New publication in mBio: Metabolic versatility of comammox in wastewater treatment plants

17.03.2020

Metagenomics and metatranscriptomics of four comammox organisms from two full-scale WWTPs revealed that comammox were active and showed a high metabolic versatility, including cyanate use and a potential anaerobic lifestyle.

A gene cluster for the utilization of urea and a gene encoding cyanase suggest that comammox in WWTPs may use diverse organic nitrogen compounds in addition to free ammonia as substrates. The comammox organisms also encoded the genomic potential for multiple alternative energy metabolisms, including respiration with hydrogen, formate, and sulfite as electron donors. Pathways for the biosynthesis and degradation of polyphosphate, glycogen, and polyhydroxyalkanoates as intracellular storage compounds likely help comammox survive unfavorable conditions. One of the comammox strains acquired from an anaerobic tank encoded and transcribed genes involved in homoacetate fermentation or in the utilization of exogenous acetate, both pathways being unexpected in a nitrifying bacterium.

Full text at mBio