologous chromosomes
Ex: The gene for different eye colors is on the same place in all normal chromosomes

7. Everyone has two alleles for a trait (one from mom and one from dad)
Karyotype is a picture of chromosomes
Everyone has two alleles for a trait (one from mom and one from dad)
Karyotype is a picture of chromosomes

8. What you see is what you got?!?
What alleles you have inside your chromosomes is your “genotype” Example: BB or Bb or bb for brown or blond hair
The expression of your DNA (what you see) is called your “phenotype” Example: BB and Bb make brown hair, while bb makes blond.

9. Genotype or Phenotype?

13. Types of Genotypes
Homozygous = when you have two alleles of the same kind (BB or bb)
Homozygous dominant (BB)
Homozygous recessive (bb)
Heterozygous = when you have two different alleles (Bb) AKA hybrid

14. Blending AKA “Incomplete Dominance”
Not all traits are dominant/ recessive, some “blend” both genes. Example: size of eyes- large and small make medium sized.

15. Co-Dominance Some traits are both dominant and can share dominance.
Both genes are expressed as in the case of black and white rabbits

16. Punnett Square Useful for calculation % chance and ratios Rules:
Always take the first letter of dominant gene (ex tall vs short = T and t)
Stick with one letter! So if short is recessive it’s t not s
Dominant always comes first

17. 50% chance for offspring to have brown hair
Your turn! What is the chance that the kid will be short even though the parents are tall?

18. Ratios The relative amount of each kind
Genotypic ratio = number of offspring with each of the three possible genotypes (homozygous dominant, heterozygous, homozygous recessive)
Phenotypic ratio = number of offspring with each of the physical traits expressed

19. Practice
A plant species has two alleles for flower color: Red (R) and White (r). The Red (R) allele exhibits complete dominance. One parent is heterozygous and the other is homozygous recessive.
What are the parent’s genotypes and phenotypes?
What is the probability that an offspring will be homozygous dominant?
What are the genotypic and phenotypic ratios?

20. Genotype: Heterozygous. Phenotype: red
Genotype: Homozygous recessive Phenotype: white R r Rr rr
What is the probability that an offspring will be homozygous dominant? 25%
What are the genotypic and phenotypic ratios?
Genotypic 1:2:1
Phenotypic 3:1

21. More Practice
Let's say that in seals, the gene for the length of the whiskers has two alleles. The dominant allele (W) codes long whiskers & the recessive allele (w) codes for short whiskers.
What percentage of offspring would be expected to have short whiskers from the cross of two long-whiskered seals, one that is homozygous dominant and one that is heterozygous?
If one parent seal is pure long-whiskered and the other is short-whiskered, what percent of offspring would have short whiskers?

22. Writing prompt
DNA tests have proven that “John Doe” is the father of a child that looks nothing like him or his other 2 children. Using terms learned in class, write a paragraph explaining how this is possible.