Mutations

Question 1

Define mutation.

Answer 1

A change of nucleotide sequence.

Question 2

What is mutagenesis?

Answer 2

The process of mutation generation.

Question 3

What is deamination?

Answer 3

A mutation where C for example is turned into U.

Question 4

Why might deamination not be a problem if C - G is turned into U - G?

Answer 4

Because during replication U - G might be replicated into C - G. This turns out to be completely fine because the that was the combination from the beginning.
However if U - G is replicated into U - A it might end up being replicated again into T - A. T - A is a completely different combination that can cause problem.

Question 5

Give some exogenous sources of mutation.

Answer 5

Ionising radiation
Environment
Free radicals
Mutagenic chemicals
Anti-cancer agents

Question 6

Give some endogenous sources of mutation.

Answer 6

DNA replication defects like deamination, mismatching etc.

Transposable elements.

Question 7

What are transposable elements or also called transposons?

Answer 7

They used to be called jumping genes.

They are specific DNA sequences that can move to random sites on its DNA molecule.

Question 8

Why can transposons cause a problem?

Answer 8

If they hop onto a part of the DNA sequence where it inactivates a gene or changes gene expression causing a mutation.

Question 9

How does the size of a gene relate to the risk of transposons affecting them?

Answer 9

The bigger the gene the higher risk of a transposon hopping onto it and either activating it or inactivating it.

Question 10

What are some positive outcomes of mutations?

Answer 10

It is a source of genome variation

It is a driving force of evolution

Question 11

What is a SNP mutation?

Answer 11

Single nucleotide polymorphism when one single nucleotide is affected and altered/switched out or deleted/inserted.

Question 12

Define anonymous SNP.

Answer 12

A SNP that doesn’t appear to have any effect.

Question 13

Define non-coding SNP.

Answer 13

When SNP occurs outside a gene as it not coded for.

Question 14

Define coding SNP.

Answer 14

When SNP occurs inside a gene and is coded for. This is the worst one.

Question 15

On a micro scale (nucleotide scale) what is deletion, insertion and substitution?

Answer 15

Deletion is when a nucleotide is deleted so the sequence has one less nucleotide.
Insertion is when a nucleotide is inserted so the sequence has one more nucleotide.
Substitution is when one nucleotide is swapped into another nucleotide.

Question 16

What are the mutations that can happen on a macro scale (chromosomal level)? Explain them briefly.

Answer 16

Deletion
Duplication
Inversion (a part of the chromosome is put upside-down)
Substitution (a part of the chromosome is put on another chromosome)
Translocation (two parts, one on each chromosome are swapped)

Question 17

How is DNA read in transcription? How is mRNA synthesised?

Answer 17

Read 3’ to 5’

Made 5’ to 3’

Question 18

How is mRNA read in translation? How is the polypeptide chain synthesised?

Answer 18

Read in 5’ to 3’

Made in N to C

Question 19

Regarding SNP and substitution; what is transition?

Answer 19

When the base is changed to the same type. This means a purine goes to a purine (A G) or a pyrimidine goes to a pyrimidine (T C)

Question 20

Regarding SNP and substitution; what is transversion?

Answer 20

When the base is changed to a different type. This means that a purine is changed to a pyrimidine or vice versa. (A T or C G)

Question 21

What are some consequences of single nucleotide changes?

Answer 21

It can change the gene product (polypeptide or RNA)
It can change the amount made of the gene product
It can change the polypeptide length
It might not have an effect at all

Question 22

Sickle cell anaemia is a mutation in the 7th codon of the HBB gene. Why is it said that the 6th amino acid is changed from glutamate to valine?

Answer 22

This is because codon 1 is the start codon methionine which is chopped off.

Question 23

Sickle cell anaemia is a missense base substitution mutation where GAG goes to GTG. What would is the difference in the mRNA product?

Answer 23

GAG is supposed to make an mRNA that is GAG this means it’s read from CTC.
GTG instead makes GUG because what is read is the other strand which is no longer CTC but CAC instead.

