Polyhydroxyalkanoates are essential for maintenance of redox state in the Antarctic bacterium Pseudomonas sp. 14-3 during low temperature adaptation

Ayub, Nicolás Daniel; Tribelli, Paula María; López, Nancy I.

doi:10.1007/s00792-008-0197-z

Cited by 120 publications

(116 citation statements)

References 38 publications

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“…The genome of P. haloplanktis also reveals several insights into ROS protection such as deletion of ROS producing pathways, several occurrences of dioxygenases and the repair mechanisms of oxidized compounds (Medigue et al, 2005). Similar observations have been made in the genome and proteome of other psychrophilic microorganisms (Rabus et al, 2004;Medigue et al, 2005;Methe et al, 2005;Duchaud et al, 2007;Bakermans et al, 2007;Ayub et al, 2009;Piette et al, 2010), revealing a general constraint on these bacteria. However, we found that at 18 °C, another type of oxidative stress is induced by stimulation of metabolic activity.…”

Section: Discussionsupporting

confidence: 80%

“…On the other hand, the second group of proteins that displays the highest repression factors at 4 °C is represented by the oxidative stress-related proteins catalase (-6.5x), glutathione reductase (-8.1x) and peroxiredoxin (-15.7x). At first sight, this may be regarded as a conflicting result because conclusive evidences have indicated that psychrophiles are exposed to a permanent oxidative stress at low temperatures, which originates from improved dioxygen solubility and increased ROS stability (Rabus et al, 2004;Medigue et al, 2005;Methe et al, 2005;Duchaud et al, 2007;Bakermans et al, 2007;Ayub et al, 2009;Piette et al, 2010). In order to reconcile these apparent contradictions, it should be recalled that the general aerobic metabolism of the Antarctic bacterium is stimulated at 18 °C, also resulting in ROS production.…”

Section: Oxidative Stress-related Proteinsmentioning

confidence: 99%

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Life in the Cold: Proteomics of the Antarctic Bacterium Pseudoalteromonas haloplanktis

Piette

Struvay

Godin

et al. 2012

Proteomic Applications in Biology

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Section: Discussionsupporting

confidence: 80%

Section: Oxidative Stress-related Proteinsmentioning

confidence: 99%

Life in the Cold: Proteomics of the Antarctic Bacterium Pseudoalteromonas haloplanktis

Piette

Struvay

Godin

et al. 2012

Proteomic Applications in Biology

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“…Consequently, lipid peroxidation in the mutant strain was 25-fold higher after decrease of temperature. Hence, PHA metabolism controls the availability of the reducing equivalents NADH and NADPH, thus alleviating the oxidative stress caused by cold temperature, by supplying the reductive power necessary to subdue the oxidative stress induced by cold conditions via PHB degradation [89].…”

Section: Cryophilic [Psychrophilic] Pha Producersmentioning

confidence: 99%

Production of Polyhydroxyalkanoate (PHA) Biopolyesters by Extremophiles?

Koller¹

2017

MOJPS

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The article reviews the current state of knowledge of the production of polyhydroxyalkanoate (PHA) biopolyesters under extreme environmental conditions.Although PHA production by extremophiles is not realized yet at industrial scale, significant PHA accumulation under high salinity or extreme pH-or temperature conditions was reported for diverse representatives of the microbial domains of both Archaea and Bacteria. Several mechanisms were proposed to explain the mechanistic role of PHA and their monomers as microbial cell-and enzyme protective chaperons and the factors boosting PHA biosynthesis under environmental stress conditions. The potential of selected extremophile strains, isolated from extreme environments like glaciers, hot springs, saline brines, or from habitats highly polluted with heavy metals or solvents, for efficient future PHA production on an industrially relevant scale is assessed based on the basic data available in the scientific literature. The article reveals that, beside the needed optimization of other cost-decisive factors like inexpensive raw materials or efficient downstream processing, the application of extremophile production strains can drastically safe energy costs, are easily accessible towards long-term cultivation in chemostat processes, and therefore might pave the way towards cost-efficient PHA production, even combined with safe disposal of industrial waste streams. However, further challenges have still to be overcome in terms of strain improvement and process engineering aspects.

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“…This species shows high stress resistance and is able to synthesize large amounts of poly(3-hydroxybutyrate), the best-known member of a bacterial reserve polymers family known as polyhydroxyalkanoates (PHAs) (Ayub et al, 2004(Ayub et al, , 2009. PHAs are involved in bacterial survival under different stressful conditions (Ló pez et al, 1995;Kadouri et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Anr, the anaerobic global regulator, modulates the redox state and oxidative stress resistance in Pseudomonas extremaustralis

et al. 2013

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The role of Anr in oxidative stress resistance was investigated in Pseudomonas extremaustralis, a polyhydroxybutyrate-producing Antarctic bacterium. The absence of Anr caused increased sensitivity to hydrogen peroxide under low oxygen tension. This phenomenon was associated with a decrease in the redox ratio, higher oxygen consumption and higher reactive oxygen species production. Physiological responses of the mutant to the oxidized state included an increase in NADP(H) content, catalase activity and exopolysaccharide production. The wild-type strain showed a sharp decrease in the reduced thiol pool when exposed to hydrogen peroxide, not observed in the mutant strain. In silico analysis of the genome sequence of P. extremaustralis revealed putative Anr binding sites upstream from genes related to oxidative stress. Genes encoding several chaperones and cold shock proteins, a glutathione synthase, a sulfate transporter and a thiol peroxidase were identified as potential targets for Anr regulation. Our results suggest a novel role for Anr in oxidative stress resistance and in redox balance maintenance under conditions of restricted oxygen supply.

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Polyhydroxyalkanoates are essential for maintenance of redox state in the Antarctic bacterium Pseudomonas sp. 14-3 during low temperature adaptation

Cited by 120 publications

References 38 publications

Life in the Cold: Proteomics of the Antarctic Bacterium Pseudoalteromonas haloplanktis

Life in the Cold: Proteomics of the Antarctic Bacterium Pseudoalteromonas haloplanktis

Production of Polyhydroxyalkanoate (PHA) Biopolyesters by Extremophiles?

Anr, the anaerobic global regulator, modulates the redox state and oxidative stress resistance in Pseudomonas extremaustralis

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