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Salinity Tolerance and Osmoadaptation Strategies in Four Genera of Anammox Bacteria: Brocadia , Jettenia , Kuenenia , and Scalindua .

Satoshi OkabeAkimichi KamizonoLei ZhangSeiya KawasakiKanae KobayashiMamoru Oshiki
Published in: Environmental science & technology (2024)
The salinity tolerance and osmoadaptation strategies in four phylogenetically distant anammox species, Brocadia , Jettenia , Kuenenia , and Scalindua , were investigated by using highly enriched cell cultures. The first-emerged " Ca . Scalindua sp." showed optimum growth at 1.5-3% salinity and was tolerant to ∼10% salinity (a slight halophile). The second-emerged " Ca . Kuenenia stuttgartiensis" was tolerant to ∼6% salinity with optimum growth at 0.25-1.5% (a halotolerant). These early-emerged " Ca . Scalindua sp." and ″ Ca . K. stuttgartiensis" rapidly accumulated K + ions and simultaneously synthesized glutamate as a counterion. Subsequently, part of the glutamate was replaced by trehalose. In contrast, the late-emerged " Ca . B. sinica" and " Ca . J. caeni" were unable to accumulate sufficient amounts of K + ─glutamate and trehalose, resulting in a significant decrease in activity even at 1-2% salinity (nonhalophiles). In addition, the external addition of glutamate may increase anammox activity at high salinity. The species-dependent salinity tolerance and osmoadaptation strategies were consistent with the genetic potential required for the biosynthesis and transport of these osmolytes and the evolutionary history of anammox bacteria: Scalindua first emerged in marine environments and then Kuenenia and other two species gradually expanded their habitat to estuaries, freshwater, and terrestrial environments, while Brocadia and Jettenia likely lost their ability to accumulate K + ─glutamate.
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