Abstract
The photosynthetic nonsulfur purple bacterium Rhodobacter capsulatus is able to fix dinitrogen (N2) using either a conventional molybdenum nitrogenase or an alternative, heterometal-free nitrogenase. Until now, thirtyfive genes have been characterized in detail that are involved in synthesis and regulation of the molybdenum nitrogenase (Klipp, 1990; Schmehl et al., 1993). These genes are localized in three distinct regions of the R. capsulatus chromosome, designated nif regions A, B and C. Expression of nif operons is controlled by a regulatory circuit similar to the Ntr-system of enteric bacteria (Fig. 1). R. capsulatus nifR1, nifR2 and nifR4 are homologous to ntrC, ntrB and rpoN, respectively. Under conditions of nitrogen limitation this nif specific Ntr-system activates two functional copies of nifA, which in turn activate all other nitrogen fixation genes. However, in contrast to the Ntr system of enteric bacteria, no genes involved in the general nitrogen metabolism are activated by R. capsulatus NifRl. Mapping of transcriptional startpoints of nifA I ) and nifA II ) revealed a proximal -23/-7 promoter element (Foster-Hartnett, Kranz, 1992; Preker et al., 1992) which might be the recognition site of an RNA polymerase that contains an as yet unidentified sigma factor (rx in Fig. 1). Transcriptional activity of this polymerase strictly depends on binding of the phosphorylated form of NtrC to tandemly arranged distal DNA elements (Foster-Hartnett et al., 1994).
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© 1995 Springer Science+Business Media Dordrecht
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Klipp, W. et al. (1995). Regulation of Molybdenum and Alternative Nitrogenases in the Photosynthetic Purple Bacterium Rhodobacter Capsulatus . In: Tikhonovich, I.A., Provorov, N.A., Romanov, V.I., Newton, W.E. (eds) Nitrogen Fixation: Fundamentals and Applications. Current Plant Science and Biotechnology in Agriculture, vol 27. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-0379-4_28
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DOI: https://doi.org/10.1007/978-94-011-0379-4_28
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