The recent revolution in molecular biology has spread through every field of biology including systematics and evolution. Researchers can now analyze the genomes of different species relatively quickly, and this is generating a great deal of data and theories about relationships between taxa as well as how they originated and diversified.
Organelles, Genomes and Eukaryote Phylogeny covers recent developments in the field of “deep level” phylogenetic inference of eukaryotes, especially with respect to the origin and evolution of eukaryotic cells and their organelles. It focuses on interpretation of data derived from molecular and cell biology, genome sequencing with respect to the timing and mechanism of eukaryogenesis, and the endosymbiotic events leading to mitochondria and plastids.
As ideas that prevailed for twenty years are being revised, updated, or abandoned in the face of more sophisticated analysis of molecular sequence data, this book will prove relevant to all students and professionals working in molecular systematics, comparative genomics, and cell biology.
An Overview on Eukaryote Origins and Evolution. Excavata and the Origin of Amitochondriate Eukaryotes. The Evolutionary History of Plastids. Chromalveolate Diversity and Cell Megaevolution. Origin and Evolution of Animals, Fungi and their Unicellular Allies. Pitfalls in Tree Reconstruction and the Phylogeny of Eukaryotes. The Importance of Evolutionary Biology to the Analysis of Genome Data. Eukaryotic Phylogenyin the age of Genomics. Genome Phylogenies. Genomics of Microbial Parasites. Evolutionary Contribution of Plastid genes to Plant Nuclear Genomes and its Effects on the Composition of the Proteomes of all Cellular Compartments. Protein Translocation Machinery in Chloroplasts and Mitochondria. Mitosomes, Hydrogenosomes and Mitochondria. Eukaryotic Cell Evolution from a Comparative Genomic Perspective. The Membranome and Membrane Heredity in Development and Evolution. Epigenetic Inheritance and Evolutionary Adaptation