Comparison of chronic low-dose effects of alpha- and beta-emitting radionuclides on marine bacteria

Rozhko, T.V.; Devyatlovskaya, A. N.; Kudryasheva, Nadezhda S

doi:10.2478/s11535-014-0331-0

Cited by 13 publications

(33 citation statements)

References 32 publications

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“…As follows from the previous section, luminous bacteria revealed complex responses to chronic effect of Am-241 and H-3 (Rozhko et al, 2007;Alexandrova et al, 2011;Selivanova et al, 2013Selivanova et al, , 2014Kudryasheva et al, 2014) (Figs. 1e3) in the range of radioactivities 1.0e6.7 kBq/L and 0.0002e200 MBq/L, respectively.…”

Section: On Molecular Mechanisms Of Radiation Hormesis and Toxicitymentioning

confidence: 52%

“…Effects of alpha-and beta-emitting radionuclides (Am-241, U-(235þ238), and H-3) on luminous marine bacteria Photobacterium phosphoreum were reported in a series of works (Rozhko et al, 2007(Rozhko et al, , 2008Alexandrova et al, 2010Alexandrova et al, , 2011Selivanova et al, 2013Selivanova et al, , 2014. The detailed investigation of the effects was conducted using tritium and Am-241 as examples.…”

Section: Effects Of Alpha-and Beta-emitting Radionuclides On Luminousmentioning

confidence: 99%

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Effect of low-dose ionizing radiation on luminous marine bacteria: radiation hormesis and toxicity

Kudryasheva

Rozhko

2015

Journal of Environmental Radioactivity

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Section: On Molecular Mechanisms Of Radiation Hormesis and Toxicitymentioning

confidence: 52%

Section: Effects Of Alpha-and Beta-emitting Radionuclides On Luminousmentioning

confidence: 99%

Effect of low-dose ionizing radiation on luminous marine bacteria: radiation hormesis and toxicity

Kudryasheva

Rozhko

2015

Journal of Environmental Radioactivity

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“…Min et al showed that DNA damage in bacterial cells was positively correlated with the dose of gamma radiation [15]. On the contrast, a few scientific researches proposed that the low-dose of radiation gave the stimulatory effect, increasing function and resistance of the cellular organism [16,17]. However, to date, this phenomenon has been controversy [18].…”

Section: Introductionmentioning

confidence: 99%

Effects of radon on soil microbial community and their growth

Lee

Park

Kim

2019

Environmental Engineering Research

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The aim of this study was to estimate the microbial metabolic activity of indigenous soil microbes under the radon exposure with different intensity and times in the secured laboratory radon chamber. For this purpose, the soil microbes were collected from radon-contaminated site located in the G county, Korea. Thereafter, their metabolic activity was determined after the radon exposure of varying radon concentrations of 185, 1,400 and 14,000 Bq/m 3 . The average depth variable concentrations of soil radon in the radon-contaminated site were 707, 860 and 1,185 Bq/m 3 from 0, 15, and 30 cm in deep, respectively. Simultaneously, the soil microbial culture was mainly composed of Bacillus sp., Brevibacillus sp., Lysinibacillus sp., and Paenibacillus sp. From the radon exposure test, higher or lower radiation intensities compared to the threshold level attributed the metabolic activity of mixed microbial consortium to be reduced, whereas the moderate radiation intensity (i.e. threshold level) induced it to the pinnacle point. It was decided that radon radiation could instigate the microbial metabolic activity depending on the radon levels while they were exposed, which could consequently address that the certain extent of threshold concentration present in the ecosystem relevant to microbial diversity and population density to be more proliferated.

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“…Three successive stages in bioluminescence response to ionizing radiation were demonstrated: (1) absence of effect (stress recognition), (2) activation (adaptive response), and (3) inhibition (suppression of the physiological function or radiation toxicity). The effects of alpha and beta emitting radionuclides were compared in (Selivanova et al, 2014); different effects were explained with the differences in the Reactive Oxygen Species (ROS) concentration and the efficiency of biochemical redox processes (Alexandrova et al, 2011;Selivanova et al, 2013). Low-dose effects of gamma radiation on luminous bacteria were studied in (Kudryasheva et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Is bacterial luminescence response to low-dose radiation associated with mutagenicity?

Rozhko

Guseynov

Guseynova

et al. 2017

Journal of Environmental Radioactivity

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Luminous marine bacteria are widely used as a bioassay with luminescence intensity being a physiological parameter tested. The purpose of the study was to determine whether bacterial genetic alteration is responsible for bioluminescence kinetics change under low-dose radiation exposure. Alpha-emitting radionuclide 241Am and betaemitting radionuclide 3H were used as sources of low-dose ionizing radiation. Changes of bioluminescence kinetics of Photobacterium Phosphoreum in solutions of 241Am(NO3)3, 7 kBq/L, and tritiated water, 100 MBq/L, were studied; bioluminescence kinetics stages (absence of effect, activation, and inhibition) were determined. Bacterial suspension was sampled at different stages of the bioluminescent kinetics; the doses accumulated by the samples did not exceed 1 Gy, being close to a tentative limit of a low-dose interval. Sequence analysis of 16S ribosomal RNA gene did not reveal a mutagenic effect of low-dose alpha and beta radiation. Previous results on bacterial DNA exposed to lowdose gamma radiation (0.25 Gy) were analyzed and compared to those for alpha and beta irradiation. A conclusion was made that DNA mutations are not associated with bacterial bioluminescence activation and inhibition under the applied conditions of low-dose alpha, beta, and gamma radioactive exposure. To view all the submission files, including those not included in the PDF, click on the manuscript title on your EVISE Homepage, then click 'Download zip file'. Abbreviations:ROS -Reactive Oxygen Species HTO -tritiated water ABSTRACTLuminous marine bacteria are widely used as a bioassay with luminescence intensity being a physiological parameter tested. The purpose of the study was to determine whether bacterial genetic alteration is responsible for bioluminescence kinetics change under low-dose radiation exposure. Alpha-emitting radionuclide 241 Am and betaemitting radionuclide 3 H were used as sources of low-dose ionizing radiation. Changes of bioluminescence kinetics of Photobacterium Phosphoreum in solutions of 241 Am(NO 3 ) 3 , 7 kBq/L, and tritiated water, 100 MBq/L, were studied; bioluminescence kinetics stages (absence of effect, activation, and inhibition) were determined. Bacterial suspension was sampled at different stages of the bioluminescent kinetics; the doses accumulated by the samples did not exceed 1Gy, being close to a tentative limit of a low-dose interval. Sequence analysis of 16S ribosomal RNA gene did not reveal a mutagenic effect of low-dose alpha and beta radiation. Previous results on bacterial DNA exposed to low-dose gamma radiation (0.25 Gy) were analyzed and compared to those for alpha and beta irradiation. A conclusion was made that DNA mutations are not associated with bacterial bioluminescence activation and inhibition under the applied conditions of low-dose alpha, beta, and gamma radioactive exposure.

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Comparison of chronic low-dose effects of alpha- and beta-emitting radionuclides on marine bacteria

Cited by 13 publications

References 32 publications

Effect of low-dose ionizing radiation on luminous marine bacteria: radiation hormesis and toxicity

Effect of low-dose ionizing radiation on luminous marine bacteria: radiation hormesis and toxicity

Effects of radon on soil microbial community and their growth

Is bacterial luminescence response to low-dose radiation associated with mutagenicity?

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