Mutations and Genetic Analysis

Question 1

what are the 3 chromosomal abnormalities which can occur in chromosomes?

Answer 1

1. numerical;
   - number of chromosomes
2. structural;
   - rearrangement of chromosomes giving abnormal karyotype
3. mutational;
   - change in DNA sequence

Question 2

in which trimester of pregnancy are chromosomal abnormalities particularly high?

Answer 2

First

Question 3

what chromosomal abnormality is common in first trimester?

Answer 3

trisomies

Question 4

what is trisomy 21?(three copies of chromosome 21)

Answer 4

Down’s syndrome

Question 5

what condition is 47, XX +13?

Answer 5

Patau;

• dysmorphic features and mental retardation
• few survive beyond 1st year

Question 6

what condition is 47, XY +18?

Answer 6

Edwards;

• development problems
• most don’t survive by 1st year

Question 7

what conditions is 47, XX +21?

Answer 7

Down’s Syndrome ;

• Alzherimer’s risk
• IQ<50
• life expectancy is 50/60 years
• facial dysmorphologies

Question 8

what conditions is 47, XXY?

Answer 8

Klinefelter;

• tall stature
• long limbs
• ingertile men, small testes
• mild learning difficulties

Question 9

what conditions is 45, X?

Answer 9

Turner syndrome;

• always female since no y chromosome
• short stature, infertile
• neck webbing and spaced nipples
• intelligence and lifespan are normal

Question 10

where can non-disjunction happen?

Answer 10

in meiosis 1 and meiosis 2

Question 11

do majority of abnormalities come from the maternal side?

Answer 11

yes; since sperm production happens all the time whereas eggs are present from birth and have higher risk of mutations

Question 12

what are the two structural translocation reaarrangements?

Answer 12

1. reciprocal; breaks in two chromosomes with formation of two acrocentric chromosomes
2. Robertsonian; fusion of two acrocentric chromosomes

Question 13

What are 4 most common rearrangements?

TIID

Answer 13

• deletions
• Insertions
• inversions
• translocations

Question 14

what is a balanced translocation?

Answer 14

• damage or breakage event in the cell giving rise to TRANSLOCATION
• all genetic info is still there and nothing is lost
• all info still present but just in a different order
• individual is fine

Question 15

what would give rise to “unbalanced” mutations?

Answer 15

if there was a “missing part” on a chromosome

Question 16

what is Robertsonian translocation?

Answer 16

• two chromosomes are FUSED together but no genetic info is lost (two long arms get fused and two short arms get fused)

Question 17

what does acrocentric mean?

Answer 17

when centromere is off to one side of the chromosome (not central); they undergo Robertsonian translocations

Question 18

what causes deletions in chromosomes?

Answer 18

environmental factors or reapair factors

Question 19

what are inversions?

Answer 19

• not usually damaging

- pericentric and paracentric inversions can occur

Question 20

what is pericentric inversion?

Answer 20

involves part of the chromosome which has the entromere on it

Question 21

what is paracentric inversion?

Answer 21

does not have centromere involved in the inversion

Question 22

Can genetic mutations be germline or somatic?

Answer 22

Yes

Question 23

what is genetic mutations typically associated with?

Answer 23

loss of the gene

Question 24

what are 2 main types of mutations?

Answer 24

1. non-doing (doesn’t code for the protein)

2. coding ( affecting coding for the protein)

Question 25

what is silent coding?

Answer 25

no effect on protein made

Question 26

what is missense coding?

Answer 26

could have an impact on the protein function which causes the disease

Question 27

what is nonsense coding?

Answer 27

has an effect on protein function since termination of protein chain arises

Question 28

what is frameshift coding?

Answer 28

likely to hit a stop codon since it’s becoming abnormal

Question 29

what are two types of POINT MUTATIONS?

Answer 29

1. transitions
   (purine to purine or pyrimidine to pyrimidine)
2. transversions (purine to pyrimidine or pyrimidine to purine)

Question 30

what are the 5 main methods for detecting mutations?

Answer 30

1, polymerase chain reaction (PCR)

2. Gel electrophoresis
3. RFLP (restriction fragment length polymorphism analysis)
4. ARMS (amplification refractory mutation system)
5. DNA sequencing

PCR and ARMS are almost the same thing

Question 31

what is PCR?

Answer 31

• amplifying DNA (making lots of copies)
• DNA is first denatured , then annealed at low temp. and then extension happens
• oligonucleotide primers used and DNA polymerase

Question 32

what is gel electrophoresis?

Answer 32

• separates DNA fragments by size and charge after electric field applied
• separation happens through agarose gel matrix
• DNA fragments travel (-ve)

Question 33

what are main advantages of gel electrophoresis?

Answer 33

• speed
• easy of use (e.g. DNA cloning/ sequencing)
• sensitive (small numbers can be picked up)
• robust (resilient)

Question 34

give examples where PCR can be used

Answer 34

• DNA cloning and sequencing
• in vitro mutagenesis
• gene identification and expression studies
• forensic medicine
• typing genetic markers
• detection of mutations

Question 35

what is ARMS? (amplification refractory mutation syndrome)

Answer 35

Includes constitutive primers to be used with normal primers to create amplification of DNA

Question 36

what is a wild-type allele ARMS process?

Answer 36

• constitutive primer is complementary to normal primer (amplification)
• mutant primer isn’t complementary to constitutive primer (NO amplification)

Question 37

what is a mutant allele ARMS process?

Answer 37

• constitutive primer isn’t complementary to normal primer ( NO amplification)
• constitutive primer is complementary to mutant primer (amplification)

Question 38

what are advantages to ARMS?

Answer 38

• cheap
• labelling not required
• electrophoresis required
• primer design is critical (specific primer needs to be made depending on nature of the mutation)

Question 39

what are disadvantages to ARMS?

Answer 39

• needs sequence information
• limited amplification size
• limited amounts of product
• infidelity of DNA replication (could give rise to mutation)

Question 40

what are restriction endonucleases?

Answer 40

• enzymes from bacterial cells
• protective mechanism
• degrade DNA of invading viruses
• recognise specific DNA sequences
• usually 4-8 base pairs
• always cut DNA at the same site

Question 41

what is RFLP?

Answer 41

looking at how far DNA will travel;

1. normal: gives rise to restriction site so molecule will move
2. mutant: restriction site isn’t there, so fragment will not cut and not move
3. heterozygote: normal copy will cut whereas the mutant copy will remain the same

Question 42

what condition can RFLP diagnose?

Answer 42

sickle cell anaemia

Question 43

what are advantages of RFLP?

Answer 43

• cheap
• simple
• non-radioactive (safe)

Question 44

what are disadvantages of RFLP?

Answer 44

• requires gel electrophoresis

- not always feasible

Question 45

what is DNA sequencing?

Answer 45

• chain termination method (Sanger)
• uses dideoxynucleotides which terminates chains
• allows us to look at changes in the whole DNA fragment
• primer used to remove parts of DNA chain

Question 46

what are advantages of DNA sequencing?

Answer 46

• gold standard for mutation detections
• automation and high throughput
• next generation sequencing
• wide range

Question 47

What are disadvantages of DNA sequencing

Answer 47

• extensive equipment

- poor quality sequence read (deterioration occurs after 700-900 bases)

Question 48

what are the main points to consider when choosing a method for detecting mutations?

Answer 48

1. direct test
2. quick and easy
3. cheap
4. sensitivity
5. specificity