Janaina Rigonato scite author profile

Janaina Rigonato

4Publications

44Citation Statements Received

45Citation Statements Given

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Londrina State University

Publications

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Comet assay comparison of different Corbicula fluminea (Mollusca) tissues for the detection of genotoxicity

2005

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The comet assay was used to study the sensitivity of the widely distributed freshwater bivalve mollusk Corbicula fluminea to the DNA-damaging alkylating-agent methylmethane sulfonate (MMS). This study was undertaken to ascertain if C. fluminea is a good bioindicator of pollutants in aquatic environments and identify which C. fluminea tissue is most effective and practical for genotoxicity studies. The mollusks were exposed to 0.6, 1.2 or 2.4 X 10 -4 M MMS for 40 min and their hemolymph, gill tissue and digestive gland tissue assessed for the level of DNA damage and the time needed for the tissues to recovery. Regression analysis showed a direct linear dose-response relationship between MMS concentration and the number of damaged cells for hemolymph and digestive gland tissue but a quadratic relationship for gill tissue, which made the interpretation the gill tissue results difficult. The basal level of DNA damage to gill tissue was very high, possibly because gill is the organs most directly exposed to environmental toxins and mutagenic agents. Although all three types of tissue produced useful results, hemolymph and digestive gland tissue produced more reproducible and reliable results. Hemolymph was the best sample type in that it was easy to obtain and handle, while gill tissue required more manipulation to obtain cell suspensions. Our results indicate that C. fluminea is an optimal bioindicator for the determination genotoxic contaminants in aquatic environments.

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Mechanism of Action of Chlorophyllin against Mitomycin-C Mutagenicity in Allium cepa

2004

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Summary Chlorophyllin (CHL), a salt derivative of chlorophyll, has been demonstrated to be a potent agent against the deleterious action of different classes of mutagens. However, this effect depends largely on the test system, dose and conditions in which CHL is employed. The aim of this study was to examine in Allium cepa the toxic, cytotoxic and genotoxic effects of CHL and its capacity to inhibit such effects induced by the mutagenic agent mitomycin-C (MMC), under conditions of pre-treatment, post-treatment and concomitant treatment. The findings for this system indicate that CHL by itself does have toxic, cytotoxic or genotoxic effects. In examining the protective effect of this compound, CHL was not shown to reduce the cytotoxic effect previously produced by MMC in the first 20 h of treatment, but recovery from this effect was seen after 40 h. Under the conditions employed, this compound displayed an antigenotoxic or DNA-protective effect only immediately after treatment (20 h), being ineffective with the majority of concentrations tested after termination of the treatment.

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Detection of Genotoxicity of Water from an Urbanized Stream, in Corbicula fluminea (Mollusca) (In Vivo) and CHO-K1 Cells (In Vitro) Using Comet Assay

Rigonato

Mantovani

Jordão

2009

Arch Environ Contam Toxicol

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The comet assay was utilized to investigate the quality of water from seven locations along the Cambé Stream, in vivo (Corbicula fluminea hemolymph), in vitro (CHO-K1 cells), in situ, and in laboratory studies. The Cambé Stream basin (Londrina, PR, Brazil) is almost completely urbanized and receives different forms of industrial and domestic runoff. The data indicated the occurrence of DNA damage in cells examined in vivo and in vitro, shown by the significant increase in frequencies of cells with DNA damage after exposure to water from all seven locations used in the study. Our results strongly suggest the presence of genotoxic agent(s) in water at all of the sampled locations, demonstrated by elevated numbers of cells with DNA damaged in field and laboratory tests. In all of the places sampled, domestic sewage influence appeared to be one important cause for the introduction of xenobiotics, environmental genotoxins, and pollutants into the water. Thus, the comet assay applied in these cell systems was able to detect adverse environmental conditions, proving to be a very adequate short-term test and should be included in batteries of tests utilized in the monitoring of aquatic environments.

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Evaluation of the genotoxic potential due to the action of an effluent contaminated with Chromium, by the Comet assay in CHO-K1 cultures

et al. 2005

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