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Biochemical studies on Francisella tularensis RelA in (p)ppGpp biosynthesis

Biochemical studies on Francisella tularensis RelA in (p)ppGpp biosynthesis
Biochemical studies on Francisella tularensis RelA in (p)ppGpp biosynthesis
The bacterial stringent response is induced by nutrient deprivation and is mediated by enzymes of the RSH (RelA/SpoT homologue; RelA, (p)ppGpp synthetase I; SpoT, (p)ppGpp synthetase II) superfamily that control concentrations of the 'alarmones' (p)ppGpp (guanosine penta- or tetra-phosphate). This regulatory pathway is present in the vast majority of pathogens and has been proposed as a potential anti-bacterial target. Current understanding of RelA-mediated responses is based on biochemical studies using Escherichia coli as a model. In comparison, the Francisella tularensis RelA sequence contains a truncated regulatory C-terminal region and an unusual synthetase motif (EXSD). Biochemical analysis of F. tularensis RelA showed the similarities and differences of this enzyme compared with the model RelA from Escherichia coli. Purification of the enzyme yielded a stable dimer capable of reaching concentrations of 10 mg/ml. In contrast with other enzymes from the RelA/SpoT homologue superfamily, activity assays with F. tularensis RelA demonstrate a high degree of specificity for GTP as a pyrophosphate acceptor, with no measurable turnover for GDP. Steady state kinetic analysis of F. tularensis RelA gave saturation activity curves that best fitted a sigmoidal function. This kinetic profile can result from allosteric regulation and further measurements with potential allosteric regulators demonstrated activation by ppGpp (5',3'-dibisphosphate guanosine) with an EC50 of 60±1.9 ?M. Activation of F. tularensis RelA by stalled ribosomal complexes formed with ribosomes purified from E. coli MRE600 was observed, but interestingly, significantly weaker activation with ribosomes isolated from Francisella philomiragia.
0144-8463
1-13
Wilkinson, Rachael C.
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Batten, Laura E.
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Wells, Neil J.
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Oyston, Petra C.F.
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Roach, Peter L.
ca94060c-4443-482b-af3e-979243488ba9
Wilkinson, Rachael C.
e9651d4c-cebf-409d-ab9a-a208a2812489
Batten, Laura E.
5ad00360-5a0c-426c-bbf4-f274a25d7218
Wells, Neil J.
86312185-007b-495b-86da-4e2e5b9b8025
Oyston, Petra C.F.
bba5dae5-b0ee-4733-b6bd-05866be64793
Roach, Peter L.
ca94060c-4443-482b-af3e-979243488ba9

Wilkinson, Rachael C., Batten, Laura E., Wells, Neil J., Oyston, Petra C.F. and Roach, Peter L. (2015) Biochemical studies on Francisella tularensis RelA in (p)ppGpp biosynthesis. Bioscience Reports, 35 (6), 1-13. (doi:10.1042/BSR20150229). (PMID:26450927)

Record type: Article

Abstract

The bacterial stringent response is induced by nutrient deprivation and is mediated by enzymes of the RSH (RelA/SpoT homologue; RelA, (p)ppGpp synthetase I; SpoT, (p)ppGpp synthetase II) superfamily that control concentrations of the 'alarmones' (p)ppGpp (guanosine penta- or tetra-phosphate). This regulatory pathway is present in the vast majority of pathogens and has been proposed as a potential anti-bacterial target. Current understanding of RelA-mediated responses is based on biochemical studies using Escherichia coli as a model. In comparison, the Francisella tularensis RelA sequence contains a truncated regulatory C-terminal region and an unusual synthetase motif (EXSD). Biochemical analysis of F. tularensis RelA showed the similarities and differences of this enzyme compared with the model RelA from Escherichia coli. Purification of the enzyme yielded a stable dimer capable of reaching concentrations of 10 mg/ml. In contrast with other enzymes from the RelA/SpoT homologue superfamily, activity assays with F. tularensis RelA demonstrate a high degree of specificity for GTP as a pyrophosphate acceptor, with no measurable turnover for GDP. Steady state kinetic analysis of F. tularensis RelA gave saturation activity curves that best fitted a sigmoidal function. This kinetic profile can result from allosteric regulation and further measurements with potential allosteric regulators demonstrated activation by ppGpp (5',3'-dibisphosphate guanosine) with an EC50 of 60±1.9 ?M. Activation of F. tularensis RelA by stalled ribosomal complexes formed with ribosomes purified from E. coli MRE600 was observed, but interestingly, significantly weaker activation with ribosomes isolated from Francisella philomiragia.

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Accepted/In Press date: 8 October 2015
Published date: 26 November 2015

Identifiers

Local EPrints ID: 386183
URI: http://eprints.soton.ac.uk/id/eprint/386183
DOI: doi:10.1042/BSR20150229
ISSN: 0144-8463
PURE UUID: 3a08463d-4071-4410-a358-6e01c189908d
ORCID for Neil J. Wells: ORCID iD orcid.org/0000-0002-4607-5791
ORCID for Peter L. Roach: ORCID iD orcid.org/0000-0001-9880-2877

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Date deposited: 20 Jan 2016 16:23
Last modified: 15 Mar 2024 02:58

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Contributors

Author: Rachael C. Wilkinson
Author: Laura E. Batten
Author: Neil J. Wells ORCID iD
Author: Petra C.F. Oyston
Author: Peter L. Roach ORCID iD

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