Cytokinesis block micronucleus assay in field plants for monitoring radiation-induced genotoxicity of the environment

•We developed and tested a cytokinesis block MN assay for plants.•High precision and efficiency was confirmed in root meristems of wild cedar seeds.•High accuracy was demonstrated in clear dose responses to ionizing irradiation. Effective biomonitoring for detection of radiation-induced genotoxicity...

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Bibliographic Details
Published in:Mutation research. Genetic toxicology and environmental mutagenesis 2014-11, Vol.774, p.41-46
Main Authors: Watanabe, Yoshito, Kubota, Yoshihisa, Fuma, Shoichi, Kouichi, Maruyama, Ichikawa, San’ei, Kubota, Masahide, Yoshida, Satoshi
Format: Article
Language:English
Subjects:
1-Methyl-3-isobutylxanthine - toxicity
Bioassays
Biomonitoring
Cryptomeria - drug effects
Cryptomeria - embryology
Cryptomeria - radiation effects
Cryptomeria japonica
Cytogenetics
Cytokines
Cytokinesis - drug effects
Cytokinesis - radiation effects
Dose-Response Relationship, Radiation
Environmental Monitoring - methods
Indicator organisms
Ionizing radiation
Japanese cedar (Cryptomeria japonica)
Meristem - drug effects
Meristem - embryology
Meristem - radiation effects
Micronuclei, Chromosome-Defective - drug effects
Micronuclei, Chromosome-Defective - radiation effects
Micronucleus Tests - methods
Plant genotoxicity
Radiation
Radiation Dosage
Seeds
Toxicity
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Summary:•We developed and tested a cytokinesis block MN assay for plants.•High precision and efficiency was confirmed in root meristems of wild cedar seeds.•High accuracy was demonstrated in clear dose responses to ionizing irradiation. Effective biomonitoring for detection of radiation-induced genotoxicity of contaminants in natural environments involves testing of field plants for cytogenetic changes. To increase the efficiency and precision of cytogenetic analyses of field plants that have naturally high individual variability, an improved micronucleus assay is proposed that employs a cytokinesis block technique similar to the lymphocyte test system used in mammals. In seed embryonic meristems of the Japanese cedar, application of a methylxanthine derivative, 3-isobutyl-1-methylxanthine (IBMX), was found to be effective in inhibiting cytokinesis to make once-divided cells easily recognizable by their binucleate appearance. In the meristem of IBMX-treated seminal roots from X-ray-irradiated seeds, variation in micronucleus frequency in the binucleate cell population was reduced compared to that in the total cell population. The highest efficiency of measurement of micronucleus frequencies was obtained in the root meristems where 0.2- to 1.5-mm-long seminal roots were incubated with IBMX for 24h. This result indicated that this root elongation stage corresponded to the first divisions of the root meristematic cells, and was therefore suitable for obtaining reliable estimations of accumulated genetic damage in the seeds. This cytokinesis block assay applied specifically at the root elongation stage was then used to examine dose–response relationships in Japanese cedar seeds irradiated either acutely with X-rays or chronically with γ-rays. The resulting dose–response curve for the acute X-ray irradiation was fitted onto a linear–quadratic regression curve, whereas the dose–response curve for the chronic γ-irradiation matched a linear regression line better. Both dose–response curves were consistent with the target theory of classical radiation biology. The good agreement of the micronucleus data to a simple dose–response model indicates the proposed accuracy of the cytokinesis block micronucleus assay for plant monitoring.
ISSN:1383-5718
1879-3592
DOI:10.1016/j.mrgentox.2014.08.009