Estimating Risk of Inherited Disease

Question 1

What is fitness?

Answer 1

Relative ability of organism to survive (long enough) to pass on their genes

Question 2

What can affect fitness?

Answer 2

Alleles

Question 3

What are the 3 different kinds of alleles that can affect fitness?

Answer 3

Neutral allele (not at all in most cases)

Deleterious allele (sometimes decreases)

Advantageous allele (rarely decreases)

Question 4

What is an allele?

Answer 4

A variant form of a gene

Question 5

What is just an important as alleles for the fitness of human beings?

Answer 5

A child being brought up by family members and society

Question 6

What is selective pressure?

Answer 6

Any phenomena which alters the behaiviour and fitness of living organisms within a given environment

Question 7

What happens if selective pressure changes?

Answer 7

Importance of different alleles may change

Question 8

What are the different kinds of genes that can become mutates?

Answer 8

Recessive genes

Dominant and X linked genes

Question 9

What are some of the few noticable disease of recessive genes?

Answer 9

Sickle cell disease

Thalassaemia

Question 10

When do recessive genes affect carriers?

Answer 10

When it is associated with selective pressure, such as malaria resistance

Question 11

What is a de novo mutation?

Answer 11

A genetic alteration that is present for the first time in one family member as a result of a mutation

Question 12

What are de novo mutations common in?

Answer 12

Dominant disorder, especially where the disease reduces reproductive fitness

Question 13

How are genotype frequencies worked out?

Answer 13

People: 800AA + 190Aa + 10aa

AA = 800/1000 = 0.8

Aa = 190/1000 = 0.19

aa = 10/1000 = 0.01

Question 14

How is the allele frequency worked out?

Answer 14

People: 800AA + 190Aa + 10aa

Alleles: 1600A + (190A + 190a) + 20a = 2000 in total

Frequency of A (p) = (1600 + 190) / 2000 = 0.9

Frequency of a (q) = (190 + 20) / 2000 = 0.1

Question 15

What will p + q always equal?

Answer 15

1

Question 16

What expression describes first generation genotype and allele frequencies?

Answer 16

Genotype: AA:Aa:aa = p²:2pq:q²

Allele: A:a = p:q

Question 17

What can you say about relavent frequencies through generations?

Answer 17

Remain constant

Question 18

What does the Hardy-Weinberg Equilbrium (HWE) state?

Answer 18

Allele frequencies remain constant generation to generation and so do relative proportions of genotype frequency

Question 19

What are the assumptions underlying the Hardy-Weinberg Equilbrium?

Answer 19

Mutations can be ignored

Migration is negligible (no gene flow)

Mating is random

No selective pressure

Population size is large

Allele frequencies are equal in the sexes

Question 21

What do mutations increase the proportion of?

Answer 21

New alleles

Question 22

What does introduction of new alleles as a result of migration lead to?

Answer 22

New gene frequency

Question 23

What does non-random mating lead to?

Answer 23

Increase in mutant alleles, increasing the proporation of affected homozygotes

Question 24

What are the 2 kinds of non-random mating?

Answer 24

Assortive mating (choosing new partners due to shared characteristics)

Consanguinity mating (marriage between close blood relatives)

Question 25

What is assortive mating?

Answer 25

Choosing of partners due to shared characteristics

Question 26

What is consanguinity mating?

Answer 26

Marriage between close blood relatives

Question 27

What are homozygotes?

Answer 27

Individual having two identical alleles of a particular gene

Question 28

What are heterozygotes?

Answer 28

Individual having two different alleles of a particular gene

Question 29

What is the founder effect?

Answer 29

Loss of genetic variation that occurs when a new population is established by a very small number of individuals from a larger population

Question 30

What are the different kinds of natural selection?

Answer 30

Positive selection Negative selection

Question 31

What does negative selection do?

Answer 31

Reduces reproductive fitness Decreases prevalence Leads to gradual reduction of mutant alleles

Question 32

What does positive selection lead to?

Answer 32

Increase reproductive fitness Increases prevalence of adaptive traits Heterozygote advantage

Question 33

What can a small population size lead to?

Answer 33

Genetic drift Founder effect

Question 34

What is natural selection?

Answer 34

Gradual process by which biological trates become either more or less common in a population

Question 35

What are some heterozygote advantages?

Answer 35

Sickle celll anaemia against malaria Thalassaemia against malaria Tay Sachs against TB Cystic fibrosis against cholera

Question 36

What is genetic drift?

Answer 36

Random fluctuations in one allele transmitted to high proportion of offspring by chance

Question 37

What are some examples of the founders effect?

Answer 37

Cystic fibrosis in the faroes Diminant BRCA1 and BRCA2 in Poland

Question 38

What are some applications of the Hardy-Weinberg Equilbrium (HWE)?

Answer 38

Useful for calculating genetic risk in genetic counselling Useful for planning population based carrier screening programmes