Epigenetic Mechanisms of the Cambrian Explosion
Auteur : R Cabej Nelson
Epigenetic Mechanisms of the Cambrian Explosion provides readers with a basic biological knowledge and epigenetic explanation of the biological puzzle of the Cambrian explosion, the unprecedented rapid diversification of animals that began 542 million years ago. During an evolutionarily instant of ~10 million years, which represents only 0.3% of the time of existence of life on Earth, or less than 2% of the time of existence of metazoans, all of the 30 extant body plans, major animal groups (phyla) and several extinct groups appeared. The work helps address this phenomena and tries to answer remaining questions for evolutionary biology, epigenetics, and scientific researchers.
The book recognizes and presents objective representations of alternative theories for epigenetic evolution in this period, with the author drawing on his epigenetic theory of evolution to explain the causal basis of the Cambrian explosion. Both empirical evidence and theoretical arguments are presented in support of this thought-provoking epigenetic theory.
1. The Precambrian Evolution2. The Ediacaran fauna - the prelude to the Cambrian explosion3. The Evolution of Epigenetic Mechanisms of the Cambrian Explosion4. Evolution of Body Plans and the Cambrian explosion
Evolutionary biologists, evolutionary geneticists, developmental biologists, biology graduates and post-graduates, palaeontologists, ecologists; physicians, clinicians, residents, postdocs, and graduate students in genetic and genomic medicine
- Explains the Cambrian explosion from an entirely epigenetic view
- Takes a causal rather than descriptive approach to the phenomenon
- Allows for a broad readership, including those with only a basic biological knowledge, while maintaining scientific rigor
Date de parution : 10-2019
Ouvrage de 256 p.
15x22.8 cm
Thèmes d’Epigenetic Mechanisms of the Cambrian Explosion :
Mots-clés :
Acquired immunity; Action potentials; Bilateral symmetry; Body segmentation; Cambrian explosion; Centralization of the nervous system; Choanocytes; Choanoflagellates; Control system; Dickinsonia; DNA methylation; Ediacaran biota; Evolution of neuron; Gene cooption; Gene expression patterns; GRN (gene regulatory network)Histone modification; GRN (gene regulatory network)Ichnospecies; Kimberella; miRNA; Monosiga brevicollis; Multicellularity; Neural control of development; Neural net; Placozoa; Somatic mutation; Sponges; Treptichnus pedum