Lecture 8

Question 1

How to solve Pedigree problems

Answer 1

1. Identify the aa individuals
2. Identify all the parents of the aa individuals. Must be Aa or aa. Children much be aa or Aa
3. Identify any other individuals entering the pedigree that are assumed to be AA
4. Determine all other possible genotypes and calculate the probability of each
5. When you do the punnet square, take out the aa individuals. Your value will not sum up to 1.
6. To get the ratio of normal phenotypic children divide by that value
7. Cross the two.
8. Calculate the probably of other gametes by calculating the probability of a and the probability of A

Question 2

Autosomal recessive

Answer 2

• two copies of an abnormal gene must be present in order for a disease to trait to develop
• traits normally appear with equal frequency in both sexes and tend to skip generations
• more likely to appear among progeny of related parents

Question 3

Autosomal dominant

Answer 3

• if you inherit the abnormal gene from only one parent, you can get the disease.

infected dad Dd. Normal mom dd. Progeny are Dd and dd. The Dd individuals will be infected

• traits normally appear with equal frequency in both sexes and do not skip generations
• affected individuals have at least 1 affected parents
• unaffected do not transmit trait

Question 4

X linked recessive

Answer 4

females need two recessive X’s in order to get the disease.
Males need one from their mom.

Appear more often in males in females and are not passed from father to son

• affected male must have unaffected father
• ex: hemophilia

Question 5

X linked dominant

Answer 5

females only need one recessive X in order to get the disease. Males only need one.

affect both males and females
affected male passes it to all daughters and no sons
affected male needs an affected mother

Question 6

Y linked

Answer 6

appear only in males and are passed from a father to all his sons

Question 7

Exploratory Pedigrees

Answer 7

1. Determine genotypes
2. Assume complete penetrance
3. Make sure alleles are consistent with inheritance
4. If there are any inconsistencies, you can excuse the mode of inheritance

Question 8

Cytoplasmic inheritance

Answer 8

affected mother passes to all of her children

Question 9

Monozygotic (identical) twins

Answer 9

Result when a single fertilized egg splits into two separate embryos

Question 10

Dizygotic (nonidentical) twins

Answer 10

result when two separate eggs are fertilized by two sperm

Question 11

concordance

Answer 11

the percentage of twin pairs that are the same fit for a given trait

Question 12

If both members of a twin pair have a trait, the twins are

Answer 12

concordant

Question 13

If only one member of the twins has the trait, they are said to be

Answer 13

discordant

Question 14

Adoption studies

Answer 14

assess genetic and environmental effects on trait variation

overweight biological parents have overweight children
no association between the weight of adopted children and that of their adoptive parents

Question 15

consanguinity

Answer 15

• mating between related persons

- usually goes as far as first cousins

Question 16

Amniocentesis

Answer 16

• used for obtaining fetal cells for genetic testing. 15-18 weeks pregnant (disadvantage)
  1. sterile needle inserted through the abdominal wall into the amniotic sac
  2. small amount of amniotic fluid is withdrawn through the needle
  3. the amniotic fluid contains fetal cells, which are separated from the amniotic fluid
  4. and cultured
  5. test are then performed on the cultured cells

Question 17

Chorionic Villus Sampling

Answer 17

• used for obtaining cells for genetic tests. (10-11 weeks in). - - Somewhat higher risk than amniocentesis
• Karyotype can be performed
  1. CVS can be performed early in pregnancy
  2. Under the guidance of ultrasound, a catheter is inserted through the vagina and cervix and into the uterus
  3. where it is placed in contact with the chorion, the outer layer of the placenta
  4. Suction removes a small piece of the chorion
  5. Cells of the chorion are used directly for many genetic tests, and culturing is not required

Question 18

Maternal Blood Screening Tests

Answer 18

• screening for certain substances (proteins and hormones) in the mother’s blood. These substances are produced by the fetus and are present in fetal blood, amniotic fluid, and maternal blood during pregnancy
• abnormal levels of these may indicate an increased for NEURAL TUBE DEFECTS or CHROMOSOMAL ABNORMALTITIES in the fetus.
• Ex. alpha-fetoprotein when a baby has a neural tube defect

Question 19

Fetal DNA diagnosis

Answer 19

• during pregnancy, some fetal cells are released into the mother’s circulatory system. Also contains free floating fetal DNA derived from the breakdown of fetal cells
• about 3-10% of cell-free DNA in a mother’s blood belongs to her baby.
  10-15 weeks of pregnancy. as early as 10

Question 20

Preimplantation Genetic Diagnosis

Answer 20

combines genetic testing with in vitro fertilization. One cell is removed from 8- to 16-cell embryo and tested before implantation

Question 21

Newborn screening

Answer 21

• allows for detection of metabolic diseases so that early intervention can prevent problems
• 34 in NC

Question 22

Heterozygote screening

Answer 22

tests on adults to identify heterozygous carriers of recessive disease-carrying alleles before they have children

Question 23

Presymptomatic testing

Answer 23

evaluating healthy people before onset of disease, especially in families carry autosomal dominant diseases when early intervention can save lives

Question 24

Proband

Answer 24

the first affected family member coming to attention of a geneticist

Question 25

Assortative mating

Answer 25

a nonrandom mating pattern in which individuals with similar genotypes and/or phenotypes mate with one another more frequently than would be expected under a random mating pattern.

Question 26

Pedigree

Answer 26

- visual representation of genetic relationships | - male square - female circle - unknown diamond

Question 27

Ultrasonography

Answer 27

- high frequency sound is beamed into the uterus and bounces back to reveal a picture. - can be used to detect some genetic disorder in a fetus and to locate fetus for other testing

Question 28

Pedigree

Answer 28

- visual representation of genetic relationships - will show us who has certain traits and who does not - they help us organize data for further analysis

Question 29

We assume

Answer 29

- simple mendelian inheritance | - complete penetrance

Question 30

cytoplasmic inheritance

Answer 30

- mom passes trait to all of her kids.