Why are recessive disorders more common than dominant ones?

Download Report

Transcript Why are recessive disorders more common than dominant ones?

Why are recessive disorders more
common than dominant ones?
Agenda
1. Genetic disorders
2. Pedigrees
What are the chances of 2 carriers of
cystic fibrosis will have a child with CF?
• The odds of one carrier (1/23.6) marrying
another carrier (1/23.6) is 1/500
• The occurrence of CF is about 1/2000
How can we see the prevalence of a
trait in a family over a long period of
time?
Agenda
1. Genetic Disorder Notes
2. Pedigrees
Nondisjunction
• Cell division chromosomes separate
– Nondisjunction occurs when chromosomes fail to
separate
• More chromosomes than usual
– Trisomy – set of three chromosomes of one kind
– Monosomy – set of 1 chromosome
Nondisjunction
• Down Syndrome
Pedigrees
• Pedigree – diagram that traces the inheritance
of a particular trait through several
generations
Pedigrees
Symbols
Analyzing Pedigrees
Inferring Genotypes
• Use pedigrees to infer genotypes
– Determine genotype from phenotype
– Dominant traits are easier to identify
• dominant traits are exhibited in the phenotype
• If good records have been kept you can
predict disorders in future offspring
Polydactyl – Dominant Disorder
Questions
• Is this trait dominant or recessive? Explain your
answer.
• Name the 2 individuals that were carriers of
hemophilia
• How are individuals III-1 and III-2 related?
• How many children did individuals I-1 and I-2
have
• How many girls did II-1 and II-2 have? How many
have hemophilia?
Is this a recessive or dominant trait?
How are person II2 and II3 related?
Agenda
1. Pedigree Review
2. Pedigree Practice
3. Movie
The pedigree to the right shows a family’s pedigree for
colorblindness (a sex linked trait)
Which sex can be carriers of colorblindness and not have it?
Why does individual IV-7 have colorblindness?
Why do all the daughters in generation II carry the colorblind
gene? IV
Agenda
1.Finish
yesterday’s
movie
2.Lorenzo’s oil