Oscillating Electric Field Measures the Rotation Rate in a Native Rotary Enzyme

Ferencz, Csilla-Maria; Petrovszki, Pál; Dér, András; Sebők-Nagy, Krisztina; Kóta, Zoltán; Páli, Tibor

doi:10.1038/srep45309

Cited by 17 publications

(22 citation statements)

References 32 publications

(95 reference statements)

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“…Also, from the studies performed by the dielectric spectroscopy technique [50]- [52], it resulted that the stimulation takes place only at certain representative ("sensitive") frequencies. These results are in good agreement with the results of the in-depth studies reported [53].…”

Section: Stimulation Of Microbial Activity By Elf Electromagnetic Fieldsupporting

confidence: 92%

Electromagnetic Stimulation of Microbial Activity in Wastewater Treatment: Experimental Equipment

Tokos¹,

Jipa²,

Marinescu³

et al. 2021

EEA

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A system for electromagnetic stimulation of microorganisms' activity from the active sludge of wastewater treatment plants was developed and preliminarily tested. Through electrochemical, gravimetric, XRD, and SEM-EDAX measurements, it was found that austenitic stainless steel 18/8 presents good stability to AC polarization in wastewater. Preliminary determinations performed through the dielectric spectroscopy technique indicated that the activated sludge's microbial flora is sensitive to 50 ± 0.1 Hz. The stimulation system developed and put into service on the biological aerobic treatment bioreactor consists of a pair of polarizing electrodes, made of perforated 18/8 stainless steel sheet, electrically connected to a power supply, which at 50 Hz is capable of debiting adjustable voltages between 5 and 24 Vrms at a maximum current of 5 A. Preliminary in situ measurements showed that following the stimulation of the microorganisms from the sludge suspension, as a result of an applied electromagnetic field of approximately 4.5 V/m at 50 Hz, the metabolism of residues is accelerated substantially (organic residues determined by oxygen demand decrease by about 42 %, nitrogen/ammonium content by about 44% and total phosphorus by about 50 % which results in an increase in free oxygen concentration by about 71 %).

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Section: Stimulation Of Microbial Activity By Elf Electromagnetic Fieldsupporting

confidence: 92%

Electromagnetic Stimulation of Microbial Activity in Wastewater Treatment: Experimental Equipment

Tokos¹,

Jipa²,

Marinescu³

et al. 2021

EEA

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“…The results of recent experimental investigations [41]- [44] suggest that the microbiological activity can also be stimulated by exposing biomass to an extremely low-frequency electromagnetic field (ELF). In this context, we propose the experimental development and implementation of a system to spur the biological treatment stages by exposing the biomass in the ELF field at a specific frequency, according to [41], [42], [54] at the wastewater treatment plant in Romuli.…”

Section: Specific Energy Consumption: Case Analysismentioning

confidence: 99%

The Energy Efficiency of Domestic Wastewater Treatment Processes: Case Analysis

Bartha¹,

Jipa²,

Ignat³

et al. 2020

EEA

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“…It is noted that by overlapping an external EMF on the endogenous electric field of biological systems, the field resulting from the vectorial composition of these can influence (favourably or unfavourably) the cellular transport processes of molecules and electrons and, implicitly, the behaviour of the organism. In this context, the effect of a transmembrane AC field in the 1 Hz -10 kHz range on the biochemical activity of a native yeast vacuolar proton-ATPase (V-ATPase) had been reported recently [58], where the externally applied field generally inhibited the enzyme's rotational activity, except for a region peaking around 86 Hz, at which frequency, the field was able to synchronize the steps of ion-pumping in individual enzymes via a hold-and-release mechanism. It has been experimentally found that the 50 Hz electric field stimulates the growth and reproduction (production of spores) of Aspergillus niger [15].…”

Section: Introductionmentioning

confidence: 99%

“…This kind of behaviour could be attributed to different transmembrane ion-transporting proteinse.g. V-ATPase proton pumps, whose rotational rate can be determined by synchronizing the ion-pumping steps of individual enzymes with a transmembrane AC field [58]. Figure 2 shows the evolution of tgδ as function of frequency in the 1-60 Hz range (extension from Figure 1).…”

mentioning

confidence: 99%

Dielectric spectroscopic evaluation in the extremely low frequency range of an Aspergillus niger culture

Lingvay¹,

Caramitu²,

Bors³

et al. 2019

Studia UBB Chemia

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By using the dielectric spectroscopy technique in the extremely low frequency (1-200Hz) range, dielectric loss tgδ was determined on both Aspergillus niger cultures in different growth stages and autoclaved biomass compared to the Czapex-Dox culture medium with sterile sucrose. Experimental results have shown that living and sterile matter samples have different dielectric characteristics. In sterile probes, the evolutionary functions of tgδ depending on frequency are continuous, specific to αrelaxation governed by DC electrical conductivity. In living matter samples, the function of dielectric losses tgδ, depending on frequency, show several discontinuities that indicate the existence of some processes in which, at those frequencies, the number of charge carriers from investigated living matter is changing. It has also been found that the package of active processes differs depending on the growth stage of Aspergillus niger.

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Oscillating Electric Field Measures the Rotation Rate in a Native Rotary Enzyme

Cited by 17 publications

References 32 publications

Electromagnetic Stimulation of Microbial Activity in Wastewater Treatment: Experimental Equipment

Electromagnetic Stimulation of Microbial Activity in Wastewater Treatment: Experimental Equipment

The Energy Efficiency of Domestic Wastewater Treatment Processes: Case Analysis

Dielectric spectroscopic evaluation in the extremely low frequency range of an Aspergillus niger culture

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