Nε-acetyl-β-lysine or glycine betaine as compatible solutes in response to increasing ammonia in Methanoculleus sp strains
Anna Schnürer, Maria Westerholm, Anders Broberg

TL;DR
Methanoculleus sp strains produce Nε-acetyl-β-lysine to cope with high ammonia levels, unlike other strains that use glycine betaine.
Contribution
This study reveals Nε-acetyl-β-lysine as a novel osmolyte in response to ammonia stress in Methanoculleus bourgensis strains.
Findings
Methanoculleus bourgensis strains uniquely accumulate Nε-acetyl-β-lysine under high ammonium conditions.
Some strains adapted to tolerate up to 25 g l−1 NH4+-N after gradual exposure.
Nε-acetyl-β-lysine biosynthesis may explain the ammonia tolerance of M. bourgensis in biogas systems.
Abstract
Methanogens rely on compatible solutes to withstand osmotic stress, yet their responses to high ammonium concentrations, common in biogas digesters, remain poorly understood. In this study, intracellular osmolyte accumulation was examined in four Methanoculleus bourgensis strains (MAB1, MAB2, MAB3, and BA1), isolated from high-ammonia biogas digesters, under progressive increase in concentrations of ammonium and sodium chloride. Their responses were compared with those of the type strain Methanoculleus bourgensis MS2T and the halophilic Methanoculleus submarinus Nankai-1T. All investigated strain grew to 12 g l−1 NH4+-N (0.3 mg l−1 NH3), and gradual adaptation increased ammonium/ammonia tolerance in some strains to 25 g l−1 NH4+-N. Whereas the reference strains accumulated glycine betaine under both ammonium and sodium chloride stress, the M. bourgensis strains from high ammonia biogas…
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Taxonomy
TopicsAnaerobic Digestion and Biogas Production · Wastewater Treatment and Nitrogen Removal · Microbial metabolism and enzyme function
