1. Tracking Genetic Traits: How it’s done!
Pedigree
Tracking Genetic Traits: How it’s done!

2. REVIEW
Many traits in humans are controlled by genes. Some of these traits are common features like eye color, straight or curly hair, baldness, attached vs. free ear lobes, the ability to taste certain substances, and even whether you have dry or sticky earwax!

3. REVIEW
Other genes may actually cause disease. Sickle cell anemia, muscular dystrophy, cystic fibrosis are each caused by a specific allele of a human gene, and can therefore be inherited from one generation to the next.

5. Pedigree
Human geneticists illustrate the inheritance of a gene within a family by using a pedigree chart. On such a chart, males are symbolized by a square (□) and females are symbolized by a circle (○). People who are affected by a disease are symbolized by a dark circle or square.

7. Pedigrees
Allows tracking of inherited genes by understanding who is a carrier, who does not have the gene and who has the gene.
If a symbol is colored in: HAS THE GENE
If a symbol is not colored in: DOES NOT HAVE THE GENE
If a symbol is ½ colored in: CARRIER

9. CARRIERS
However, depending if the gene is dominant or recessive, carriers may or may not have the disease. Sometimes carriers are not represented by a half- colored in circle, but need to be figured by working with the information.
A carrier can only be a female for an X linked recessive trait.
Males or Females can be a carrier for an Autosomal linked trait.

10. What type of inheritance
When reading a pedigree, you can determine what type of inheritance the pedigree is.
Pedigrees can have the following types of inheritance:
Autosomal (non- sex linked) Dominant
Autosomal (non-sex linked) Recessive
X Sex Linked Dominant
X Sex Linked Recessive
Y Sex Linked

11. Autosomal Dominant
Both carriers and homozygous dominant have the condition, 11 in this example

12. Autosomal Dominant Disease
Tuberous Sclerosis:
Tuberous sclerosis or tuberous sclerosis complex (TSC) is a rare, multi-system genetic disease that causes benign tumours to grow in the brain and on other vital organs such as the kidneys, heart, eyes, lungs, and skin. A combination of symptoms may include seizures, developmental delay, behavioral problems, skin abnormalities, lung and kidney disease.

13. Autosomal Recessive
Only homozygous recessive have the condition, 8 in this example.

14. Autosomal Recessive Disease
Friedreich's ataxia is an inherited disease that causes progressive damage to the nervous system resulting in symptoms ranging from gait disturbance and speech problems to heart disease.
Generally, ataxia is a symptom of coordination problems such as clumsy or awkward movements and unsteadiness and occurs in many different diseases and conditions. The spinal cord becomes thinner and nerve cells lose some of their myelin sheath (the insulating covering on some nerve cells that helps conduct nerve impulses).

15. X Linked Recessive
Only a homozygous recessive will show the condition. Must have 2 recessive alleles in females and 1 in males.

16. X linked Recessive Disease
Hunter syndrome is a genetic disorder that primarily affects males. It interferes with the body's ability to break down and recycle specific mucopolysaccharides (types of sugars). A build up of these waste sugars accumulates in the body cells, not allowing them to function. A variety of symptoms are seen with Hunter syndrome included hearing loss, thick heart valves and enlargement of the liver or spleen.

17. X linked Dominant
Must have 1 dominant gene to express the condition. Females only need 1 dominant gene, as do males. If mother is normal and man has the disorder, sons cannot get the disease, only daughters.

18. X Linked Dominant Disease
Aicardi Syndrome is a disease linked to the brain. The corpus callosum (the connector between the left and the right brain) is absent. Seizures are a common side effect. By 3 months, symptoms are apparent and over time condition will impede thought processing and co- ordination.