26.1 organisms evolve through genetic change occurring within populations. “nothing in biology...
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26.1 Organisms Evolve Through Genetic Change Occurring Within Populations.
“Nothing in Biology makes sense except in the light of Evolution”
–Theodosius Dobzhansky
Evolution
• Genetic change taking place in a group of organisms over time.
• Evolution includes genetic change only.
• Evolution takes place in groups of organisms; what evolves is the gene pool common to a group of organisms.
• Anagenesis
• Evolution taking place in a single group (a lineage) with the passage of time.
• Cladogenesis
• The splitting of one lineage into two, new species arise through cladogenesis.
Evolution
26.2 Many Natural Populations Contain High Levels of Genetic Variation.
• Protein variation
• Measures of genetic variation
Molecular Variation
• Protein variation
• Neutral-mutation hypothesis• Individuals with different molecular variants
have equal fitness at realistic population size.
• Balance hypothesis• Genetic variation in natural populations is
maintained by selection that favors variation
Molecular Variation
Concept Check 1
Which statement is true of the neutral-mutation hypothesis?
a. All proteins are functionless.
b. Natural selection plays no role in evolution.
c. Most molecular variants are functionally equivalent.
d. All of the above
Concept Check 1
Which statement is true of the neutral-mutation hypothesis?
a. All proteins are functionless.
b. Natural selection plays no role in evolution.
c. Most molecular variants are functionally equivalent.
d. All of the above
• DNA sequence variation
• Restriction-site variation
• Microsatellite variation
• Variation detected by DNA sequencing
Molecular Variation
• The Biological Species Concept (Ernst Mayer, 1942)
• A group of organisms whose members are capable of interbreeding with one another but are reproductively isolated from the members of other species.
26.3 New Species Arise Through the Evolution of Reproductive Isolation
• Prezygotic reproductive isolating mechanism
• Ecological• Behavioral• Temporal• Mechanical• gametical
Reproductive Isolating Mechanisms
• Allopatric speciation
• When a geographic barrier splits a population into two or more groups and prevents gene flow between the isolated groups.
Modes of Speciation
• Sympatric speciation
• Arises in the absence of any geographic barrier to gene flow; reproductive isolation mechanisms evolve within a single interbreeding population.
Modes of Speciation
• Speciation through polyploidy
Modes of Speciation
• Genetic differentiation Associated With Speciation
• How much genetic differentiation is required for reproductive isolation to take place?
• No universal answer! Can be up to 200 genes or down to less than 10 genes.
Modes of Speciation
• Phylogeny
• The evolutionary relationships among a group of organisms are termed a phylogeny.
26.4 The Evolutionary History of a Group of Organisms Can Be Reconstructed by Studying
Changes in Homologous Characteristics
• The Construction of Phylogenetic Trees
• Distance approach
• Parsimony approach• Infers phylogenetic relationships on the
basis of the minimum number of evolutionary changes that must have taken place since the organisms last had an ancestor in common.
26.4 The Evolutionary History of a Group of Organisms Can Be Reconstructed by Studying
Changes in Homologous Characteristics
26.5 Patterns of Evolution Are Revealed By Changes at the Molecular Level
• Rates of Evolution
26.5 Patterns of Evolution Are Revealed By Changes at the Molecular Level
• The Molecular Clock
• Measure the rate at which a protein evolves is roughly constant over time, the amount of molecular change that a protein has undergone can be used as a clock.
26.5 Patterns of Evolution Are Revealed By Changes at the Molecular Level
• Genome Evolution
• Exon shuffling• Gene duplication
• Multigene family concept
26.5 Patterns of Evolution Are Revealed By Changes at the Molecular Level
• Genome Evolution
• Whole-genome duplication• Horizontal gene transfer
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