in the 1960s. Since then, a much-tempered
version has become woven into the fabric of
modern evolutionary biology. Accounts of
our understanding of molecular evolution in
the age of genomics can be found in “The
neutral theory of molecular evolution in the
genomic era” by M. Nei and colleagues (Annu.
Rev. Genomics Hum. Genet. 11: 265–289, 2010)
and Molecular and Genome Evolution by d.
grauer (Sinauer, Sunderland, MA, 2016).
The development of methods for making infer-
ences about evolution from dNA sequences
is an exciting and rapidly changing field of re-
search. Introductions to how different kinds ofselection are detected are “Molecular signa-
tures of natural selection” by R. Nielsen (Annu.
Rev. Genet. 39: 197–218, 2005), An Introduction
to Population Genetics: Theory and Applica-
tions by R. Nielsen and M. Slatkin (Sinauer,
Sunderland, MA, 2013), “Population genetic
inference from genomic sequence variation”
by J. E. Pool and colleagues (Genome Res. 20:
291–300, 2010), and “detecting natural selec-
tion in genomic data” by J. J. vitti and col-
leagues (Annu. Rev. Genet. 47: 97–120, 2013).
H. Ellegren and N. galtier review variation be-
tween species in levels of dNA polymorphism
in “determinants of genetic diversity” (Nat.
Rev. Genet. 17: 422–433, 2016).PRoBlEMS ANd dISCUSSIoN ToPICS
- Imagine that you have the dNA sequences from
the intron of a gene in three species called A, B,
and C. Species A and B are most closely related,
while C is more distantly related. The sequences
of A and B differ by 18 base pairs, A and C differ
by 26 base pairs, and B and C differ by 28 base
pairs. fossils show that species A and B diverged
about 1.2 Mya, but there is no fossil evidence as
to when the most recent common ancestor of
all three species lived. Use the genetic data to
estimate that date. What assumptions are you
making to get this estimate? - In a population of 10^5 rabbits that has equal
numbers of males and females, how many cop-
ies of a gene are there at a locus that is carried on
an autosome, at a locus on the X chromosome,
and at a locus on the y chromosome? If all else is
equal, which loci do you expect to be the most
polymorphic, and which the least? Justify your
response. How would your answers change if
mutation rates were much higher in males than in
females (which is the case in many species)? - Consider a species of sparrow that originally
lived only in Alaska but recently expanded its
range through North America, then Central
America, and finally South America. How would
you expect heterozygosity for most loci to differ
among populations in North America, Central
America, and South America? Why? Which of
those three regions would you expect to have
the most genetically similar populations, and
which the most different? - The logic of the MK test mentioned in the text is
based on the ratio of the number of sites that are
different between two species and the number
of sites that are polymorphic within one of those
species. This ratio is expected to be the same for
synonymous and nonsynonymous changes in a
locus that is evolving neutrally. A study of a locus
in two species of fishes called A and B obtained
the following results:
Nonsynonymous
Synonymous changes changesSites different in A and B 13 10
Polymorphic sites in A 11 2
Polymorphic sites in B 7 1Calculate the ratios of polymorphic sites within
a species and the differences between species
for synonymous and nonsynonymous changes.
What do your results suggest about how this
locus is evolving?- Two populations of a fly are isolated from all
other populations. Population S lives on a very
small island and has a population size of 10^3
individuals. Population l lives on a continent and
has a population size of 10^8 individuals. There
is a beneficial mutation that increases fitness by
1 percent, but initially neither population has a
copy of that allele. The mutation rate from the
current allele to the beneficial mutation is 5 ×
10 –7. Approximately how likely is it that the ben-
eficial mutation will be common in each popula-
tion after 1000 generations? - In Chapter 6 you saw how quantitative traits
evolve in response to selection. Quantitative
traits can also evolve by random genetic drift.
discuss how you expect the population size
might affect the additive genetic variance within
a population and the divergence between pop-
ulations for a quantitative trait.
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