Evolution, 4th Edition

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mUTATIon AnD VARIATIon 89


Point mutations
The simplest type of mutations are point mutations, which occur when a single
DNA base is changed from one to another of its four possible states (A, G, C, or T).
We have seen that changes to some codons are synonymous (they do not alter an
amino acid in a protein) while others are nonsynonymous (they do alter an amino
acid). A nonsynonymous mutation in the β-hemoglobin gene results in the S allele
that appeared earlier in the discussion of the Hardy-Weinberg equilibrium (see
Figure 4.3). When homozygous, this single microscopic change to the genome has
sweeping effects on development and physiology, causing a medical condition called
sickle-cell anemia.
As with the S allele in the β-hemoglobin gene, any change to the second position
of a codon is nonsynonymous. Most (but not all) changes to the first position are
also nonsynonymous. In contrast, most changes to the third base of a codon are
synonymous. (You can verify this from Figure 4.2.) We will see in C hapter 14 that
as a result, the three positions of codons evolve quite differently from one another.
Much of the eukaryotic genome and some of the prokaryotic genome does not
code for any gene product. Point mutations in some noncoding DNA can, however,
affect an organism by altering how genes are expressed (see Chapter 15). When a
species evolves by natural selection, the genetic changes can involve coding DNA,
noncoding DNA, or both.

Structural mutations
Some kinds of mutations affect more than one DNA base. These are structural
mutations, which can be as small as a few bases or as large as billions of bases.
Most happen as errors when chromosomes are replicated. Different kinds of struc-
tural mutations are illustrated in FIGURE 4.13.
Deletions are a common type of structural mutation that occurs when a seg-
ment of a chromosome is left out during replication. A deletion of only three base
pairs in a sodium channel gene causes cystic fibrosis, which is one of the most
common human genetic disorders in Europe and North America. Other deletions
are much larger. The first genome-wide survey of deletions in humans made the
surprising discovery that individuals typically have about a dozen deletions that
average 465,000 bp in size [21]. While some of those deletions are in noncod-
ing regions, many of them eliminate several genes. Most (but not all) deletions
that knock out genes are harmful. Insertions are the opposite situation, in which
a segment of DNA is added to a chromosome, either from nearby on the same
chromosome or elsewhere in the genome. Some insertions cause genetic disease.
Huntington’s disease is a neurological disorder whose most famous victim was the
American folk singer Woody Guthrie. The disease is caused by multiple insertions

Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_04.13.ai Date 11-04-2016

Deletion Duplication Inversion Fission Fusion

FIGURE 4.13 Five types of structural mu-
tations that alter chromosomes.

04_EVOL4E_CH04.indd 89 3/23/17 8:55 AM

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