巴西波尔图和帕尔马斯市Tocantins河地表水遗传毒性的体内和计算机方法评估。

IF 1.2 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
José Lopes Soares Neto, Raíne Fogliati de Carli, Mauricio Lehmann, Cláudia Telles de Souza, Liana Appel Boufleur Niekraszewicz, Johnny Ferraz Dias, Fernanda Rabaioli da Silva, Juliana da Silva, Rafael Rodrigues Dihl
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引用次数: 2

摘要

城市地区,特别是巴西城市地区的主要环境问题是排放未经处理的污水。采用活体黑腹果蝇体细胞突变和重组试验(SMART)对巴西托坎廷斯河三个不同地点地表水的遗传毒性进行了评估。计算机方法用于搜索已知和预测的环境化学物质与果蝇和人类蛋白质之间的相互作用。采用标准杂交(ST)和高生物活性杂交(HB)进行遗传毒性试验,样品采集时间为雨季和旱季。用试验点未经处理的水处理后发现的突变点频率与阴性对照中观察到的频率进行了比较。收集点代表为Tocantins河沿岸的A、B和C点。地点A和B位于波尔图国家市,而地点C位于帕尔马斯市。考虑到雨季采集,ST杂交A和C位点的重组率分别为89.47%和85%,HB杂交A、B和C位点的重组率分别为88.24%、84.21%和82.35%。枯水期阳性结果主要集中在A位点和B位点,重组率分别为88.89%和85.71%。根据体内和计算机实验结果,我们假设果蝇和人类的核糖体蛋白(RPs)在暴露于重金属的细胞中被耗尽,导致DNA损伤和染色体不稳定,增加同源重组。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In vivo and in silico approaches to assess surface water genotoxicity from Tocantins River, in the cities of Porto Nacional and Palmas, Brazil.

The main environmental problem in urban areas, especially in Brazil, is the discharge of untreated sewage. The in vivo Drosophila melanogaster Somatic Mutation and Recombination Test (SMART) was used to assess the genotoxicity of surface waters from three different sites in the Tocantins River, Brazil. The in silico approach was used to search for known and predicted interactions between environmental chemicals found in our samples and Drosophila and human proteins. The genotoxicity tests were performed in standard (ST) and high bioactivation (HB) crosses with samples collected at two periods, the rainy and dry seasons. Mutant spot frequencies found in treatments with unprocessed water from the test sites were compared with the frequencies observed in negative controls. The collection points were represented as sites A, B and C along Tocantins River. Sites A and B are located in Porto Nacional City, whereas site C is located in Palmas City. Considering the rainy season collection, positive responses in the ST cross were observed for sites A and C (89.47% and 85% of recombination, respectively) and in the HB cross for sites A, B and C (88.24%, 84.21% and 82.35% of recombination, respectively). The positive results in the dry season were restricted to sites A and B (88.89% and 85.71% of recombination, respectively) in the HB cross. In accordance with in vivo and in silico results, we hypothesize that ribosomal proteins (RPs) in fruit fly and humans are depleted in cells exposed to heavy metal causing DNA damage and chromosome instability, increasing homologous recombination.

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