Absence of ppGpp Leads to Increased Mobilization of Intermediately Accumulated Poly(3-Hydroxybutyrate) in Ralstonia eutropha H16

In this study, we constructed a set of H16 strains with single, double, or triple deletions of the (p)ppGpp synthase/hydrolase ( ), (p)ppGpp synthase ( ), and/or polyhydroxybutyrate (PHB) depolymerase ( or ) gene, and we determined the impact on the levels of (p)ppGpp and on accumulated PHB. Mutants...

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Published in:Applied and environmental microbiology 2017-07, Vol.83 (13)
Main Authors: Juengert, Janina R, Borisova, Marina, Mayer, Christoph, Wolz, Christiane, Brigham, Christopher J, Sinskey, Anthony J, Jendrossek, Dieter
Format: Article
Language:English
Subjects:
Amino acids
Bacteria
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Cupriavidus necator - enzymology
Cupriavidus necator - genetics
Cupriavidus necator - metabolism
Depolymerization
Efficiency
Experiments
Gene expression
Genetics and Molecular Biology
Growth conditions
Guanosine Triphosphate - metabolism
Hydrolase
Hydroxybutyrates - metabolism
Mutants
Polyesters - metabolism
Polyhydroxybutyrate
Polyhydroxybutyric acid
Polymerization
Ralstonia eutropha
Stringent response
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Summary:In this study, we constructed a set of H16 strains with single, double, or triple deletions of the (p)ppGpp synthase/hydrolase ( ), (p)ppGpp synthase ( ), and/or polyhydroxybutyrate (PHB) depolymerase ( or ) gene, and we determined the impact on the levels of (p)ppGpp and on accumulated PHB. Mutants with deletions of both the and genes were unable to synthesize detectable amounts of (p)ppGpp and accumulated only minor amounts of PHB, due to PhaZa1-mediated depolymerization of PHB. In contrast, unusually high levels of PHB were found in strains in which the (p)ppGpp concentration was increased by the overexpression of (p)ppGpp synthase (SpoT2) and the absence of (p)ppGpp hydrolase. Determination of (p)ppGpp levels in wild-type under different growth conditions and induction of the stringent response by amino acid analogs showed that the concentrations of (p)ppGpp during the growth phase determine the amount of PHB remaining in later growth phases by influencing the efficiency of the PHB mobilization system in stationary growth. The data reported for a previously constructed Δ strain (C. J. Brigham, D. R. Speth, C. Rha, and A. J. Sinskey, Appl Environ Microbiol 78:8033-8044, 2012, https://doi.org/10.1128/AEM.01693-12) were identified as due to an experimental error in strain construction, and our results are in contrast to the previous indication that the gene product is essential for PHB accumulation in Polyhydroxybutyrate (PHB) is an important intracellular carbon and energy storage compound in many prokaryotes and helps cells survive periods of starvation and other stress conditions. Research activities in several laboratories over the past 3 decades have shown that both PHB synthase and PHB depolymerase are constitutively expressed in most PHB-accumulating bacteria, such as This implies that PHB synthase and depolymerase activities must be well regulated in order to avoid a futile cycle of simultaneous PHB synthesis and PHB degradation (mobilization). Previous reports suggested that the stringent response in and is involved in the regulation of PHB metabolism. However, the levels of (p)ppGpp and the influence of those levels on PHB accumulation and PHB mobilization have not yet been determined for any PHB-accumulating species. In this study, we optimized a (p)ppGpp extraction procedure and a high-performance liquid chromatography-mass spectrometry (HPLC-MS)-based detection method for the quantification of (p)ppGpp in This enabled us to study the relation
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.00755-17