Linkage Analysis

Question 1

What is meant by genetic variation?

Answer 1

→ differences in the DNA sequence between individuals in a population

Question 2

What can variation be due to?

Answer 2

→ Inherited

→ Environmental factors

Question 3

What are the 4 effects that genetic variation can have?

Answer 3

→ Alteration of amino acid sequence
→ changes in gene regulation

→ Physical appearance
→ silent or no apparent effect

Question 4

What are the 3 reasons genetic variation is important?

Answer 4

→ Underlies phenotypic differences among individuals
→ Determine predisposition to complex diseases, drugs and environmental factors

→ Genetic variation reveals clues of ancestral human migration history

Question 5

What is a mutation/polymorphism and what does this affect?

Answer 5

→ An error in DNA replication

→ It can affect single nucleotides of larger portions of DNA

Question 6

What are the three types of mutations?

Answer 6

→ Germline
→ Somatic

→ De Novo

Question 7

What is the difference between germline and somatic mutations?

Answer 7

→ Passed onto descendants - germline, occurs in gametes

→ Not transmitted to descendants - somatic- can lead to cancers

Question 8

What is a de novo mutation?

Answer 8

→ a new mutation that is not inherited from either parent

→they occur spontaneously, either in one of the parental gametes or in the fertilized egg during early embryogenesis

Question 9

What is gene flow?

Answer 9

→ The movement of genes from one population to another

Question 10

What is genetic recombination?

Answer 10

→ Shuffling of chromosomal segments between partner (homologous) chromosomes of a pair

Question 11

What is a mutation?

Answer 11

→ a rare change in the DNA sequence
→ different to the normal sequence

→ there is a normal allele present in the population

Question 12

What is a polymorphism?

Answer 12

→ A DNA sequence variant that is common in the population
→no single allele is regarded as normal

→ two or more equally acceptable alternatives

Question 13

What is the cut off point between a mutation and a polymorphism?

Answer 13

→ Minor allele frequency of 1%

Question 14

What does the common allele frequency need to be for it to be classed as a polymorphism?

Answer 14

→ 1%

Question 15

At what phase does genetic recombination occur?

Answer 15

→ Prophase

Question 16

What happens during genetic recombination?

Answer 16

→ Maternal and paternal chromosomes line up together

→ exchange of genetic information between them

Question 17

What is crossing over?

Answer 17

→ Reciprocal breaking and re-joining of the homologous chromosomes during meiosis

Question 18

What does crossing over result in?

Answer 18

→ Exchanges of chromosome segments and new allele combinations

Question 19

What is the genotype?

Answer 19

→ The genetic make up of an individual

Question 20

What is the phenotype?

Answer 20

→ The physical expression of the genetic make up

Question 21

What does being homozygous mean ?

Answer 21

→ The genotype has two identical alleles

Question 22

What does being heterozygous mean?

Answer 22

→ The genotype has two different alleles

Question 23

What is a haplotype?

Answer 23

→ A group of alleles that are inherited together from a single parent

Question 24

What is a chromosome pair?

Answer 24

→ Homologous chromosomes with genes at the same loci

Question 25

What is Mendelian genetic disease?

Answer 25

→ Disease that is caused by a single gene with little or no impact from the environment (PKD)

Question 26

What is Non Mendelian genetic disease?

Answer 26

→ Diseases or traits caused by the impact of many different genes each having a small individual impact o the final condition

Question 27

What is Multifactorial genetic disease?

Answer 27

→ Diseases or traits resulting from an interaction between multiple genes and often multiple environmental factors

Question 28

What is linkage analysis?

Answer 28

→ A method used to map the location of a disease gene in the genome

Question 29

What does the term linkage refer to?

Answer 29

→ The assumption of two things being physically linked to each other

Question 30

What is genetic linkage?

Answer 30

→ The tendency for alleles at neighbouring loci to segregate together at meiosis
→ to be linked loci have to be very close together

Question 31

What does a haplotype define?

Answer 31

→ Multiple alleles linked at loci

Question 32

When are crossovers more likely to occur?

