Ammonia Switch-Off of Nitrogen Fixation in the Methanogenic Archaeon Methanococcus maripaludis: Mechanistic Features and Requirement for the Novel GlnB Homologues, NifI1 and NifI2

doi:10.1128/JB.183.3.882-889.2001

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Journal of Bacteriology, February 2001, p. 882-889, Vol. 183, No. 3
0021-9193/01/$04.00+0 DOI: 10.1128/JB.183.3.882-889.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.

Ammonia Switch-Off of Nitrogen Fixation in the Methanogenic Archaeon Methanococcus maripaludis: Mechanistic Features and Requirement for the Novel GlnB Homologues, NifI₁ and NifI₂

Peter S. Kessler, Catherine Daniel, and John A. Leigh^*

Department of Microbiology, University of Washington, Seattle, Washington 98195

Received 10 July 2000/Accepted 7 November 2000

Ammonia switch-off is the immediate inactivation of nitrogen fixation that occurs when a superior nitrogen source is encountered.In certain bacteria switch-off occurs by reversible covalent ADP-ribosylationof the dinitrogenase reductase protein, NifH. Ammonia switch-offoccurs in diazotrophic species of the methanogenic Archaea aswell. We showed previously that in Methanococcus maripaludis switch-offrequires at least one of two novel homologues of glnB, a familyof genes whose products play a central role in nitrogen sensingand regulation in bacteria. The novel glnB homologues have recentlybeen named nifI₁ and nifI₂. Here we use in-frame deletions andgenetic complementation analysis in M. maripaludis to show thatthe nifI₁ and nifI₂ genes are both required for switch-off. Wecould not detect ADP-ribosylation or any other covalent modificationof dinitrogenase reductase during switch-off, suggesting thatthe mechanism differs from the well-studied bacterial system.Furthermore, switch-off did not affect nif gene transcription,nifH mRNA stability, or NifH protein stability. Nitrogenase activityresumed within a short time after ammonia was removed from a switched-offculture, suggesting that whatever the mechanism, it is reversible.We demonstrate the physiological importance of switch-off by showingthat it allows growth to accelerate substantially when a diazotrophicculture is switched toammonia.

^* Corresponding author. Mailing address: University of Washington, Department of Microbiology, Box 357242, Seattle, WA 98195-7242.Phone: (206) 685-1390. Fax: (206) 543-8297. E-mail: leighj{at}u.washington.edu.

Present address: Seattle Biomedical Research Institute, Seattle, WA98195.

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