The Major Transitions in EvolutionDuring evolution, there have been several major changes in the way that genetic information is organized and transmitted from one generation to the next. These transitions include the origin of life itself, the first eukaryotic cells, reproduction by sexual means, the appearance of multicellular plants and animals, the emergence of cooperation and of animal societies, and the unique language ability of humans. This is the first book to discuss all of these major transitions. In discussing such a wide range of topics in one volume, the authors are able to highlight the similarities between different transitions - for example, between the union of replicating molecules to form chromosomes and of cells to form multicellular organisms. The authors also show how an understanding of one transition sheds light on others. A common theme in the book is that entities that could replicate independently before the transition can replicate afterwards only as part of a larger whole. Why, then, does selection between entities at the lower level not disrupt selection at the higher level? In answering this question, the authors offer an explanation for the evolution of cooperation at all levels of complexity. Written in a clear style, and illustrated with many original diagrams, this book can be read with enjoyment by anyone with an undergraduate training in the biological sciences. It will be ideal for advanced discussion groups on evolution. Although the content ranges widely from molecular biology to linguistics and from intragenomic conflict to insect societies, no detailed knowledge of any of these topics is required. Mathematical models are clearly explained, and equations and formulae are kept to a minimum. |
Contents
| 1 | |
2 What is life? | 15 |
3 Chemical evolution | 25 |
4 The evolution of templates | 39 |
5 The chicken and egg problem | 59 |
6 The origin of translation and the genetic code | 79 |
7 The origin of protocells | 97 |
8 The origin of eukaryotes | 119 |
12 Development in simple organisms | 201 |
13 Gene regulation and cell heredity | 217 |
14 The development of spatial patterns | 225 |
15 Development and evolution | 241 |
16 The origins of societies | 255 |
17 The origin of language | 279 |
| 311 | |
Author index | 335 |
9 The origin of sex and the nature of species | 147 |
10 Intragenomic conflict | 169 |
11 Symbiosis | 187 |
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Common terms and phrases
active allele amino acids animals arise autocatalytic cycles autocatalytic set bacteria catalyse Cavalier-Smith cell division cell wall centrioles chemical chloroplasts chromosome codon compartments complex concentration cooperate differentiation diploid discuss division of labour Drosophila eggs enzymes eukaryotes eusocial evolution evolutionary evolved example existence explain favoured females formation function fungi gametes genes genetic code genome grammatical groups haploid hence heredity host hypercycle increase individual inherited intentionally left blank introns language males mating types Maynard Smith mechanism meiosis meiotic drive membrane metabolism microtubules mitochondria molecular molecules monomers multicellular mutation natural selection nuclear nucleic acids nucleotides nucleus occur offspring organelles organisms origin parasites peptides phages phenotype plants plastids population possible prokaryotes protein protocell reactions recombination regulatory replicase requires ribozymes sentences sequence sexual single social soma somatic cells species structure suggested surface symbiont symbiosis syngamy synthesis Szathmáry template transitions transmission tRNA