Answer 32

→ between loci separated by some distance than those close together

Question 33

1) a disease gene is far away from a genetic marker
2) a disease gene is close to a genetic marker

In which scenario is recombination more likely to occur?

Answer 33

→ 1) because if the genes are further away they are more likely to be separated

Question 34

What is the advantage of using SNPs as markers?

Answer 34

→ 6000 SNPs
→ data is returned within 1-2 months
→biallelic
→lower heterozygosity than microsatellites but spaced much closer together
→highly automated

Question 35

Why are microsatellites not used?

Answer 35

→ 400 microsatellites
→ Whole genome scan 2-3 months
→relatively widely spaced apart so they don’t offer good coverage for linkage analysis
→high heterozygosity. Microsatellites may differ in length between microsatellites
→ manual handling

Question 36

In what situations are microsatellites used?

Answer 36

→ Paternity testing
→ linkage analysis for gene identification

→ DNA fingerprinting from small amounts of material

Question 37

If a marker is linked to a disease locus what does this mean?

Answer 37

→ the same marker alleles will be inherited by two affected relatives more often than expected by chance

Question 38

What does it mean if the marker and the disease locus are unlinked?

Answer 38

→ If the marker and the disease locus are unlinked then the affected relatives in a family are less likely to inherit the same marker alleles

Question 39

What are SNP genotyping arrays used for?

Answer 39

→ Linkage analysis in families
→ homozygosity mapping

→ GWAS in populations
→ Non-mendelian disorders and multifactorial traits

Question 40

What can the probability of linkage be assessed by?

Answer 40

→ LOD score

Question 41

What is a LOD score?

Answer 41

→ Logarithm of the odds score
→ the probability of observing same test data between two linked loci to the likelihood of observing the same data purely by chance

Question 42

What ratio does a LOD score calculate?

Answer 42

→ observed vs expected

Question 43

What does a high LOD score mean?

Answer 43

→ The higher the likelihood of linkage

→Positive LOD scores favour the presence of linkage, whereas negative LOD scores indicate that linkage is less likely.

Question 44

Why can a LOD score not be higher than 0.5 /50%?

Answer 44

→ There is a 50/50 chance that you inherit maternal or paternal genes anyway

Question 45

What can LOD scores be calculated with?

Answer 45

→ Across the whole genome using genotype data for many genetic markers in multiple members of a family

Question 46

Why is the overall score increased if different families are linked to the same disease locus?

Answer 46

→ LOD scores are additive

Question 47

What LOD score is considered evidence for linkage?

Answer 47

→ >3 is evidence for linkage
→Equivalent to odds of 1000:1 that the observed linkage occurred by chance
Translates to a p-value of approximately 0.05

→more likely to represent genuine linkage between the marker and disease gene

Question 48

What LOD score is considered evidence against linkage?

Answer 48

→ <2
→These regions of the genome can be excluded from further analysis as they are highly unlikely to contain the disease gene.

Question 49

What are associated features of Adams Oliver syndrome?

Answer 49

→ Neurological anomalies
→ Cardiac malformations

→ Vascular defect

Question 50

How can we filter variants?

Answer 50

based on zygosity (autosomal dominant = heterozygous) and allele frequency (rare = less than 1% in control populations)

Question 51

What is a non-recombinant chromosome?

Answer 51

chromosomes have not changed

Question 52

What is the difference between genetic and physical maps?

Answer 52

→Genetic maps look at information in blocks or regions (similar to zones on a tube map)
→Physical maps provide information on the physical distances between landmarks based on their exact location

Question 53

What will happen if the genetic marker and disease are in close proximity?

Answer 53

→There is less likelihood of recombination between the two loci
→Affected individuals will have the same allele for the genetic marker, indicating that it is close to the disease gene
→ the genetic marker and disease gene are co-segregating

Question 54

What does a peak on represent on fluorescent tagged primers?

Answer 54

→one allele: single peaks are homozygous;

→double peaks are heterozygous for the marker