Autor: |
Conrad, Roth E, Viver, Tomeu, Gago, Juan F, Hatt, Janet K, Venter, Stephanus N, Rossello-Mora, Ramon, Konstantinidis, Konstantinos T |
Zdroj: |
The ISME Journal; May 2022, Vol. 16 Issue: 5 p1222-1234, 13p |
Abstrakt: |
Metagenomic surveys have revealed that natural microbial communities are predominantly composed of sequence-discrete, species-like populations but the genetic and/or ecological processes that maintain such populations remain speculative, limiting our understanding of population speciation and adaptation to perturbations. To address this knowledge gap, we sequenced 112 Salinibacter ruberisolates and 12 companion metagenomes from four adjacent saltern ponds in Mallorca, Spain that were experimentally manipulated to dramatically alter salinity and light intensity, the two major drivers of this ecosystem. Our analyses showed that the pangenome of the local Sal. ruberpopulation is open and similar in size (~15,000 genes) to that of randomly sampled Escherichia coligenomes. While most of the accessory (noncore) genes were isolate-specific and showed low in situ abundances based on the metagenomes compared to the core genes, indicating that they were functionally unimportant and/or transient, 3.5% of them became abundant when salinity (but not light) conditions changed and encoded for functions related to osmoregulation. Nonetheless, the ecological advantage of these genes, while significant, was apparently not strong enough to purge diversity within the population. Collectively, our results provide an explanation for how this immense intrapopulation gene diversity is maintained, which has implications for the prokaryotic species concept. |
Databáze: |
Supplemental Index |
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