1. The family tree of genetics
Pedigree Charts
The family tree of genetics
A quick refresher for the teacher on important terms:
Autosomal gene- a gene found on any chromosome except for the sex chromosome. These are chromosomes numbered 1-22.
X-linked gene- a gene found on a chromosome designated as a sex chromosome (X or Y).
Dominant- Refers to an allele that is expressed phenotypically and masks any recessive counterpart.
Recessive- An allele that is not phenotypically expressed when its counterpart is dominant.

2. What is a Pedigree?
A pedigree is a chart of the genetic history of family over several generations.
Scientists or a genetic counselor would find out about your family history and make this chart to analyze.
A pedigree is a chart of the genetic history of family over several generations. Scientists or a genetic counselor would find out about your family history and make this chart to analyze it. For example, a couple might like to know their chances of having a child that has muscular dystrophy. So the scientists or a genetic counselor would find out who had muscular dystrophy in the mother’s and/or father’s families. This information would be used to and then calculate the probability of the couple having a child with MD.

3. Constructing a Pedigree
Female
Male
You must learn the symbols of the pedigree charts before you can start to learn how to interpret it. These are the symbols that represent a male and a female.

4. Connecting Pedigree Symbols
Examples of connected symbols:
Married Couple/ couple with children
Siblings
These symbols also represent relationships between people. some may have to each other.

5. Example What does a pedigree chart look like?
This is just an example of a pedigree and there can be many more different types.

6. Example of Pedigree Charts
The Shaded means that person has that trait
Take a minute and try to decide if this slide is autosomal or X-linked.

7. Interpreting a Pedigree Chart
Determine whether the trait is dominant or recessive. (remember: the dominant traits shows if there is one or two, the recessive shows only if there are two)
If the trait is dominant, one of the parents must have the trait.
If the trait is recessive, neither parent has to have the trait because they can be heterozygous.
The second step is to determine if the disorder is dominant or recessive. It is important to find out if a disorder is dominant or recessive. For example, Huntington’s disease is a dominant disorder. If you have only one dominant gene you will have Huntington’s disease, which is a lethal disorder. The disorder does not show up until a person is in their middle ages such as 45. It will quickly decrease their motor skills and the brain will begin to deteriorate.
If a disorder is dominant, one parent must have the disorder (either homozygous dominant (TT) or heterozygous recessive (Tt). Both parents do not have to have the disorder. One parent might not have the disorder or be a carrier. If a disease is dominant, it does not skip a generation unless one parent is heterozygous dominant (Tt) and the other parent is homozygous recessive (tt). In this case the child has a chance of not receiving the dominant gene.
If the disorder is recessive, a parent does not have to have the disorder, but could still pass it to their offspring. This would happen when a parent is heterozygous recessive (Tt) and passes on the recessive (t) gene. This means this disorder can skip generations. An example of a recessive disorder would be sickle cell anemia.

8. Heterozygous vs. Homozygous
Remember that an offspring gets one allele for a trait from each parent – that’s 2 alleles
If the alleles are the same, we say that offspring is homozygous – the same
If the alleles are different, we say the offspring is heterozygous – different

9. Hetero & Homo zygous display
An example: If the offspring has the dominant trait for tallness (T) from one parent and the recessive trait (t) from the other, then their genotype is Tt and they are heterozygous. (They are still tall)
Some pedigrees split their circles and squares into two and shade them according to whether the individual is heterozygous or homozygous.

10. AUTOSOMAL DOMINANT INHERITANCE
Approximately a 1:1 ratio of affected vs. unaffected progeny with one affected parent.
Transmission can occur from affected father to affected son.
Direct transmission from an affected parent to an affected child.
(Affected children always have an affected parent.)

11. DOMINANT DISEASE Huntington’s Disease Lobster Foot Woody Guthrie
Arlo Guthrie
Children
Lobster Foot
Dominant allele -- you have the disease or you don’t

12. AUTOSOMAL RECESSIVE INHERITANCE
Affected parents can have affected offspring.
However, affected children typically do not have affected parents.
Affected individuals can be either male or female.

13. RECESSIVE DISEASE Albinism Achondroplasia
Both parents can be carriers to have an affected child
2 affected parents will usually produce an affected child

14. Example of Pedigree Charts
Dominant or Recessive? (Many or Few?)
Is this pedigree dominant or recessive?

15. Example of Pedigree Charts
Dominant or Recessive? (Many or Few?)
Is this pedigree dominant or recessive?

16. SEX-LINKED RECESSIVE TRAITS
More affected males than females.
Affected grand-father to grand-son thru carrier female.
SEX-LINKED
RECESSIVE TRAITS
Females do not manifest the disorder.

17. Example of Pedigree Charts
Autosomal or Sex-Linked? (Males/Females)
Is this pedigree dominant or recessive?

18. Example of Pedigree Charts
Autosomal or Sex-Linked? (Males/Females)
Is this pedigree dominant or recessive?

19. Summary Pedigrees are family trees that explain your genetic history.
Pedigrees are used to find out the probability of a child having a certain trait in a particular family.
This summary will help reiterate the important parts of this lesson.
[Created by Lauren Almaguer, CDC Science Ambassador, 2004.]

20. Autosomal Dominant Bent Pinky Dimples PTC Tasting Widow’s Peak
Hand Fold
Mid-digital hair
Bent Little
Finger
Short Hallux
(Big Toe)
Finger Length

21. Hitchhiker’s Thumb
Tongue Roll
Tongue Flip
Tongue Fold
Attached Earlobe
Unattached Earlobe
Ear Wax
Ear Diagram

22. Examples sex-linked recessive traits:
COLOR BLINDNESS