Question 24

What is a missense mutation?

Answer 24

A mutation which results in a codon that codes for a different amino acid. It is a type of non-synonymous mutation.

Question 25

What is a silent or neutral mutation?

Answer 25

A mutation which doesn’t have an effect on the gene products.

Question 26

What is a frameshift mutation?

Answer 26

When deletion or insertion has occurred an there is a shift either to the left or right. This means that codons will be completely different and all codons after the insertion or deletion may result in different gene products. This can also cause premature termination because a stop codon has been made or it might result in a longer polypeptide because a stop codon is gone.

Question 27

What is a nonsense mutation?

Answer 27

A mutation which can be a substitution which either result in a premature stop codon or a stop codon being left out so translation continues. This changes the polypeptide length.

Question 28

What alters the amount of gene product?

Answer 28

Mutations that occur in the regulatory sequences.
Alters promoter activity
Alters translation initiation at AUG
Prevents mRNA splicing
Reduces mRNA stability

Question 29

What other type of mutations are there on a micro level?

Answer 29

An entire codon that is deleted or inserted (3 base pairs)

Question 30

What is robertsonian translocation?

Answer 30

Look at page 42.
It’s when two different chromosomes break at their centromere. The acocentric parts are left alone and the two remaining parts fuse together. This results in 45 chromosomes instead of 46 because there are two acocentric parts that are not used.

Question 31

What is polyploidy?

Answer 31

A gain of a haploid set of chromosomes resulting in 3n or 69 chromosomes.
This is usually caused by polyspermy.

Question 32

What is aneuploidy?

Answer 32

A gain or loss of a chromosome. 45 or 47.

Question 33

Why do trisomies and monosomies generally only occur in 21, 13, 18, X and Y?

Answer 33

They occur in other chromosomes as well, however those are usually not viable for life.

Question 34

What is mosaicism caused by?

Answer 34

Non-disjunction in mitosis.

Question 35

What is mosaicism?

Answer 35

The presence of two or more cell lines in an individual.

Question 36

How can chromosomal abnormalities be tested?

Answer 36

By cytogenetic analysis (karyotyping e.g.)
Fluorescent in situ hybridisation (FISH)
Microarray hybridisation
DNA sequencing (and other molecular techniques)

Question 37

Why would you do cytogenetic testing?

Answer 37

To form an accurate diagnosis and prognosis of clinical problems (account for miscarriage for example)
Better clinical management (hormone treatment in Klinefelter)
Assess future reproductive risks
Prenatal diagnosis

Question 38

What is balanced reciprocal translocation?

Answer 38

When a part of the chromosome is swapped with another chromosome. However in a balanced case it is a small part with no phenotypic changes that are apparent.

Question 39

What is reciprocal translocation?

Answer 39

When genetic material is swapped between usually two homologous chromosomes.

Question 40

Why can reciprocal translocation be a problem?

Answer 40

When genetic material is changed on a chromosome.
Or when some of the matching sequences that are used when lining up and matching is done in meiosis have been swapped. That can cause 4 chromosomes to appear homologous and line up together. When they are pulled apart a numerous of consequences can occur.

Question 41

What are the consequences of reciprocal translocation where non-homologous chromosomes line up as 4 together.

Answer 41

Because when they are pulled apart two of the normal might be pulled together resulting in a normal.
And the other two will be pulled together resulting in a balanced pair.
Unbalanced separation can also occur.
3:1 non disjunction can occur as well.

Question 42

What are consequences of an individual with robertsonian translocation?

Answer 42

Usually there are no symptoms associated with robertsonian translocation.
However it has a high risk of resulting in aneuploidy of trisomy or monosomy.

Question 43

Why are there usually no symptoms associated with robertsonian translocation?

Answer 43

Because the acrocentric parts of the chromosomes are lost. They are usually small and may only have a few genes on them. This means that they may not have much an effect.