Oxidative Stress in
 Synechococcus
 sp
 .
 Strain PCC 7942: Various Mechanisms for H
 2
 O
 2
 Detoxification with Different Physiological Roles

Perelman, Alexander; Uzan, Avraham; Hacohen, Dalia; Schwarz, Rakefet

doi:10.1128/jb.185.12.3654-3660.2003

Cited by 61 publications

(49 citation statements)

References 37 publications

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“…One of the proteins induced under general stress was identified as a homologue of thioredoxin peroxidase (also designated peroxiredoxin) (Aldehni et al, 2003). This enzyme was shown to be essential for growth under high photon flux (Perelman et al, 2003). Induction of this protein during both sulfur and nitrogen starvation suggests that the trigger for expression may be oxidative stress, which occurs subsequent to nutrient starvation conditions.…”

Section: General Acclimation Responsesmentioning

confidence: 99%

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

2005

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Cyanobacteria are equipped with numerous mechanisms that allow them to survive under conditions of nutrient starvation, some of which are unique to these organisms. This review surveys the molecular mechanisms underlying acclimation responses to nitrogen and phosphorus deprivation, with an emphasis on non-diazotrophic freshwater cyanobacteria. As documented for other micro-organisms, nutrient limitation of cyanobacteria elicits both general and specific responses. The general responses occur under any starvation condition and are the result of the stresses imposed by arrested anabolism. In contrast, the specific responses are acclimation processes that occur as a result of limitation for a particular nutrient; they lead to modification of metabolic and physiological routes to compensate for the restriction. First, the general acclimation processes are discussed, with an emphasis on modifications of the photosynthetic apparatus. The molecular mechanisms underlying specific responses to phosphorus and nitrogen-limitation are then outlined, and finally the cross-talk between pathways modulating specific and general responses is described.

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Section: General Acclimation Responsesmentioning

confidence: 99%

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

2005

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“…5D) suggest that photosynthetically generated reactive oxygen species (ROS) may act as a destructive agent that drives ΔrpaA LD lethality. S. elongatus maintains a strict cellular redox balance and controls ROS using multiple systems, including modulation of phycobilisome abundance, glutathione redox control, and enzymatic ROS scavenging (46,47). Glutathione biosynthesis is particularly important for modulating redox state and counteracting ROS in cyanobacteria (46,48,49).…”

Section: Darkness Initiates Pigmentation Changes and Rapid Cell Deathmentioning

confidence: 99%

Redox crisis underlies conditional light–dark lethality in cyanobacterial mutants that lack the circadian regulator, RpaA

Diamond

Rubin

Shultzaberger

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Cyanobacteria evolved a robust circadian clock, which has a profound influence on fitness and metabolism under daily lightdark (LD) cycles. In the model cyanobacterium Synechococcus elongatus PCC 7942, a functional clock is not required for diurnal growth, but mutants defective for the response regulator that mediates transcriptional rhythms in the wild-type, regulator of phycobilisome association A (RpaA), cannot be cultured under LD conditions. We found that rpaA-null mutants are inviable after several hours in the dark and compared the metabolomes of wild-type and rpaA-null strains to identify the source of lethality. Here, we show that the wild-type metabolome is very stable throughout the night, and this stability is lost in the absence of RpaA. Additionally, an rpaA mutant accumulates excessive reactive oxygen species (ROS) during the day and is unable to clear it during the night. The rpaA-null metabolome indicates that these cells are reductant-starved in the dark, likely because enzymes of the primary nighttime NADPH-producing pathway are direct targets of RpaA. Because NADPH is required for processes that detoxify ROS, conditional LD lethality likely results from inability of the mutant to activate reductant-requiring pathways that detoxify ROS when photosynthesis is not active. We identified second-site mutations and growth conditions that suppress LD lethality in the mutant background that support these conclusions. These results provide a mechanistic explanation as to why rpaA-null mutants die in the dark, further connect the clock to metabolism under diurnal growth, and indicate that RpaA likely has important unidentified functions during the day.C yanobacteria are both key agents of global carbon and nitrogen cycles and promising platforms for renewable chemicals, fuels, and nutraceuticals (1-3). Understanding the control mechanisms that govern the flow of carbon and nitrogen through these organisms is crucial for predicting their behavior in natural environments as well as for improving engineering strategies. Although the basic pathways for carbon and nitrogen metabolism, and their regulation, are well understood in heterotrophic bacteria, cyanobacteria exhibit important deviations in these core metabolic pathways (4-7). Additionally, metabolic control mechanisms in cyanobacteria evolved to be compatible with photoautotrophic metabolism and the dramatic shifts that are imposed on those pathways by predictable daily light-dark (LD) cycles. Examples include enzymatic activity that responds to light-dependent cellular redox changes (8-11); the preference for NADPH, the reductant produced by the photochemical reactions, over NADH by many biosynthetic enzymes (12, 13); and a circadian clock that drives 24-h transcriptional rhythms in most genes (14-16).A daily LD cycle presents a strong metabolic driver for the photosynthetic cyanobacteria, but a circadian clock also imposes daily cycles in transcription and redox regulatory systems (17, 18). Circadian measurements historically have been performed in...

