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      Adenylylation of mycobacterial Glnk (PII) protein is induced by nitrogen limitation

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          Summary

          PII proteins are pivotal regulators of nitrogen metabolism in most prokaryotes, controlling the activities of many targets, including nitrogen assimilation enzymes, two component regulatory systems and ammonium transport proteins. Escherichia coli contains two PII-like proteins, PII (product of glnB) and GlnK, both of which are uridylylated under nitrogen limitation at a conserved Tyrosine-51 residue by GlnD (a uridylyl transferase). PII-uridylylation in E. coli controls glutamine synthetase (GS) adenylylation by GlnE and mediates the NtrB/C transcriptomic response. Mycobacteria contain only one PII protein (GlnK) which in environmental Actinomycetales is adenylylated by GlnD under nitrogen limitation. However in mycobacteria, neither the type of GlnK (PII) covalent modification nor its precise role under nitrogen limitation is known. In this study, we used LC-Tandem MS to analyse the modification state of mycobacterial GlnK (PII), and demonstrate that during nitrogen limitation GlnK from both non-pathogenic Mycobacterium smegmatis and pathogenic Mycobacterium tuberculosis is adenylylated at the Tyrosine-51 residue; we also show that GlnD is the adenylyl transferase enzyme responsible. Further analysis shows that in contrast to E. coli, GlnK (PII) adenylylation in M. tuberculosis does not regulate GS adenylylation, nor does it mediate the transcriptomic response to nitrogen limitation.

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          Nitrogen assimilation and global regulation in Escherichia coli.

          Larry Reitzer (2002)
          Nitrogen limitation in Escherichia coli controls the expression of about 100 genes of the nitrogen regulated (Ntr) response, including the ammonia-assimilating glutamine synthetase. Low intracellular glutamine controls the Ntr response through several regulators, whose activities are modulated by a variety of metabolites. Ntr proteins assimilate ammonia, scavenge nitrogen-containing compounds, and appear to integrate ammonia assimilation with other aspects of metabolism, such as polyamine metabolism and glutamate synthesis. The leucine-responsive regulatory protein (Lrp) controls the synthesis of glutamate synthase, which controls the Ntr response, presumably through its effect on intracellular glutamine. Some Ntr proteins inhibit the expression of some Lrp-activated genes. Guanosine tetraphosphate appears to control Lrp synthesis. In summary, a network of interacting global regulators that senses different aspects of metabolism integrates nitrogen assimilation with other metabolic processes.
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            Nitrogen regulation in bacteria and archaea.

            Jeremy Dodsworth, David Leigh (2006)
            A wide range of Bacteria and Archaea sense cellular 2-oxoglutarate (2OG) as an indicator of nitrogen limitation. 2OG sensor proteins are varied, but most of those studied belong to the PII superfamily. Within the PII superfamily, GlnB and GlnK represent a widespread family of homotrimeric proteins (GlnB-K) that bind and respond to 2OG and ATP. In some bacterial phyla, GlnB-K proteins are covalently modified, depending on enzymes that sense cellular glutamine as an indicator of nitrogen sufficiency. GlnB-K proteins are central clearing houses of nitrogen information and bind and modulate a variety of nitrogen assimilation regulators and enzymes. NifI(1) and NifI(2) comprise a second widespread family of PII proteins (NifI) that are heteromultimeric, respond to 2OG and ATP, and bind and regulate dinitrogenase in Euryarchaeota and many Bacteria.
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              Nitrogen control in bacteria.

              B Merrick, R Edwards (1995)
              Nitrogen metabolism in prokaryotes involves the coordinated expression of a large number of enzymes concerned with both utilization of extracellular nitrogen sources and intracellular biosynthesis of nitrogen-containing compounds. The control of this expression is determined by the availability of fixed nitrogen to the cell and is effected by complex regulatory networks involving regulation at both the transcriptional and posttranslational levels. While the most detailed studies to date have been carried out with enteric bacteria, there is a considerable body of evidence to show that the nitrogen regulation (ntr) systems described in the enterics extend to many other genera. Furthermore, as the range of bacteria in which the phenomenon of nitrogen control is examined is being extended, new regulatory mechanisms are also being discovered. In this review, we have attempted to summarize recent research in prokaryotic nitrogen control; to show the ubiquity of the ntr system, at least in gram-negative organisms; and to identify those areas and groups of organisms about which there is much still to learn.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Tuberculosis (Edinb)
                Journal ID (iso-abbrev): Tuberculosis (Edinb)
                Title: Tuberculosis (Edinburgh, Scotland)
                Publisher: Churchill Livingstone
                ISSN (Print): 1472-9792
                ISSN (Electronic): 1873-281X
                Publication date PMC-release: 1 March 2013
                Publication date (Print): March 2013
                Volume: 93
                Issue: 2
                Pages: 198-206
                Affiliations
                [a ]MRC Centre for Molecular Bacteriology and Infection, Imperial College London, Exhibition Road, South Kensington, London SW7 2AZ, UK
                [b ]Department of Life Sciences, Imperial College London, Exhibition Road, South Kensington, London SW7 2AZ, UK
                [c ]Centre for Integrative Systems Biology and Bioinformatics, Imperial College London, Exhibition Road, South Kensington, London SW7 2AZ, UK
                Author notes
                []Corresponding author. MRC Centre for Molecular Bacteriology and Infection, Imperial College London, Exhibition Road, South Kensington, London SW7 2AZ, UK. b.robertson@ 123456imperial.ac.uk
                Article
                Publisher ID: YTUBE1057
                DOI: 10.1016/j.tube.2012.12.003
                PMC ID: 3612183
                PubMed ID: 23352854
                SO-VID: f326891c-fc92-47b7-a37d-0c5bcf6ef1c9
                Copyright © © 2013 Elsevier Ltd.
                License:

                This document may be redistributed and reused, subject to certain conditions.

                History
                Date received : 2 November 2012
                Date revision received : 17 December 2012
                Date accepted : 22 December 2012
                Categories
                Subject: Molecular Aspects

                ScienceOpen disciplines: Respiratory medicine
                Keywords: mycobacteria,nitrogen stress response,pii protein family,post-translational modification
                Data availability:
                ScienceOpen disciplines: Respiratory medicine
                Keywords: mycobacteria, nitrogen stress response, pii protein family, post-translational modification

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