1. Nanoarchaeum equitans and Ignicoccus hospitalis: New Insights into a Unique, Intimate Association of Two Archaea▿
- Author
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Martin Gallenberger, Wolfgang Eisenreich, Benjamin Junglas, Reinhard Rachel, Harald Huber, Karl O. Stetter, Ulrike Jahn, and Walter Paper
- Subjects
Magnetic Resonance Spectroscopy ,Ignicoccus ,Sodium Chloride ,Microbiology ,Microbial Cell Biology ,RNA, Ribosomal, 16S ,Nanoarchaeota ,Sulfites ,Nanoarchaeum equitans ,Amino Acids ,Molecular Biology ,Mutual influence ,biology ,Desulfurococcaceae ,Temperature ,Hydrogen-Ion Concentration ,Commensalism ,biology.organism_classification ,Microscopy, Electron ,DNA, Archaeal ,Biochemistry ,Stationary phase ,Fermentation ,Bacteria ,Cell Division ,Archaea - Abstract
Nanoarchaeum equitansandIgnicoccus hospitalisrepresent a unique, intimate association of two archaea. Both form a stable coculture which is mandatory forN.equitansbut not for the hostI.hospitalis. Here, we investigated interactions and mutual influence between these microorganisms. Fermentation studies revealed that during exponential growth only about 25% ofI.hospitaliscells are occupied byN.equitanscells (one to three cells). The latter strongly proliferate in the stationary phase ofI.hospitalis, until 80 to 90% of theI.hospitaliscells carry around 10N.equitanscells. Furthermore, the expulsion of H2S, the major metabolic end product ofI.hospitalis, by strong gas stripping yields huge amounts of freeN.equitanscells.N.equitanshad no influence on the doubling times, final cell concentrations, and growth temperature, pH, or salt concentration ranges or optima ofI.hospitalis. However, isolation studies using optical tweezers revealed that infection withN.equitansinhibited the proliferation of individualI.hospitaliscells. This inhibition might be caused by deprivation of the host of cell components like amino acids, as demonstrated by13C-labeling studies. The strong dependence ofN.equitansonI.hospitaliswas affirmed by live-dead staining and electron microscopic analyses, which indicated a tight physiological and structural connection between the two microorganisms. No alternative hosts, including otherIgnicoccusspecies, were accepted byN.equitans. In summary, the data show a highly specialized association ofN.equitansandI.hospitaliswhich so far cannot be assigned to a classical symbiosis, commensalism, or parasitism.
- Published
- 2007