Promoters controlling expression of the alternative nitrogenase and the molybdenum uptake system in Rhodobacter capsulatus are activated by NtrC, independent of sigma54, and repressed by molybdenum.
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TheAlternative nitrogenase of Rhodobacter capsulatus is expressed only under conditions of nitrogen and molybdenum depletion and dual control occurred at the level of transcription of anfA, which encodes a transcriptional activator specific for the alternative nitrogenase.Abstract:
The alternative nitrogenase of Rhodobacter capsulatus is expressed only under conditions of nitrogen and molybdenum depletion. The analysis of anfA-lacZ fusions demonstrated that this dual control occurred at the level of transcription of anfA, which encodes a transcriptional activator specific for the alternative nitrogenase. The anfA promoter was found to be activated under nitrogen-limiting conditions by NtrC in a sigma54-independent manner. In addition, anfA transcription was repressed by traces of molybdenum. This molybdenum-dependent repression of anfA was released in R. capsulatus mutants carrying either lesions in the high-affinity molybdenum uptake system (modABCD) or a double deletion of mopA and mopB, two genes encoding molybdenum-pterin-binding proteins. The expression of the molybdenum transport system itself was shown to be negatively regulated by molybdenum and, unexpectedly, to be also regulated by NtrC. This finding is in line with the presence of two tandemly arranged DNA motifs located in front of the R. capsulatus mopA-modABCD operon, which are homologous to R. capsulatus NtrC binding sites. Mapping of the transcriptional initiation sites of mopA and anfA revealed promoter sequences exhibiting significant homology to each other but no homology to known prokaryotic promoters. In addition, a conserved DNA sequence of dyad symmetry overlapping the transcriptional initiation sites of mopA and anfA was found. Deletions within this element resulted in molybdenum-independent expression of anfA, indicating that this DNA sequence may be the target of MopA/MopB-mediated repression.read more
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Functional Genomic Analysis of Three Nitrogenase Isozymes in the Photosynthetic Bacterium Rhodopseudomonas palustris
Yasuhiro Oda,Sudip K. Samanta,Federico E. Rey,Federico E. Rey,Liyou Wu,Xiudan Liu,Xiudan Liu,Tingfen Yan,Jizhong Zhou,Caroline S. Harwood +9 more
TL;DR: Genes for nitrogen acquisition were expressed at particularly high levels during alternative nitrogenase-dependent growth and raises the possibility that fixed nitrogen availability may be the primary signal that controls the synthesis of the V and Fe nitrogenases.
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Molybdate transport and regulation in bacteria
TL;DR: Molybdate transport is tightly coupled to utilization in E. coli and Klebsiella pneumoniae, while other dinitrogen-fixing organisms appear to have a molybdenum storage protein and in all organisms studied so far, molyBdate transport genes are regulated by a repressor protein, ModE.
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Global Nitrogen Cycle: Critical Enzymes, Organisms, and Processes for Nitrogen Budgets and Dynamics
TL;DR: Evidence is summarized indicating that the simultaneous roles of N as a required biomass constituent and an environmental redox intermediate lead to stabilizing feedbacks that tend to blunt the impact of N cycle perturbations at larger spatiotemporal scales, particularly in marine systems.
Journal ArticleDOI
Role of GlnB and GlnK in ammonium control of both nitrogenase systems in the phototrophic bacterium Rhodobacter capsulatus.
Thomas Drepper,Silke Groß,Alexander F. Yakunin,Patrick C. Hallenbeck,Bernd Masepohl,Werner Klipp +5 more
TL;DR: Mutational analysis revealed that both P(II)-like proteins are involved in the ammonium regulation of the two nitrogenase systems, resulting in the synthesis of active molybdenum nitrogenase even in the presence of high concentrations of ammonium.
Journal ArticleDOI
Xanthine dehydrogenase from the phototrophic purple bacterium Rhodobacter capsulatus is more similar to its eukaryotic counterparts than to prokaryotic molybdenum enzymes.
Silke Leimkühler,Monika Kern,Peter S. Solomon,Alastair G. McEwan,Günter Schwarz,Ralf R. Mendel,Werner Klipp +6 more
TL;DR: Fourteen Rhodobacter capsulatus mutants unable to grow with xanthine as sole nitrogen source were isolated by random Tn5 mutagenesis and revealed a higher degree of similarity to eukaryotic x anthine dehydrogenases than to the xanthin dehydrogenase‐related aldehyde oxidoreductase from Desulphovibrio gigas.
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