120 CHAPTER 5debilitating condition called sickle-cell anemia, which drastically decreases sur-
vival. But the S allele has not been eliminated by natural selection. Why?
The β-hemoglobin locus is under balancing selection, which is selection that
maintains genetic variation with a population. Balancing selection is fundamen-
tally different from selection on beneficial and deleterious alleles, which acts to
remove genetic variation. To understand how selection can preserve variation, we
will now explore the biology of the β-hemoglobin locus further.Overdominance
FIGURE 5.18 shows that the S allele has high frequency in regions where malaria
is common. Malaria is a disease caused by a protozoan parasite (Plasmodium) that
is transmitted by mosquitoes in tropical regions around the world. About 500,000
people die each year from malaria, making it the most deadly infectious disease on
Earth.
Alleles at several loci make people partially resistant to malaria. One of those is
the β-hemoglobin locus. Individuals who are AS heterozygotes survive the malar-
ial parasite better than AA homozygotes [7]. In this situation, it is most convenientFutuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_05.17.ai Date 12-29-2016 01-06-17(A) (B) (C)Neutral variant Bene cial mutation
FIGURE 5.17 Changes in the environment can suddenly give
a fitness advantage to a mutation that is already present in a
population—a situation called selection on standing genetic
variation. (A) Three copies of the mutation (yellow, orange, and
red) have already recombined onto chromosomes with different
neutral variants at other sites (blue). (B) As the copies of the ben-
eficial mutation spread to higher frequency, the neutral variants
linked to each of them hitchhike to higher frequency. (C) Whenthe beneficial mutation becomes fixed, the region of reduced
variation nearby on the chromosome is much smaller than if the
mutation had a fitness advantage when it first appeared (compare
with Figure 5.15). Patterns of variation along the chromosome
can therefore be used to determine whether adaptation resulted
from selection on standing genetic variation or from a mutation
that was beneficial initially.Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_05.18.ai Date 12-16-2016 01-06-17(A) Frequency of S allele (B) Incidence of malariaHigh
Moderate
Low
Malaria free>15%
7–14%
0.6–6%
<0.5%FIGURE 5.18 An allele that protects
against malaria in humans is most fre-
quent where the disease is common. The
frequency of the hemoglobin S allele in
Africa (A) is highly correlated with the in-
cidence of malaria (B). Other loci provide
protection against malaria in other human
populations. (After [35].)05_EVOL4E_CH05.indd 120 3/23/17 9:01 AM