Genetic Identification of Three ABC Transporters as Essential Elements for Nitrate Respiration in Haloferax volcanii

Genetic Identification of Three ABC Transporters as Essential Elements for Nitrate Respiration in Haloferax volcanii

Christian Wanner^a and Jörg Soppa^a
^a Biozentrum Niederursel, Institut für Mikrobiologie, J. W. Goethe-Universität D-60439 Frankfurt, Germany

Corresponding author: Jörg Soppa, J. W. Goethe-Universität, Biozentrum Niederursel, Institut für Mikrobiologie, Marie-Curie-Str. 9, D-60439 Frankfurt, Germany., soppa{at}em.uni-frankfurt.de (E-mail)

Communicating editor: F. PFEIFER

More than 40 nitrate respiration-deficient mutants of Haloferaxvolcanii belonging to three different phenotypic classes wereisolated. All 15 mutants of the null phenotype were complementedwith a genomic library of the wild type. Wild-type copies ofmutated genes were recovered from complemented mutants usingtwo different approaches. The DNA sequences of 13 isolated fragmentswere determined. Five fragments were found to overlap; thereforenine different genomic regions containing genes essential fornitrate respiration could be identified. Three genomic regionscontaining genes coding for subunits of ABC transporters werefurther characterized. In two cases, genes coding for an ATP-bindingsubunit and a permease subunit were clustered and overlappedby four nucleotides. The third gene for a permease subunit hadno additional ABC transporter gene in proximity. One ABC transporterwas found to be glucose specific. The mutant reveals that theABC transporter solely mediates anaerobic glucose transport.Based on sequence similarity, the second ABC transporter isproposed to be molybdate specific, explaining its essentialrole in nitrate respiration. The third ABC transporter is proposedto be anion specific. Genome sequencing has shown that ABC transportersare widespread in Archaea. Nevertheless, this study representsonly the second example of a functional characterization.

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