Enrichment and characterization of an autotrophic ammonia-oxidizing archaeon

http://aem.asm.org/content/early/2011/10/14/AEM.05787-11.short?rss=1

Enrichment and characterization of an autotrophic ammonia-oxidizing archaeon of mesophilic crenarchaeal group I.1a from an agricultural soil

Man-Young Jung1, Soo-Je Park1, Deullae Min2, Jin-Seog Kim2, W. Irene C. Rijpstra3, Jaap S. Sinninghe Damsté3, Geun-Joong Kim4, Eugene L. Madsen5 and Sung-Keun Rhee1

Soil nitrification is an important process for agricultural productivity and environmental pollution. Though one cultivated representative of ammonia-oxidizing Archaea from soil has been described, additional representativeswarrant characterization. We describe an ammonia-oxidizing archaeon (“strain MY1”) in a highly enriched culture derived from agricultural soil. Fluorescence in situ hybridization microscopy showed that, after 2 years enrichment, the culture was composed of >90% archaeal cells. Clone libraries of both 16S rRNA and archaeal amoA genes featured asinglesequence each. No bacterial amoA genes could be detected by PCR. A13C-bicarbonate-assimilation assay showed stoichiometric incorporation of 13C into Archaea-specific glycerol dialkyl glycerol tetraethers. Strain MY1 falls phylogenetically within crenarchaeal groupI.1a;sequence comparisons to “Candidatus Nitrosopumilus maritimus”revealed 96.9% 16S rRNA and 89.2% amoA gene similarities, respectively. Completed growth assays showed strain MY1 to be chemoautotrophic, mesophilic (optimum at 25°C), neutrophilic (optimum at pH 6.5-7.0), and non-halophilic (optimum at 0.2-0.4% salinity). Kinetic respirometry assays showed that strain MY1's affinities for ammonia and oxygen were much higher than those of AOB. The yield of the greenhouse gas, N2O, in the strain MY1 culture was lower but comparable to that of soil AOB. We propose that this new soil ammonia-oxidizing archaeon be designated “Ca.Nitrosoarchaeumkoreensis”.