AI Article Synopsis
- Phylogenetic trees of prokaryotes often have differing structures due to horizontal gene transfer (HGT), suggesting the concept of a "net of life" for their evolution.
- While individual genes are best represented as trees because of how they replicate, a full understanding of prokaryote evolution requires integrating both tree-like and net-like structures.
- Analysis of thousands of phylogenetic trees reveals that, despite the prevalence of net-like evolution, the overarching trend reflects tree-like patterns, with significant differences observed among bacterial and archaeal lineages and different gene functions.
Article Abstract
Phylogenetic trees of individual genes of prokaryotes (archaea and bacteria) generally have different topologies, largely owing to extensive horizontal gene transfer (HGT), suggesting that the Tree of Life (TOL) should be replaced by a "net of life" as the paradigm of prokaryote evolution. However, trees remain the natural representation of the histories of individual genes given the fundamentally bifurcating process of gene replication. Therefore, although no single tree can fully represent the evolution of prokaryote genomes, the complete picture of evolution will necessarily combine trees and nets. A quantitative measure of the signals of tree and net evolution is derived from an analysis of all quartets of species in all trees of the "Forest of Life" (FOL), which consists of approximately 7,000 phylogenetic trees for prokaryote genes including approximately 100 nearly universal trees (NUTs). Although diverse routes of net-like evolution collectively dominate the FOL, the pattern of tree-like evolution that reflects the consistent topologies of the NUTs is the most prominent coherent trend. We show that the contributions of tree-like and net-like evolutionary processes substantially differ across bacterial and archaeal lineages and between functional classes of genes. Evolutionary simulations indicate that the central tree-like signal cannot be realistically explained by a self-reinforcing pattern of biased HGT.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2997564 | PMC |
| http://dx.doi.org/10.1093/gbe/evq062 | DOI Listing |
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