mutations and genetic analysis

Question 1

defne trisomy

Answer 1

3rd copy on one of the chromosomes

Question 2

define monosomy X

Answer 2

only one X chromosome

Question 3

define tetraploidy

Answer 3

whole extra set of chromosomes

Question 4

numerical chromosome abnormalities

Answer 4

change in the number of chromosomes

Question 5

structural chromosome abnormalities

Answer 5

large change in the structure of a chromosome

Question 6

mutational chromosome abnormalities

Answer 6

changes to the DNA sequence

Question 7

origins of chromosome abnormalities - non-disjunction

Answer 7

the failure of one or more pairs of homologous chromosomes or sister chromatids to separate normally during nuclear division, usually resulting in an abnormal distribution of chromosomes in the daughter nuclei.

Question 8

where do non-disjunction abnormalities tend to occur

Answer 8

maternal meiosis

Question 9

origin of non-disjunction

Answer 9

In the female meiosis, the cells are in meiosis I for a very long time before they separate and mature into eggs - this can explain why non-disjunction problems are more common in maternal meiosis

Question 10

define aneuploidy

Answer 10

the condition of having an abnormal number of chromosomes in a haploid set.

Question 11

autosomal aneuploidy syndromes

Answer 11

trisomy 21 (down's syndrome)
trisomy 13 (Patau syndrome)
trisomy 18 (Edward's syndrome)

Question 12

trisomy 21

Answer 12

Down's syndrome 
Incidence increases with advancing maternal age
• Characteristic facial dysmorphologies
• IQ less than 50
• Average life expectancy (50-60 years)
• Alzheimer’s disease in later life

Question 13

chromosomal findings in Down’s syndrome

Answer 13

○ Trisomy 21: non-disjunction (95%), usually maternal origin
○ Unbalanced Robertsonian translocation (4%)
○ Mosaicism (1%) - some of the cells in the body have trisomy 21 but others are normal, thought to arise due to non-disjunction error during early cell division

Question 14

Trisomy 13

Answer 14

Patau syndrome
• Multiple dysmorphic features and mental retardation
• About 5% die within first month, very few survive beyond first year
• Non-disjunction (90%), maternal origin
• Unbalanced Robertsonian translocation (10%)

Question 15

trisomy 18

Answer 15

Edwards syndrome
• Severe developmental problems (but is more variable); most patients die within first year, many within first month
Non-disjunction (90%), maternal origin

Question 16

sex chromosomes aneuploidy syndromes

Answer 16

45, X - turner syndrome

47, XXY- Klinefelter syndrome

Question 17

45, X

Answer 17

Turner syndrome
• Incidence at conception much greater, about 97% result in spontaneous loss
• Females of short stature and infertile
○ No Y chromosome therefore cannot be male
• Neck webbing and widely spaced nipples
Intelligence and lifespan is normal

Question 18

47, XXY

Answer 18

Klinefelter syndrome
• Tall stature, long limbs
• Male but infertile, small testes, about 50% gynaecomastia
Mild learning difficulties

Question 19

types of structural abnormalities

Answer 19

• Balanced or unbalanced rearrangements
• Translocations (Reciprocal/Robertsonian)
• Deletions
• Insertions
• Inversions

Question 20

balanced translocation

Answer 20

Non-homologous chromosomes

correct sequences of DNA are present in the correct copy number throughout the entire genome

Reattached in the wrong place but the right amount of DNA is still present in the genome

Generally have little negative effect unless by chance an essential gene was hit during the relocation (very rare)

Question 21

reciprocal translocation carrier outcomes

Answer 21

formation of two new derivative chromosomes (exchange of the material between 2 chromosomes)

Much more likely to give problems in the next generation where it has occurred in the germ line

Unbalanced genome - missing part of one of the chromosomes but has an extra copy of part of the other chromosome
Depending on the precise nature of this it can give rise to serious defects in the zygote

Question 22

unbalanced translocation

Answer 22

Balanced translocation can give rise to unbalanced translocation in the next generation

Question 23

robertsonian translocation

Answer 23

fusion of two acrocentric chromosomes

Translocation can lead to loss of short arms and one large chromosome forms containing all of the coding information from the q arms

Question 24

acrocentric chromosome

Answer 24

centromere close to one end of the chromosome, p arm is very short (little useful DNA)

