Lecture 23: DNA Mutation Flashcards

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1
Q

What is a mutation?

A

Mutation: physical change in the genetic material

  • a mutation within a DNA region encoding a protein (gene) may cause an abnormal protein to be produced.
  • mutations may cause small or large changes. Large changes impact many proteins
  • a mutated protein may have an insignificant to severe effect
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2
Q

Mutations are rare, why?

A

DNA is a very stable molecule:

  • DNA helix and supercoiling provide geometric tightness
  • normally consists of 2 complementary strands (a mutation can be repaired by proof reading DNA polymerase at the time of replication
  • the nucleotide bases lie protected inside the sugar phosphate backbone
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3
Q

Mutation effect is rare (location dependant)

A

Extragenic (not located in a gene) mutations
-don’t effect protein sequence
Intragenic (within a gene) mutations
-may affect the organism (through changed protein sequence)
-may not affect the organism
A) redundancy if code
B) mutation may be in a non-coding region
C) multiple copy or suppressor genes may mask the effect of the mutation.

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4
Q

Frequency of mutation:

A

About one mutation in every million to every billion replicants of a cell

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5
Q

Causes of mutations

A
  1. Spontaneous mutations:
    - damage (from an unknown case) may occur at any time in any cell.
    - mutations result when damaged genes are replicated without repair
    - such mutations occur frequently in organisms with short generation times, such as viruses or bacteria
  2. Induced mutations:
    - result of exposure to mutagens (agents that increase rate of mutation)
    - can be purposely induced eg X-rays etc
    - natural mutagens eg cosmic rays, UV light
    - human created mutagens (eg asbestos, nuclear fall out)
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6
Q

Somatic vs germinal mutations

A

Somatic mutations:

  • mutations in the body cells of an organism excluding those which produce eggs or sperm
  • may effect entire developmental process of organism or
  • may be localised to a particular region
  • somatic mutations may result in unusual cell growth

Germinal:

  • mutations in gamete cells
  • can be passed to offspring
  • may not effect parents but can create genetic disorders in offspring
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7
Q

Types of mutations.
Ie
Gross mutations
Point mutations

A
  1. Gross mutations:
    A) change in chromosomal structure:
    -insertion/ deletion (INDEL)
    -duplication of a nucleotide segment
    -inversion (180 degree rearrangement of segment within a chromosome)
    -translocation (movement if a segment to another region)
    B) change in chromosomal number:
    -polyploidy (change in entire chromosome set) more than 2 chromosome sets
    -aneuploidy (change within the chromosome set) ie chromosome addition or deletion. Eg Down syndrome
  2. Point mutations:
    -changes made by substituting a single base with another or by adding or deleting one or more adjacent nucleotides
    Eg sickle cell anaemia
    Types of point mutations
    A) transition, b) transversion and c) INDEL
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8
Q

Transition point mutation

A

Mutations involving the substitution of a:

  1. Purine with a purine eg A G
  2. Pyrimidine with a pyrimidine eg C T
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9
Q

Transversion point mutation

A
Mutations involving the substitution of a: 
1. Purine by a pyrimidine 
A  C or T
G  C or T
2. Pyrimidine by a purine 
C  G or A
T  G or A
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10
Q

INDEL Mutation

A

Insertion-deletion of bases

  • may affect a single base (point mutation) up to a large number of bases (even a chromosome)
  • the most common mutation that causes severe cystic fibrosis only a single codon
  • small effect at DNA level that may have profound effect on the protein (ie frameshift mutation).
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11
Q

Expanding genes

A

Some genes have repeated base sequences and the number of these may increase each generation.
Expanding genes are responsible for increasingly severe cases of
-muscular dystrophy (CTG repeats)
-huntingtons disease
-fragile X syndrome:
-6-50 CGG repeats in an unaffected individual
-50-200 CGG repeats in a carrier
-more than 200 repeats in an affected individual

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12
Q

Mutations and their effect on proteins

A
  1. Frameshift mutation: additions or deletions that change the reading frame (ie effect on coding region)
    - may result in devestating mutation since the entire amino acid sequence may change after mutation.
  2. Missence mutation: (substitution of a different amino acid for the original) refer to slide 20
  3. Nonsense mutation: results in the insertion of a stop codon
  4. Silent mutations: don’t change the protein sequence
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13
Q

Effect on the phenotype of the cell

A

Non-lethal mutations: no effect on phenotype
-redundancy of the genetic code reduces the chance that point mutations alter specified amino acids.

Lethal mutations: lead to the death of cell or host

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