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“…Cyanobacteria including Synechococcus spp., are known to be resistant to UV irradiation and oxygenic stress because they have to eliminate excess peroxide generated from photosynthesis (Latifi et al, 2009, Perelman et al, 2003. In a previous study, marine microorganisms such as cyanobacteria were shown to be transported by a Kosa event and comprised 20% of clone libraries obtained from air samples collected from Europe regions (Polymenakou at al.…”

Section: Cyanobacteriamentioning

confidence: 99%

Variations in the structure of airborne bacterial communities in a downwind area during an Asian dust (Kosa) event

Maki¹,

Puspitasari²,

Hara³

et al. 2014

Science of The Total Environment

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Asian dust (Kosa) events transport airborne microorganisms that significantly impact biological ecosystems, human health, and ice-cloud formation in downwind areas.However, the composition and population dynamics of airborne bacteria have rarely been investigated in downwind areas during Kosa events. In this study, air samplings were sequentially performed at the top of a 10-m high building within the Kosa event arrival area (Kanazawa city, Japan) from May 1 to May 7, 2011, during a Kosa event.The particle concentrations of bacterial cells and mineral particles was ten-fold higher during the Kosa event than on non-Kosa event days. A 16S ribosomal DNA clone library prepared from the air samples primarily contained sequences from three phyla:Cyanobacteria, Firmicutes, and Alphaproteobacteria. The clones from Cyanobacteria were mainly from a marine type of Synechococcus species that was dominant during the first phase of the Kosa event and was continuously detected throughout the Kosa event.The clones from Alphaproteobacteria were mainly detected at the initial and final periods of the Kosa event, and phylogenetic analysis showed that their sequences clustered with those from a marine bacterial clade (the SAR clade) and Sphingomonas spp. During the middle of the Kosa event, the Firmicutes species Bacillus subtilis and Bacillus pumilus were predominant; these species are known to be predominat in the atmosphere above the Chinese desert, which is the source of the dust during Kosa events. The clones obtained after the Kosa event had finished were mainly from Bacillus megaterium, which is thought to originate from local terrestrial areas. Our results suggest that airborne bacterial communities at the ground level in areas affected 2 by Kosa events change their species compositions during a Kosa event toward those containing terrestrial and pelagic bacteria transported from the Sea of Japan and the continental area of China by the Kosa event.

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Oxidative Stress in Synechococcus sp . Strain PCC 7942: Various Mechanisms for H ₂ O ₂ Detoxification with Different Physiological Roles

Cited by 61 publications

References 37 publications

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

Redox crisis underlies conditional light–dark lethality in cyanobacterial mutants that lack the circadian regulator, RpaA

Variations in the structure of airborne bacterial communities in a downwind area during an Asian dust (Kosa) event

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Oxidative Stress in Synechococcus sp . Strain PCC 7942: Various Mechanisms for H 2 O 2 Detoxification with Different Physiological Roles

Cited by 61 publications

References 37 publications

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

Acclimation of unicellular cyanobacteria to macronutrient deficiency: emergence of a complex network of cellular responses

Redox crisis underlies conditional light–dark lethality in cyanobacterial mutants that lack the circadian regulator, RpaA

Variations in the structure of airborne bacterial communities in a downwind area during an Asian dust (Kosa) event

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Oxidative Stress in Synechococcus sp . Strain PCC 7942: Various Mechanisms for H ₂ O ₂ Detoxification with Different Physiological Roles