A genomic analysis of the archaeal system Ignicoccus hospitalis-Nanoarchaeum equitans

A genomic analysis of the archaeal system Ignicoccus hospitalis-Nanoarchaeum equitans

The relationship between the hyperthermophiles Ignicoccus hospitalis and Nanoarchaeum equitans is the only known example of a specific association between two species of Archaea. Little is known about the mechanisms that enable this relationship. We sequenced the complete genome of I. hospitalis and...

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Published in:Genome biology Vol. 9; no. 11; p. R158
Main Authors: Podar, Mircea, Anderson, Iain, Makarova, Kira S, Elkins, James G, Ivanova, Natalia, Wall, Mark A, Lykidis, Athanasios, Mavromatis, Kostantinos, Sun, Hui, Hudson, Matthew E, Chen, Wenqiong, Deciu, Cosmin, Hutchison, Don, Eads, Jonathan R, Anderson, Abraham, Fernandes, Fillipe, Szeto, Ernest, Lapidus, Alla, Kyrpides, Nikos C, Saier, Jr, Milton H, Richardson, Paul M, Rachel, Reinhard, Huber, Harald, Eisen, Jonathan A, Koonin, Eugene V, Keller, Martin, Stetter, Karl O
Format: Journal Article
Language:English
Published: England BioMed Central 10-11-2008
Subjects:
Archaea
Biological Transport
Crenarchaeota
Desulfurococcaceae - genetics
Desulfurococcaceae - physiology
Energy Metabolism
Gene Transfer, Horizontal
Genome, Archaeal
Ignicoccus
Nanoarchaeota - genetics
Nanoarchaeota - physiology
Nanoarchaeum equitans
Phylogeny
Symbiosis
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Summary:The relationship between the hyperthermophiles Ignicoccus hospitalis and Nanoarchaeum equitans is the only known example of a specific association between two species of Archaea. Little is known about the mechanisms that enable this relationship. We sequenced the complete genome of I. hospitalis and found it to be the smallest among independent, free-living organisms. A comparative genomic reconstruction suggests that the I. hospitalis lineage has lost most of the genes associated with a heterotrophic metabolism that is characteristic of most of the Crenarchaeota. A streamlined genome is also suggested by a low frequency of paralogs and fragmentation of many operons. However, this process appears to be partially balanced by lateral gene transfer from archaeal and bacterial sources. A combination of genomic and cellular features suggests highly efficient adaptation to the low energy yield of sulfur-hydrogen respiration and efficient inorganic carbon and nitrogen assimilation. Evidence of lateral gene exchange between N. equitans and I. hospitalis indicates that the relationship has impacted both genomes. This association is the simplest symbiotic system known to date and a unique model for studying mechanisms of interspecific relationships at the genomic and metabolic levels.
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USDOE Office of Science (SC), Biological and Environmental Research (BER)
ISSN:1474-760X
1465-6906
1474-760X
1465-6914
DOI:10.1186/gb-2008-9-11-r158