Characterization and potential mechanisms of highly antibiotic tolerant VBNC Escherichia coli induced by low level chlorination

Ye, Chengsong; Lin, Huirong; Zhang, Menglu; Chen, Sheng; Yu, Xin

doi:10.1038/s41598-020-58106-3

Cited by 45 publications

(24 citation statements)

References 59 publications

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“…[31]. It is important to ensure effective disinfection to keep the water safe and to prevent re-contamination [32,33]. Often, for reasons of low cost, chlorination is carried out.…”

Section: Resultsmentioning

confidence: 99%

Application of the Swimming Pool Backwash Water Recovery System with the Use of Filter Tubes

Studziński

Poćwiardowski

Osińska³

2021

Molecules

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During the operation of swimming pools, large losses of water from the backwash of swimming pool filters are observed. This water is often discharged into sewers or used to sprinkle sports grounds. The aim of the research was to design and build an installation for purification and recovery of backwash water (BWW). It consists of flocculation, pre-filtration, and ultrafiltration based on filter tubes and ozone disinfection. Backwash water treatment installation contributes to purification and improvement of water quality. The effectiveness of the removal of microbial contamination with the use of the system was over 99%. The high efficiency of removing physicochemical impurities was also achieved. Water turbidity was reduced from 96.9 NTU to 0.13 NTU. After using the system, the oxidability of water decreased from 6.26 mg O2∙dm−3 to 0.4 mg O2∙dm−3. When using the system, a reduction of total organic carbon by 80% was also noticed. After the treatment process, water meets the strict criteria and can be returned to the pool system of water as fresh water with parameters of supply water—directly to the overflow tank. It has been shown that up to 96% of water can be recovered with the technology. The cost comparison showed annual savings of over EUR 9000.

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“…[31]. It is important to ensure effective disinfection to keep the water safe and to prevent re-contamination [32,33]. Often, for reasons of low cost, chlorination is carried out.…”

Section: Resultsmentioning

confidence: 99%

Application of the Swimming Pool Backwash Water Recovery System with the Use of Filter Tubes

Studziński

Poćwiardowski

Osińska³

2021

Molecules

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“…Furthermore, many microorganisms, when subjected to stress may be present in drinking water in viable but noncultivable (VBNC) state (Ye et al 2020), where they cannot be grown on traditional culture media. Therefore, to evaluate the disinfection kinetics of novel compounds, alternative viability forms of waterborne microorganisms should be considered.…”

Section: Antimicrobial Properties Of Cnsmentioning

confidence: 99%

The effect of chitosan nanoparticles on Escherichia coli viability in drinking water disinfection

Denisova

Mežule

Juhna

2022

Water Practice and Technology

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Drinking water disinfection or inactivation of pathogenic microorganisms is an essential step to minimize infection risks and decrease the incidence of waterborne diseases. Recently, chitosan nanoparticles (CNs) have been highlighted as an antimicrobial agent for a wide range of applications due to its natural antimicrobial properties, and low or no toxicity risk for human health. In this study, we generated CNs from three different molecular weight (MW) chitosan (low, medium, high) at various concentrations (0.25, 0.5 and 2% (w/v)). After the CNs preparation and quality assessment, the antimicrobial activity was evaluated by measuring the log reduction of Gram-negative bacteria E. coli as a model-microorganism for faecal pollution. The results demonstrated that 0.25% of medium MW CNs are optimal for more than 99.99% reduction of cultivable E. coli and 97% inactivation of metabolically active E. coli. These results indicated that CNs were able to inhibit the growth of cultivable and metabolically active E. coli in tap water and demonstrated the potential use of CNs as an alternative antimicrobial agent in drinking water disinfection.

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“…However, there remain disagreements about the effect of alternative sigma factors on the VBNC status. Lin, Ye, Chen, Zhang, and Yu (2017) reported that the -Escalona et al, 2006;Jameelah, Dewanti-Hariyadi, and Nurjanah, 2018;Munro et al, 1995;Up Boaretti et al, 2003Desnues et al, 2003;Lin et al, 2017 Catalase, kata [oxidative stress defense] Down Abe et al, 2006;Noor, Murata, and Yamada, 2009;Smith & Oliver, 2006Up Xu et al, 2018 Superoxide dismutase (sod) [oxidative stress defense] Down Noor et al, 2009;Zhao et al, 2016Up Meng et al, 2015 Electron transfer flavoprotein [energy metabolism] Down Lai, Chen, Lin, Chang, and Wong, 2009;Meng et al, 2015;Zhao et al, 2016 Up Postnikova, Shao, Mock, Baker, andNemchinov, 2015;Zhao et al, 2016 Transcriptional activator [transcription] Down Postnikova et al, 2015;Zhao et al, 2016Up Xu et al, 2018 Cytochrome b561 [energy metabolism] Up Lai et al, 2009;Zhao et al, 2016Down Postnikova et al, 2015 Type III secretion protein SpaO [secretion] Up Meng et al, 2015;Ye et al, 2020;Zhao et al, 2016Down Postnikova et al, 2015 Cell wall biosynthesis proteins (murA, dacB) [cell wall biosynthesis] Down Asakura, Ishiwa, et al, 2007 Up Hung, Jane, and Polyphosphate kinase, (ppk) [energy metabolism] Up Gangaiah, Kassem, Liu, & Rajashekara, 2009;Kassem, Chandrashekhar, and Rajashekara, 2013 Heat shock proteins Hsp [stress response] Up Capozzi et al, 2016; Heme export pr...…”

Section: Genes and Proteins Associated With The Vbnc Statusmentioning

confidence: 99%

The diagnostic tools for viable but nonculturable pathogens in the food industry: Current status and future prospects

Rui

Liao

Zhao

et al. 2021

Comp Rev Food Sci Food Safe

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Viable but nonculturable (VBNC) microorganisms have been recognized as pathogenic contaminants in foods and environments. The failure of VBNC cells to form the visible colonies hinders the ability to use conventional media for their detection. Efficient and rapid detection of pathogens in the VBNC state is a prerequisite to ensure the food safety and public health. Despite their nonculturability, VBNC cells have distinct characteristics, such as morphology, metabolism, chemical composition, and gene and protein expression, that have been used as the basis for the development of abundant diagnostic tools. This review covers the current status and advances in various approaches for examining microorganisms in the VBNC state, including but not limited to the methodological aspects, advantages, and drawbacks of each technique. Existing methods, such as direct viable count, SYTO/PI dual staining, and propidium monoazide quantitative polymerase chain reaction (PCR), as well as some techniques with potential to be applied in the future, such as digital PCR, enhanced‐surface Raman spectroscopy, and impedance‐based techniques, are summarized in depth. Finally, future prospects for the one‐step detection of VBNC bacteria are proposed and discussed. We believe that this review can provide more optional methods for researchers and promote the development of rapid, accurate detecting methods, and for inspectors, the diagnostic tools can provide data to undertake risk analysis of VBNC cells.

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Characterization and potential mechanisms of highly antibiotic tolerant VBNC Escherichia coli induced by low level chlorination

Cited by 45 publications

References 59 publications

Application of the Swimming Pool Backwash Water Recovery System with the Use of Filter Tubes

Application of the Swimming Pool Backwash Water Recovery System with the Use of Filter Tubes

The effect of chitosan nanoparticles on Escherichia coli viability in drinking water disinfection

The diagnostic tools for viable but nonculturable pathogens in the food industry: Current status and future prospects

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