■■genetic variation is produced when the genes
of two parents are mixed during sexual repro-
duction by segregation and recombination. In
asexual species, genes are mixed only by recom-
bination, and less often than in sexual species.
■■The Hardy-Weinberg equilibrium occurs under
idealized conditions in which no evolutionary
forces are acting. At this equilibrium, the three
genotypes at a locus with two alleles are in the
ratios p^2 :: 2p(1 – p) :: (1 – p)^2. Deviations from
those proportions can be used to detect selec-
tion and other evolutionary factors.
■■Linkage disequilibrium occurs when alleles at
two loci occur together more often than expect-
ed by chance. It is eroded by recombination,
and increased by selection and other evolution-
ary forces.
■■Horizontal gene transfer (HgT) is the movement
of genes between organisms by mechanisms
that do not involve meiosis, and is particularly
important to prokaryotes. It can move genes
between individuals of the same species and
of different species. HgT is important to human
health because it is the major pathway by which
bacteria evolve resistance to antibiotics.
■■mutation, which is an error that occurs when
DnA or RnA is replicated, is critical to evolu-
tion because it is the ultimate source of genetic
variation. mutations can affect anywhere from
a single base to a large piece of chromosome.
mutation rates vary greatly among species.
■■mutations in coding regions are called synony-
mous if they do not change the protein, and are
called nonsynonymous if they do. This distinction
has important evolutionary implications.
■■many mutations have no measurable effect
on survival or reproduction. Those that do are
typically deleterious. A small fraction are ad-
vantageous, and their spread leads to adaptive
evolution.
■■mutations that affect one trait virtually always
have pleiotropic effects, meaning that they also
affect other traits.
■■In species with separate somas and germ lines,
a mutation can be inherited if it alters a gene in
a cell in the germ line. mutations to somatic cells
leave no descendants to the next generation.
■■Experiments show that mutation is random with
respect to what will increase fitness.
■■There are several mechanisms of nongenetic in-
heritance. one is cultural inheritance, an essential
part of human civilization.
TERmS AnD ConCEPTS
allele
allele frequency
beneficial mutation
bp (base pair)
chromosome
coding region
codon
cultural inheritance
deleterious
mutation
deletion
DNA
(deoxyribonucleic
acid)
duplication
epigenetic
inheritance
epistasis
exon
fission
fitness
fusion
gene
gene family
genetic code
germ line
Hardy-Weinberg
equilibrium
horizontal gene
transfer (HGT)
insertion
intron
inversion
linkage
disequilibrium
locus
maternal effect
mutation
mutation rate
noncoding DNA
nonsynonymous
phenotype
pleiotropy
point mutation
polymorphic
recombination
recombination rate
RNA (ribonucleic
acid)
segregation
SNP (single
nucleotide
polymorphism)
soma
structural mutation
synonymous
tetraploidy
whole genome
duplication
SUmmARY
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