Evolution by Natural Selection / 1: |
Darwin's theory / 1.1: |
Evolution in vitro / 1.2: |
Lamark, Weismann, and the central dogma / 1.3: |
Models of Population / 2: |
Selection in an asexual population / 2.2: |
The accuracy of replication / 2.3: |
Genetic drift in finite populations / 2.4: |
Evolution in Diploid Populations / 3: |
Gene frequencies and the Hardy-Weinberg ratio / 3.1: |
The concept of fitness / 3.2: |
The spread of a favourable gene / 3.3: |
The Variability of Natural Populations / 4: |
The evidence for genetic variability / 4.1: |
Mutation / 4.2: |
The maintenance of variation / 4.3: |
Evolution at More Than One Locus / 5: |
Linkage disequilibrium / 5.1: |
Heterostyly in plants / 5.2: |
Mimicry in butterflies / 5.3: |
Linkage disequilibrium in natural populations / 5.4: |
Normalizing selection and linkage disequilibrium / 5.5: |
Quantitative Genetics / 6: |
Nature and nurture / 6.1: |
The additive genetic model / 6.2: |
A more realistic model / 6.3: |
Experiments in artificial selection / 6.4: |
Quantitative variation and fitness / 6.5: |
The maintenance of genetic variance for quantitative traits / 6.6: |
A Model of Phenotypic Evolution / 7: |
Pairwise interactions / 7.1: |
Some extensions of the model / 7.2: |
Will a sexual population evolve to an ESS? / 7.3: |
Finite and Structured Populations / 8: |
Inbreeding / 8.1: |
Genetic drift / 8.2: |
The rate of neutral molecular evolution / 8.3: |
Mitochondrial DNA / 8.4: |
Migration and differentiation between populations / 8.5: |
The establishment of a new favourable mutation / 8.6: |
Evolution in Structured Populations / 9: |
Selection in trait groups / 9.1: |
The evolution of co-operation: synergistic selection / 9.2: |
The evolution of co-operation: relatedness / 9.3: |
The group as the unit of evolution / 9.4: |
The shifting balance theory / 9.5: |
The Evolution of Prokaryotes / 10: |
The evolution of gene function / 10.1: |
Phages, plasmids, and transposable elements / 10.2: |
The evolution of phages and their hosts / 10.3: |
The evolution of plasmids / 10.4: |
The evolution of transposons / 10.5: |
The population genetics of E. coli / 10.6: |
The evolution of viruses / 10.7: |
The Evolution of the Eukaryotic Genome / 11: |
The nature of the genome / 11.1: |
The haemoglobin gene family / 11.2: |
Duplication and the increase of DNA content / 11.3: |
The ribosomal gene / 11.4: |
Unequal crossing over and gene conversion / 11.5: |
Repetitive DNA / 11.6: |
Karyotypic evolution / 11.7: |
The Evolution of Genetic Systems / 12: |
Sex and Recombination / I: |
The natural history of eukaryotic sex / 12.1: |
The evolutionary significance of sex / 12.2: |
The evolution of recombination / 12.3: |
Some Consequences of Sex / 13: |
The sex ration / 13.1: |
Selfing and outcrossing / 13.2: |
Hermaphroditism / 13.3: |
Sexual selection / 13.4: |
Macroevolution / 14: |
Species and speciation / 14.1: |
Patterns of evolution / 14.2: |
Coevolution / 14.3: |
Evolution by Natural Selection / 1: |
Darwin's theory / 1.1: |
Evolution in vitro / 1.2: |