The genome of Nanoarchaeum equitans: Insights into early archaeal evolution and derived parasitism

Elizabeth R. Waters; Michael J. Hohn; Ivan Ahel; David E. Graham; Mark D. Adams; Mary Barnstead; Karen Beeson; Lisa Bibbs; Randall Bolanos; Martin Keller; Keith A. Kretz; Xiaoying Lin; Eric J. Mathur; Jingwei Ni; Mircea Podar; Toby H. Richardson; Granger G. Sutton; Melvin I. Simon; Dieter Söll; Karl O. Stetter; Jay M. Short; Michiel Noordewier

doi:10.1073/pnas.1735403100

The genome of Nanoarchaeum equitans: Insights into early archaeal evolution and derived parasitism

Elizabeth R. Waters(University of Regensburg), Michael J. Hohn(University of Regensburg), Ivan Ahel(University of Illinois Urbana-Champaign), David E. Graham(Diversitech (United States)), Mark D. Adams(Yale University), Mary Barnstead(Yale University), Karen Beeson(Yale University), Lisa Bibbs(Yale University), Randall Bolanos(Yale University), Martin Keller(Yale University), Keith A. Kretz(Yale University), Xiaoying Lin(Yale University), Eric J. Mathur(Yale University), Jingwei Ni(Yale University), Mircea Podar(Yale University), Toby H. Richardson(Yale University), Granger G. Sutton(Yale University), Melvin I. Simon(Yale University), Dieter Söll(University of Illinois Urbana-Champaign), Karl O. Stetter(University of Regensburg), Jay M. Short(University of Regensburg), Michiel Noordewier(University of Regensburg)

Proceedings of the National Academy of Sciences

October 17, 2003

10.1073/pnas.1735403100

Cited by 514Open Access

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Abstract

The hyperthermophile Nanoarchaeum equitans is an obligate symbiont growing in coculture with the crenarchaeon Ignicoccus. Ribosomal protein and rRNA-based phylogenies place its branching point early in the archaeal lineage, representing the new archaeal kingdom Nanoarchaeota. The N. equitans genome (490,885 base pairs) encodes the machinery for information processing and repair, but lacks genes for lipid, cofactor, amino acid, or nucleotide biosyntheses. It is the smallest microbial genome sequenced to date, and also one of the most compact, with 95% of the DNA predicted to encode proteins or stable RNAs. Its limited biosynthetic and catabolic capacity indicates that N. equitans' symbiotic relationship to Ignicoccus is parasitic, making it the only known archaeal parasite. Unlike the small genomes of bacterial parasites that are undergoing reductive evolution, N. equitans has few pseudogenes or extensive regions of noncoding DNA. This organism represents a basal archaeal lineage and has a highly reduced genome.

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