1. Scene 1: Michelle is saved by the starving bacteria
After this lesson, the student will be able to:
explain recessive inheritance using phenylketonuria (PKU) as an example;
describe the Guthrie test for screening newborn babies for PKU
explain how PKU can be treated by a special diet and how this could postpone the effects of PKU until the next generation
discuss some of the economic issues associated with screening for the treatment of genetic conditions
explain why females with PKU need to be followed very closely in their reproductive years to avoid the problems associated with maternal PKU.

2. Michelle’s Situation
Stacy and Paul Chance are referred to the genetics center because their newborn daughter, Michelle, had elevated phenylalanine levels as determined by newborn screening. The diagnosis of phenylketonuria (PKU) is made.

3. Mandatory PKU Testing
The couple wonders why their child was tested. They have two other children, Alan (age 6) and Frank (12) who are apparently healthy, active, intelligent boys. The couple couldn't remember any special testing that either boy had at birth. State mandated newborn screening is explained to them. A description of PKU and its inheritance is provided, and dietary management is discussed.

4. PKU Testing: Guthrie Test
Mandatory statewide testing around day 2 ($5/child)
Bacteria grows on blood sample if excess phenylalanine is present
Treatment begins immediately
Why is $5/child more cost effective for the state then no testing at all?

5. What is PKU? PHENYLKETONURIA (PKU)
PAH gene on long arm of chromosome 12 is absent/reduced
Excess phenylalanine (amino acid) interferes with brain development
Autosomal recessive disorder
1:10,000-15,000 births
Effects: retardation, seizures, destructive, restlessness

6. Prognosis With treatment: Normal development
With minimal treatment: Intellectual defects
Without treatment: Retardation

7. Treatments Low phenylalanine diet
Low protein diet
Baby fed special formula (~$10,000/year)
Vegetables and low phenylalanine foods added later in development
Regular blood samples taken and phenylalanine diet adjusted as needed
Eventually, a normal diet can be obtained

8. Chances’ reaction
Paul denies his contribution to his daughter's condition. He is a successful businessman, proud of his healthful lifestyle. He doesn't smoke, he jogs six miles a day and he enjoys a healthy diet. He attributes Michelle's condition to a "weakness on Stacy's side of the family" and refuses to believe that he has any "bad genes." The genetic counselor mentions that everyone carries an estimated 6-10 "unusual" recessive genes which cause no clinical problems in the carriers, but if two carriers of the same unusual recessive gene were to have children together, each child would have a 1 in 4 chance of inheriting the recessive condition for which the genes were responsible.

9. Genetic Counseling NN Nn Nn nn
Paul is relieved to know that being a carrier neither reflects negatively on his manhood nor does it isolate him from his peers. He quickly turns the situation to his advantage and states, "Well, if we're all carriers of some bad genes, I guess I'm better off than most of you. At least I know what one of my unusual genes is." Stacy does not try to defend herself against Paul's earlier accusations but is relieved at his acceptance of the cause of Michelle's condition. NN Nn Nn nn
The further complication of maternal PKU is mentioned. Paul and Stacy are scheduled to meet with a nutritionist, and follow-up appointments for monitoring blood phenylalanine levels are made.
Upon leaving, Stacy thanks the genetics staff and says, "Well I guess we won't be seeing you again for a long time.“
Little does she know...

10. Cross a homozygous dominant yellow (YY) plant with a homozygous recessive green (yy) plant
Key
Y = yellow
y = green Y Y Y Y Y
Probability of growing a homozygous recessive plant?
Probability of growing a yellow plant?

11. Cross a heterozygous dominant yellow (Yy) plant with a heterozygous dominant yellow (Yy) plant
Key
Y = Yellow
y = green y y y
Probability of growing a heterozygous plant?
Probability of growing a green plant?
Probability of growing pure yellow?

12. Maria is a healthy carrier (Hh) of cystic fibrosis and Jeff suffers from recessive cystic fibrosis (??). h h h h h h
Key
H = healthy
h = cystic fibrosis H H H h h h
Probability of eliminating the CF gene from their family?
Probability of having a healthy child?