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Journal of Bacteriology, September 2009, p. 5526-5537, Vol. 191, No. 17
0021-9193/09/$08.00+0     doi:10.1128/JB.00585-09
Copyright © 2009, American Society for Microbiology. All Rights Reserved.

Effect of Perturbation of ATP Level on the Activity and Regulation of Nitrogenase in Rhodospirillum rubrum{triangledown}

Yaoping Zhang, Edward L. Pohlmann, and Gary P. Roberts*

Department of Bacteriology, University of Wisconsin-Madison, Madison, Wisconsin 53706

Received 5 May 2009/ Accepted 15 June 2009

Nitrogenase activity in Rhodospirillum rubrum and in some other photosynthetic bacteria is regulated in part by the availability of light. This regulation is through a posttranslational modification system that is itself regulated by PII homologs in the cell. PII is one of the most broadly distributed regulatory proteins in nature and directly or indirectly senses nitrogen and carbon signals in the cell. However, its possible role in responding to light availability remains unclear. Because PII binds ATP, we tested the hypothesis that removal of light would affect PII by changing intracellular ATP levels, and this in turn would affect the regulation of nitrogenase activity. This in vivo test involved a variety of different methods for the measurement of ATP, as well as the deliberate perturbation of intracellular ATP levels by chemical and genetic means. To our surprise, we found fairly normal levels of nitrogenase activity and posttranslational regulation of nitrogenase even under conditions of drastically reduced ATP levels. This indicates that low ATP levels have no more than a modest impact on the PII-mediated regulation of NifA activity and on the posttranslational regulation of nitrogenase activity. The relatively high nitrogenase activity also shows that the ATP-dependent electron flux from dinitrogenase reductase to dinitrogenase is also surprisingly insensitive to a depleted ATP level. These in vivo results disprove the simple model of ATP as the key energy signal to PII under these conditions. We currently suppose that the ratio of ADP/ATP might be the relevant signal, as suggested by a number of recent in vitro analyses.

* Corresponding author. Mailing address: Department of Bacteriology, University of Wisconsin-Madison, Madison, WI 53706. Phone: (608) 262-3567. Fax: (608) 262-9865. E-mail: groberts{at}bact.wisc.edu

{triangledown} Published ahead of print on 19 June 2009.

Journal of Bacteriology, September 2009, p. 5526-5537, Vol. 191, No. 17
0021-9193/09/$08.00+0     doi:10.1128/JB.00585-09
Copyright © 2009, American Society for Microbiology. All Rights Reserved.





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