Massive comparative genomic analysis reveals convergent evolution of specialized bacteria
Open Access
- 10 April 2009
- journal article
- research article
- Published by Springer Nature in Biology Direct
- Vol. 4 (1), 13
- https://doi.org/10.1186/1745-6150-4-13
Abstract
Genome size and gene content in bacteria are associated with their lifestyles. Obligate intracellular bacteria (i.e., mutualists and parasites) have small genomes that derived from larger free-living bacterial ancestors; however, the different steps of bacterial specialization from free-living to intracellular lifestyle have not been studied comprehensively. The growing number of available sequenced genomes makes it possible to perform a statistical comparative analysis of 317 genomes from bacteria with different lifestyles. Compared to free-living bacteria, host-dependent bacteria exhibit fewer rRNA genes, more split rRNA operons and fewer transcriptional regulators, linked to slower growth rates. We found a function-dependent and non-random loss of the same 100 orthologous genes in all obligate intracellular bacteria. Thus, we showed that obligate intracellular bacteria from different phyla are converging according to their lifestyle. Their specialization is an irreversible phenomenon characterized by translation modification and massive gene loss, including the loss of transcriptional regulators. Although both mutualists and parasites converge by genome reduction, these obligate intracellular bacteria have lost distinct sets of genes in the context of their specific host associations: mutualists have significantly more genes that enable nutrient provisioning whereas parasites have genes that encode Types II, IV, and VI secretion pathways. Our findings suggest that gene loss, rather than acquisition of virulence factors, has been a driving force in the adaptation of parasites to eukaryotic cells. This comparative genomic analysis helps to explore the strategies by which obligate intracellular genomes specialize to particular host-associations and contributes to advance our knowledge about the mechanisms of bacterial evolution. This article was reviewed by Eugene V. Koonin, Nicolas Galtier, and Jeremy Selengut.Keywords
This publication has 77 references indexed in Scilit:
- Bacterial pathogenomicsNature, 2007
- Lateral gene transfer between obligate intracellular bacteria: Evidence from the Rickettsia massiliae genomeGenome Research, 2007
- Reconstructing the ancestor of Mycobacterium leprae: The dynamics of gene loss and genome reductionGenome Research, 2007
- Type VI secretion is a major virulence determinant in Burkholderia malleiMolecular Microbiology, 2007
- The Genome Sequence of Rickettsia felis Identifies the First Putative Conjugative Plasmid in an Obligate Intracellular ParasitePLoS Biology, 2005
- The Wolbachia Genome of Brugia malayi: Endosymbiont Evolution within a Human Pathogenic NematodePLoS Biology, 2005
- Comparative genomics, minimal gene-sets and the last universal common ancestorNature Reviews Microbiology, 2003
- Genome evolution in bacterial endosymbionts of insectsNature Reviews Genetics, 2002
- Massive gene decay in the leprosy bacillusNature, 2001
- Gapped BLAST and PSI-BLAST: a new generation of protein database search programsNucleic Acids Research, 1997