Ammonia-oxidising archaea living at low pH: Insights from comparative genomics

Craig W. Herbold, Laura E. Lehtovirta-Morley, Man-Young Jung, Nico Jehmlich, Bela Hausmann, Ping Han, Alexander Loy, Michael Pester, Luis A. Sayavedra-Soto, Sung-Keun Rhee, James I. Prosser, Graeme W. Nicol, Michael Wagner, Cecile Gubry-Rangin

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Abstract

Obligate acidophilic members of the thaumarchaeotal genus Candidatus Nitrosotalea play an important role in nitrification in acidic soils, but their evolutionary and physiological adaptations to acidic environments are still poorly understood, with only a single member of this genus (Ca. N. devanaterra) having its genome sequenced. In this study, we sequenced the genomes of two additional cultured Ca. Nitrosotalea strains, extracted an almost complete Ca. Nitrosotalea metagenome-assembled genome from an acidic fen, and performed comparative genomics of the four Ca. Nitrosotalea genomes with 19 other archaeal ammonia oxidiser genomes. Average nucleotide and amino acid identities revealed that the four Ca. Nitrosotalea strains represent separate species within the genus. The four Ca. Nitrosotalea genomes contained a core set of 103 orthologous gene families absent from all other ammonia-oxidizing archaea and, for most of these gene families, expression could be demonstrated in laboratory culture or the environment via proteomic or metatranscriptomic analyses respectively. Phylogenetic analyses indicated that four of these core gene families were acquired by the Ca. Nitrosotalea common ancestor via horizontal gene transfer from acidophilic representatives of Euryarchaeota. We hypothesize that gene exchange with these acidophiles contributed to the competitive success of the Ca. Nitrosotalea lineage in acidic environments.
Original languageEnglish
Pages (from-to)4939–4952
Number of pages14
JournalEnvironmental Microbiology
Volume19
Early online date4 Dec 2017
DOIs
Publication statusPublished - Dec 2017

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