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Applied and Environmental Microbiology, September 2005, p. 5371-5382, Vol. 71, No. 9
0099-2240/05/$08.00+0     doi:10.1128/AEM.71.9.5371-5382.2005
Copyright © 2005, American Society for Microbiology. All Rights Reserved.

Structure and Sequence Conservation of hao Cluster Genes of Autotrophic Ammonia-Oxidizing Bacteria: Evidence for Their Evolutionary History

Black Hills State University, Spearfish, South Dakota 57783,¹ University of Minnesota, St. Paul, Minnesota 55108,² Department of Biology, University of Louisville, Louisville, Kentucky 40292³

Received 27 December 2004/ Accepted 21 April 2005

Comparison of the organization and sequence of the hao (hydroxylamine oxidoreductase) gene clusters from the gammaproteobacterial autotrophic ammonia-oxidizing bacterium (aAOB) Nitrosococcus oceani and the betaproteobacterial aAOB Nitrosospira multiformis and Nitrosomonas europaea revealed a highly conserved gene cluster encoding the following proteins: hao, hydroxylamine oxidoreductase; orf2, a putative protein; cycA, cytochrome c₅₅₄; and cycB, cytochrome c_m552. The deduced protein sequences of HAO, c₅₅₄, and c_m552 were highly similar in all aAOB despite their differences in species evolution and codon usage. Phylogenetic inference revealed a broad family of multi-c-heme proteins, including HAO, the pentaheme nitrite reductase, and tetrathionate reductase. The c-hemes of this group also have a nearly identical geometry of heme orientation, which has remained conserved during divergent evolution of function. High sequence similarity is also seen within a protein family, including cytochromes c_m552, NrfH/B, and NapC/NirT. It is proposed that the hydroxylamine oxidation pathway evolved from a nitrite reduction pathway involved in anaerobic respiration (denitrification) during the radiation of the Proteobacteria. Conservation of the hydroxylamine oxidation module was maintained by functional pressure, and the module expanded into two separate narrow taxa after a lateral gene transfer event between gamma- and betaproteobacterial ancestors of extant aAOB. HAO-encoding genes were also found in six non-aAOB, either singly or tandemly arranged with an orf2 gene, whereas a c₅₅₄ gene was lacking. The conservation of the hao gene cluster in general and the uniqueness of the c₅₅₄ gene in particular make it a suitable target for the design of primers and probes useful for molecular ecology approaches to detect aAOB.

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