Question 25

robertsonian translocation carrier outcomes

Answer 25

Where gametes inherit the Robertsonian chromosome and one of the normal chromosomes –> large trisomy/ monosomy

Trisomy 14, monosomy 14 and monosomy 21 aren’t compatible with full term pregnancy

Trisomy 21 - duplication of all the info from chromosome 21, this is the causative aetiology of Down’s syndrome

Question 26

deletions

Answer 26

shorter chromosome arises as genetic material is removed

Question 27

inversions

Answer 27

balanced rearrangement

piece of DNA is turned around

Question 28

pericentric inversion

Answer 28

involving the centromere

Question 29

genetic mutations

Answer 29

• Germline or somatic
• Gene disruption /disease-associated (cancer)
• Polymorphism
	○ No phenotypic effect
Frequency >1%

Question 30

types of genetic mutations

Answer 30

• Non-coding
• Coding
	○ Silent  
	○ Missense 
	○ Nonsense 
	○ Frameshift

Question 31

silent mutations

Answer 31

– synonymous e.g. CGA (Arg) to CGC (Arg) - no change in the phenotype

Question 32

missense mutations

Answer 32

e.g. CGA (Arg) to GGA (Gly) - depending on the biochemistry this may/may not have a serious effect

Question 33

nonsense mutations

Answer 33

e.g. CGA (Arg) to TGA (Stop) - shortens the protein, will probably get degraded

Question 34

frameshift mutations

Answer 34

deletion / insertion e.g. CGA (Arg) to CCGA (Pro, then out-of-frame) - changes the reading frame of the rest of the sequence

Question 35

mutation nomenclature: Cys64Arg
1294del40 - 1294
1298A>G

Answer 35

cysteine at position 64 changed to arginine

-1294 position, deletion of 40 nucleotides at this position

at position 1298 in the nucleotide sequence, A changed to G

Question 36

detecting mutations

Answer 36

• Polymerase chain reaction (PCR)
• Gel electrophoresis
• Restriction fragment length polymorphism (RFLP) analysis
• Amplification refractory mutation system (ARMS)
DNA sequencing

Question 37

PCR

Answer 37

amplification of a small amount of DNA

Question 38

what is needed for PCR

Answer 38

• Sequence information
• Oligonucleotide primer
• DNA
• Nucleotides
DNA polymerase

Question 39

gel electrophoresis

Answer 39

• Separate DNA fragments by size
• Apply an electric field
• DNA is negatively charged
• Separate through agarose gel matrix
• Visualise DNA fragments

Question 40

advantages of gel electrophoresis

Answer 40

• Speed
• Ease of use
• Sensitive
Robust

Question 41

PCR applications

Answer 41

DNA cloning, DNA sequencing, In vitro mutagenesis, Gene identification, Gene expression studies, Forensic medicine, Typing genetic markers, Detection of mutations

Question 42

ARMS

Answer 42

Amplification refractory mutation system

simple method for detecting any mutation involving single base changes or small deletions

Question 43

pros/cons of ARMS

Answer 43

• Cheap
• Labelling not required
• Electrophoresis required
• Primer design critical
Need sequence information
Limited amplification size

Question 44

restriction endonuclease

Answer 44

• Enzymes from bacterial cells
• Protective mechanism
• Degrade DNA of invading viruses
• Recognise specific DNA sequences
• Usually 4-8 bp
Always cut DNA at the same site

Question 45

RFLP analysis

Answer 45

involves cutting a particular region of DNA with known variability, with restriction enzymes, then separating the DNA fragments by agarose gel electrophoresis and determining the number of fragments and relative sizes.

Question 46

restriction digest assay

Answer 46

procedure used in molecular biology to prepare DNA for analysis or other processing
uses restriction endonucleases to cleave DNA at particular sequences

Question 47

advantages/disadvantages of RFLP

Answer 47

• Simple 
• Cheap
• Non-radioactive
• Requires gel electrophoresis
Not always feasible

Question 48

DNA sequencing

Answer 48

• Chain termination method (Sanger)

Use of dideoxynucleotides

Question 49

pros/cons of DNA sequencing

Answer 49

• Gold standard for mutation detection
• Automation and high throughput
• Expensive equipment
• Poor quality sequence read
	○ First part of sequence (15 to 40 bases)
	○ Deterioration after 700-900 bases
• Next generation sequencing
18 billion bp in 4 days (about 6 human genomes)