Anaerobic nitrate respiration in the aerobe <i>Streptomyces coelicolor</i> A3(2): helping maintain a proton gradient during dormancy

Sawers, R. Gary; Fischer, Marco; Falke, Dörte

doi:10.1111/1758-2229.12781

Cited by 12 publications

(15 citation statements)

References 41 publications

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“…Streptomyces life cycle involves formation of a dense vegetative mycelium which may locally experience hypoxia (Sawers et al, 2019). An early, compartmentalized mycelium (MI) is transformed to a multinucleated substrate mycelium (MII without the hydrophobic layer) which starts specialized metabolite synthesis and further develops into aerial mycelium (MII with a hydrophobic layer) and into spore chains (Yagüe et al, 2013).…”

Section: Cpko and Cpkn Activate Coelimycin Biosynthetic Cluster In A Cascade Manner And Are Both Directly Controlled By The Butanolide Symentioning

confidence: 99%

Coelimycin Synthesis Activatory Proteins Are Key Regulators of Specialized Metabolism and Precursor Flux in Streptomyces coelicolor A3(2)

et al. 2021

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Many microbial specialized metabolites are industrially relevant agents but also serve as signaling molecules in intra-species and even inter-kingdom interactions. In the antibiotic-producing Streptomyces, members of the SARP (Streptomyces antibiotic regulatory proteins) family of regulators are often encoded within biosynthetic gene clusters and serve as their direct activators. Coelimycin is the earliest, colored specialized metabolite synthesized in the life cycle of the model organism Streptomyces coelicolor A3(2). Deletion of its two SARP activators cpkO and cpkN abolished coelimycin synthesis and resulted in dramatic changes in the production of the later, stationary-phase antibiotics. The underlying mechanisms of these phenotypes were deregulation of precursor flux and quorum sensing, as shown by label-free, bottom-up shotgun proteomics. Detailed profiling of promoter activities demonstrated that CpkO is the upper-level cluster activator that induces CpkN, while CpkN activates type II thioesterase ScoT, necessary for coelimycin synthesis. What is more, we show that cpkN is regulated by quorum sensing gamma-butyrolactone receptor ScbR.

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Section: Cpko and Cpkn Activate Coelimycin Biosynthetic Cluster In A Cascade Manner And Are Both Directly Controlled By The Butanolide Symentioning

confidence: 99%

Coelimycin Synthesis Activatory Proteins Are Key Regulators of Specialized Metabolism and Precursor Flux in Streptomyces coelicolor A3(2)

et al. 2021

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“…coelicolor, where nitrate reduction can occur simultaneously with oxygen (83). While it is unclear why nitrate reduction is insufficient to support anaerobic growth of S. coelicolor, it has been inferred that nitrate reduction contributes to charging the PMF and/or redox-balancing the cytosol in the absence of oxygen to contribute to cell survival (85). For a detailed summary and analysis of denitrification in S. coelicolor, please see the recent review by Sawers et al (85).…”

Section: Anaerobic Survival Inmentioning

confidence: 99%

The Potential for Redox-Active Metabolites To Enhance or Unlock Anaerobic Survival Metabolisms in Aerobes

Ciemniecki

Newman

2020

J Bacteriol

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Classifying microorganisms as “obligate” aerobes has colloquially implied death without air, leading to the erroneous assumption that, without oxygen, they are unable to survive. However, over the past few decades, more than a few obligate aerobes have been found to possess anaerobic energy conservation strategies that sustain metabolic activity in the absence of growth or at very low growth rates. Similarly, studies emphasizing the aerobic prowess of certain facultative aerobes have sometimes led to underrecognition of their anaerobic capabilities. Yet an inescapable consequence of the affinity both obligate and facultative aerobes have for oxygen is that the metabolism of these organisms may drive this substrate to scarcity, making anoxic survival an essential skill. To illustrate this, we highlight the importance of anaerobic survival strategies for Pseudomonas aeruginosa and Streptomyces coelicolor, representative facultative and obligate aerobes, respectively. Included among these strategies, we describe a role for redox-active secondary metabolites (RAMs), such as phenazines made by P. aeruginosa, in enhancing substrate-level phosphorylation. Importantly, RAMs are made by diverse bacteria, often during stationary phase in the absence of oxygen, and can sustain anoxic survival. We present a hypothesis for how RAMs may enhance or even unlock energy conservation pathways that facilitate the anaerobic survival of both RAM producers and nonproducers.

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“…In the nitrite ammonification processes, nitrite was converted to ammonia through the reaction equations 1-4. 51 Nitrate respiration processes proceed by using nitrate as an electron acceptor at low oxygen concentrations resulting in the production of dinitrogen. The absence of the microbes with ammonia oxidation and nitrite oxidation functions confirms that these microbes dwelled in anaerobic conditions, for example, in the gut.…”

Section: Circulating Microbiota Reveals a Novel Underlying Mechanism In Hypertensionmentioning

confidence: 99%

Circulating metabolomics profiling reveals novel pathways associated with cognitive decline in patients with hypertension

Huang

Zheng

Tan

et al. 2020

Ther Adv Neurol Disord

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Background: Hypertension is a significant risk factor for cardiovascular disease, and it is associated with dementia, including Alzheimer’s disease (AD). Although it may be correlated with AD in terms of symptoms, the link between hypertension and AD pathological biomarkers, and the potential underlying mechanism of hypertension with cognitive decline, are still not well understood. Methods: The Mini-Mental State Examination (MMSE) scores were used to evaluate cognitive function. Enzyme-linked immunosorbent assays were used to examine plasma amyloid-beta (Aβ)40, Aβ42, and tau concentration in hypertensive patients. Metabolomics and metagenomics were performed to identify the significantly changed circulating metabolites and microbiota between healthy individuals and hypertensive patients. Pearson’s correlation was used to examine the association between cognitive indicators and differential metabolites. Results: We found significantly decreased MMSE scores, elevated plasma Aβ40, and decreased Aβ42/Aβ40 ratio in hypertensive patients, which are critically associated with AD pathology. Based on metabolomics, we found that significantly altered metabolites in the plasma of hypertensive patients were enriched in the benzoate degradation and phenylpropanoid biosynthesis pathways, and they were also correlated with changes in MMSE scores and Aβ42/Aβ40 ratio. In addition, metabolomics signaling pathway analysis suggested that microbial metabolism was altered in hypertensive patients. We also identified altered blood microbiota in hypertensive patients compared with the controls. Conclusions: Our study provides a novel metabolic and microbial mechanism, which may underlie the cognitive impairment in hypertensive patients.

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Anaerobic nitrate respiration in the aerobe Streptomyces coelicolor A3(2): helping maintain a proton gradient during dormancy

Cited by 12 publications

References 41 publications

Coelimycin Synthesis Activatory Proteins Are Key Regulators of Specialized Metabolism and Precursor Flux in Streptomyces coelicolor A3(2)

Coelimycin Synthesis Activatory Proteins Are Key Regulators of Specialized Metabolism and Precursor Flux in Streptomyces coelicolor A3(2)

The Potential for Redox-Active Metabolites To Enhance or Unlock Anaerobic Survival Metabolisms in Aerobes

Circulating metabolomics profiling reveals novel pathways associated with cognitive decline in patients with hypertension

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