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Biology 331: Chapter 15

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Title: Biology 331: Chapter 15


1
Biology 331 Chapter 15
  • Gene Mutation

2
Introduction
  • Mutation
  • The inherent tendency of organisms to change from
    one hereditary state to another
  • Gene Mutation (Point mutation)
  • When a gene changes from one allele to another
  • Chromosome Mutation
  • Segments of chromosomes, chromosomes or sets of
    chromosomes change
  • Forward mutation
  • Change away from the wild type
  • Back mutation (reverse)
  • Change from mutant to wild type

3
From DNA to phenotype
4
Point Mutation
  • Change of one base pair or a small number of
    adjacent base pairs
  • Substitutions A change in a given base pair
  • Transition A replacement within the same
    chemical category
  • Purine to purine or pyrimidine to pyrimidine
  • Adenine (A) Guanine (G) Purine
  • Cytosine (C), Thymine T) Pyrimidine
  • Transversion A replacement of a base of one
    chemical category with a base of the other
  • Purine to pyrimidine or pyrimidine to purine
  • Transitions are more common than transversions
  • An important distinction in population
    genetics/systematics

5
Missense Mutation
  • A codon for one amino acid is replaced by another
  • Synonymous substitution
  • Change of an amino acid for a chemically similar
    one
  • The affect is less severe
  • Nonsynonymous substitution
  • Change an amino acid for one of different
    properties
  • More severe implications
  • Null mutations
  • Non functional mutants
  • Likely due to changes in the active site (or
    allosteric)
  • Leaky (partly inactivated) mutants
  • Likely due to changes away from the active site

6
Nonsense mutations
  • A codon for an amino acid is converted to a stop
    codon
  • Typically causes a totally nonfunctional protein
    unless it is near the 3' end

7
Silent Substitutions
  • Degenerate DNA codons
  • Changes to third position in a codon
  • Does not change the AA
  • Typically silent...but there are exceptions

8
Additions/deletions
  • Losing or gaining a base pair
  • Frameshift mutations
  • Changes the reading fame
  • Will screw up all of the AAs from the point of
    the insertion/deletion
  • Can extend beyond the protein in question
  • Typically causes a loss of function mutation

9
Regulatory Mutations
  • Mutations to regulatory binding sites
  • Outcome hard to predict
  • Does it affect the binding of a regulatory
    protein?
  • If it does how much?
  • How many regulators are there?
  • Mutation to regulatory proteins
  • Affect is somewhat more predictable
  • However, there are still multiple control systems

10
Assorted Mutations
11
Somatic -vs- Germinal Mutations
  • Somatic Mutations
  • Mutations in cells outside of the germ line
  • The cell becomes the progenitor of a series of
    related cells
  • These mitotically formed offspring are "clones"
  • These cells tend to stay together in the organism
  • Form "mutant sectors"
  • The earlier the mutation occurs the more
    widespread the affects
  • Cancer...a special case

12
Somatic Mutations
13
Plants
  • Can somatic mutations be passed on?
  • In animals no
  • In plants somatic cells can develop into germinal
    cells

14
Germinal mutation
  • Mutations in the germ line
  • Passed on to the next generation
  • Assumes the mutant gamete gets into a zygote
  • "normal" individuals can have "mutant" sex cells
  • X-linked hemophilia in the royal family
  • Started in Queen Victoria's germ line or that of
    her parents

15
Mutation outcomes
16
Mutant Types
  • May be subtle or gross
  • Morphological mutations Outwardly visible
  • Lethal mutations Are....uh....lethal?

17
Morphological mutations
18
Conditional Mutations
  • Mutants that only appear in some environments
  • Restrictive condition
  • The environment that causes expression
  • Permissive condition
  • Environment that does not cause expression

19
Biochemical mutations
  • Change in the biochemical function of a cell
  • Essentially underlies the other categories
  • The term is often used for microorganisms
  • Prototrophic
  • can survive on a basic medium of salts and an
    energy source (minimal medium)
  • Auxotrophic
  • Require an additional nutrient to survive

20
Biochemical Mutations
21
Loss/gain of function?
  • Loss of function mutations
  • Gain of function mutations
  • Less common than loss
  • Why?

22
Occurrence of mutations
  • How common are they?
  • Organisms are stable generation to generation
  • Implications?

23
How common are mutations?
  • The range is huge
  • 500 fold difference seen in corn genes
  • Mutation rate
  • Mutation rate per unit time
  • Typically per generation or per cell division
  • 1 in 14 generations, 1 in 100 etc.
  • Mutation frequency
  • Frequency of a mutatnt in a population of cells
  • Could be single cells, gametes, spores etc.
  • Would yield a fractional value
  • 0.0056 etc.

24
Frequency of Mutations
25
Cancer
  • A genetic disease
  • Due to a somatic mutation
  • Cancer genes (oncogenes)
  • Start out as proto-oncogenes
  • Typically related to regulation of cell division
  • Proto-oncogenes convert to oncogenes via mutation
  • Results in uncontrolled cell growth and
    metastasis
  • These mutations can be cause spontaneously or by
    environmental factors

26
Proto-oncogenes
27
Genes in the germ line
  • Repair mechanisms
  • Regulation mutations

28
Mutagens/carcinogens
  • Increase the rate of mutation
  • EM radiation
  • Chemicals
  • Cigarettes
  • Preservative
  • Herbicides etc. etc.

29
Mutagens
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