1. The passing of traits from parent to offspring.
Heredity
The passing of traits from parent to offspring.

2. DNA and Heredity Pieces of DNA called genes tell your cells
how to make your traits.
Traits are simply a specific characteristic. For instance the characteristic, “hair color” can have many different
traits – blond, black,
brown, red, etc.

3. Both your Parents are to Blame!
You get your genes from your parents.
23 Chromosomes from Mom.
23 Chromosomes from Dad.
Making 23 homologous pairs.
Each pair makes the same characteristic, but they may make different traits.
For Instance: Mom’s chromosome might make attached earlobes while Dad’s makes unattached.

4. Different traits are the result of differences in the genes (sections of DNA).
For instance: a small change in one base pair (one rung on the DNA ladder) can completely change a trait.
(Remember the
replacement
mutation?)

5. Mendel is the father of genetics
Gregor Mendel studied heredity in __. They could “self-pollinate” (they could fertilize themselves). In the plant world, there’s nothing wrong with being both, mom and dad.
This made it easy
for him to gather up
a bunch of true
breeding or pure bred
plants.

6. Mendel’s first Experiment
One characteristic Mendel looked at was flower color in pea plants. He took pea plants that always made purple flowers (true breeding purple, pure bred purple, or homozygous purple) and crossed them with plants that always made white flowers.
What other terms
could you use for
the plants that
always made white
flowers?

7. DOMINANT vs recessive
A DOMINANT trait is one that always shows up or dominates when paired with a recessive trait.
A recessive trait is one that is hidden by a DOMINANT trait. A recessive trait will only show up if paired with another recessive trait.

8. Different forms of a gene (genes for the same characteristic that make different traits) are called, ALLELES.
Having two of the same alleles is called “HOMOZYGOUS” and would be a true breeding or pure bred.
Having two different alleles is called “HETEROZYGOUS” and would be a hybrid.

9. Alleles A dominant allele is represented by a capital letter.
Usually, the letter comes from the 1st letter of the dominant trait.
Purple flowers are a dominant trait and would be represented by a “P”
Recessive alleles are represented by a lower case letter.
White flowers are recessive and would be represented by a “p”.

10. Remember most characteristics have 2 possible genes that result in 2 possible traits.
A pea plant that is homozygous for purple flowers would have alleles PP.
A pea plant that is homozygous for white flowers would have alleles pp.
A pea plant that is heterozygous for purple flowers would have alleles Pp.
A pea plant that is heterozygous for white flowers is impossible…why? ____________________________________________________________________________

11. Genotype and Phenotype
A genotype is an organism’s genes (get it GENO type). For instance a genotype for the characteristic, “flower color” could be any of the following: PP, pp, or Pp.
A phenotype is an organism’s physical appearance of the trait (get it PHENO type). For instance a phenotype for, “flower color” could be any of the following: purple flowers or white flowers.

12. Do you remember? These are different forms of a gene. _____________
The prefix homo means? ____________
The prefix hetero means? ____________
“Aa” is an example of a _____________.
“Widows Peak” is an example of a _____________.
A hybrid would have the dominant or recessive phenotype? __________ Why? ___________________________________

13. Were you paying attention?
In pea plants round seeds is dominant
(represented by the allele R) and wrinkled seeds
are recessive.
What would be the genotype for plants that are homozygous for round seeds? ______
What would be the phenotype for a plant with the genotype Rr? ____________
Is a plant with wrinkled seeds a hybrid or a purebred? _________ How do you know? _____________________________________

14. Punnett Squares
Punnett Squares are used to figure out the possible genotypes (which would then tell us the phenotypes) for the offspring of parents with known genotypes.
Mendel’s first cross would look like this for flower color.
As you can see, all
of the offspring
would be hybrids
with the genotype Pp. P P
What would
the phenotype
be for all of the
offspring?
______________ P p P p p p P p P p

15. Punnett Squares Cont.
Mendel then had all of the hybrids (or heterozygotes) from this first generation self pollinate. Pp crossed with Pp.
Complete the Punnett
square of this cross below.

16. Co-dominance and Incomplete Dominance
Although Mendel’s work was extremely important to understanding heredity, a number of exceptions have been found.
Co-dominance in pig hair color.
Wavy hair is the result of incomplete dominance.

17. Many genes can result in one trait.
Eye color in people is the result of many genes acting on one trait.
Some characteristics have more than one allele possible. Blood type has 3 (A, B, and O). Some traits in strawberries have 8!

18. Why is heredity important?
To know why we look the way we do.
To track genetic diseases.
To know if we might be at risk because of our genes.
Many of the foods we
eat are possible because
of the manipulation
(controlling) of heredity.

19. One more quiz What are Punnett squares used for?
A: To find the possible offspring of 2 parents.
What would the probabilities be for each offspring of a cross between a pea plant with hybrid purple flowers and white flowers?
A: 50% hybrid purple and 50% white
What are some of the exceptions to Mendel’s theories?
A: Co-dominance, Incomplete dominance, Multiple genes affecting one trait, More than 2 alleles for a trait.