期刊
MOLECULAR BIOLOGY AND EVOLUTION
卷 20, 期 9, 页码 1545-1555出版社
OXFORD UNIV PRESS
DOI: 10.1093/molbev/msg167
关键词
symbiosis; yeast-like symbionts; phylogeny; AT bias; relative rate; likelihood ratio test
Mutualistic, maternally transmitted endosymbiotic microorganisms undergo severe population bottlenecks at each host generation, resulting in a reduction in effective population size (N-e). Previous studies of Buchnera, the primary endosymbiont of aphids, and of several other species of endosymbiotic bacteria have shown that these species exhibit an increase in the rate of substitution of slightly deleterious mutations, among other predicted effects of increased drift due to small N-e, such as reduced codon bias. However, these studies have been limited in taxonomic scope, and it was therefore not clear whether the increase in rate is a general feature of endosymbiont lineages. Here, we test the prediction that a long-term reduction in N-e causes an increase in substitution rate using DNA sequences of the 16S rRNA gene from 13 phylogenetically independent comparisons between taxonomically diverse endosymbiotic microorganisms and their free-living relatives. Maximum likelihood and distance-based methods both indicate a significant increase in substitution rate in a wide range of bacterial and fungal endosymbionts compared to closely related free-living lineages. We use the same data set to test whether 16S genes from endosymbionts display increased A + T content, another indicator of increased genetic drift, and find that there is no significant difference in base composition between endosymbiont and nonendosymbiont 16S genes. However, analysis of an additional data set of whole bacterial genomes demonstrates that, while host-dependent bacteria have significantly increased genomic A + T content, the base content of the 16S gene tends to vary less than that of the whole genome. It is possible that selection for stability of rRNA is strong enough to overcome the effects of drift toward increased A + T content in endosymbiont 16S genes, despite the reduced effective population sizes of these organisms.
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